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8102_RutherfordSouth_MSWLF_LFGMP_DIN28139_20170707
RUTHERFORD SOUTH MSW FACILITY (PERM IT #81-02) GAS MONITORING PROCEDURE Rutherford County, North Carolina Steve Garrison County Manager Prepared for Rutherford County June 2017 Prepared by: James Kilgo, Director Solid Waste Department Odom Engineering PLLC 169 Oak Street Forest City, NC 28043 828-247-4495 This page intentionally left blank Rutherford County Landfill Facility 2 This page intentionally left blank Rutherford County Landfill Facility 4 Table of Contents Rutherford County Landfill Facility Rutherford County, North Carolina 1.0 Introduction .................................................................................................................... 6 1.1 Background .......................................................................................................... 6 1.2 Contact Information ................................................................................................. 7 1.2.1 Owner .................................................................................................. 7 1.2.2 Engineer. ............................................................................................... 7 1.2.3 Solid Waste Regulatory Agency .................................................................... 7 1.3 Existing Site Conditions ............................................................................................ 8 1.3.1 Topography ............................................................................................ 8 1.3.2 Local Groundwater Regime ......................................................................... 8 2.0 Landfill Gas Monitoring ...................................................................................................... 8 2.1 Perimeter Monitoring Network .................................................................................... 8 2.1.1 Existing Network ..................................................................................... 8 2.1.2 Site Features ........................................................................................... 8 2.1.3 Well Placement Limitations ......................................................................... 9 2.1.4 LFG Monitoring Well Construction ................................................................ 9 2.2 Monitoring and Reporting ........................................................................................... 9 2.2.1 Frequency ............................................................................................... 9 2.2.2 Personnel. .............................................................................................. 9 2.2.3 Equipment .............................................................................................. 9 2.2.4 Procedures ............................................................................................ .10 2.2.5 Precautionary Plan .................................................................................... 11 2.2.6 Record Keeping ....................................................................................... 11 2.2.7 Sampling Reports .................................................................................... .12 2.3 Maintenance .......................................................................................................... 12 3.0 Contingency Plan ............................................................................................................. .12 3 .1 Introduction ........................................................................................................... 13 3.2 Compliance Action Plan ............................................................................................ 13 3 .2.1 Immediate Action Plan .............................................................................. 13 3 .2.2 Reporting and Documentation ...................................................................... 13 3.2.3 Remediation Plan ..................................................................................... 13 Rutherford County Landfill Facility 5 1.0 INTRODUCTION 1.1 Background The Rutherford County Solid Waste Management Facility-South encompasses approximately 41 acres, permitted under Solid Waste Permit #81-02. The Landfill Gas Monitoring Plan (Plan), prepared by Odom Engineering, PLLC, presents a comprehensive landfill gas (LFG) monitoring program at the Rutherford County Landfill Facility-South (NC Solid Waste Permit #81-02); with the objective to provide clear guidelines and procedures for field personnel when monitoring for landfill gas in the subsurface. This plan does not address landfill gas collection, or other air quality regulations that may apply to this site, subject to the new source performance standards (NSPS) of the Clean Air Act (CAA). The proposed plan presents the rationale for the monitoring program as well as necessary actions required by the Owner to protect and safeguard the area surrounding the landfill and to satisfy North Carolina Solid Waste Management Rules [13B.0544(d)] for monitoring and controlling LFG; ensuring the measured concentration of methane gas does not exceed the lower explosive limit at the facility boundary and 25 percent of the lower explosive limit for methane in facility structures. Landfill gas readings will be collected quarterly and results will be submitted to the Division if concentrations exceed the designated limit of l 00% of the Lower Explosive Limit (LEL) at the current compliance landfill gas monitoring wells or exceed 25% of the LEL in any on-site structure. The landfill gas monitoring plan is designed to be effective in landfill gas detection to protect the health and safety of North Carolina citizens from asphyxiation and explosive landfill gas hazards while considering site features that may affect the flow of landfill gas. The Engineer utilized the best available site data, practices, experience and judgment to develop this plan; however, the program may require modification and maintenance over time to accommodate changing landfill conditions, changing receptors in areas adjacent and around the landfill, or other conditions that cannot be fully anticipated. Maintenance suggestions are also provided to help identify secondary conditions that may require Plan updates. Facility conditions or unforeseen sampling variables that warrant deviation from standard procedure will conform to the Solid Waste Section Landfill Gas Monitoring Document (Guidance Document). Uncontrolled LFG migration can result in property loss, injury, vegetative damage and intolerable odors. Landfill monitoring includes exposure to explosive gases. Operational and/or monitoring staff should be specifically trained in the management and response for situations such as fire or explosion and possess awareness of changing conditions around these sites. Rutherford County Landfill Facility 6 1.2 Contact Information In case of emergency, or if questions arise during implementation, please contact the following 1.2.1 Owner Rutherford County 289 N. Main Street Rutherfordton, North Carolina 28139 Phone: (828) 287-6060 Mr. James Kilgo -Solid Waste Manager Email: j ames.kilgo@rutherf ordcountync. gov 1.2.2 Engineer Odom Engineering, PLLC 169 Oak Street Forest City, North Carolina 28043 Phone: 828-247-4495 Mr. David Odom, P .E., Owner Email: davidodom@odomengineering.com 1.2.3 Solid Waste Regulatory Agency North Carolina Department of Environmental Quality Division of Waste Management: Raleigh Central Office (RCO) 217 W. Jones Street Raleigh, North Carolina 27603 Phone: (919) 707-8200 Ms. Jackie Drummond, Compliance Hydrogeologist Email: jaclynne.drummond@ncdenr.gov Mr. Kris Riddle, Environmental Senior Specialist Email: Kris.riddle@ncdenr.gov Rutherford County Landfill Facility 7 1.3 Existing Site Conditions The monitored area includes the closed MSW landfill, the property boundary and on-site structures. 1.3.1 Topography The closed landfill is located on approximately 41 acres owned by Rutherford County. The permitted facility boundary site is bound on the East by the Second Broad River and to the South by Avondale Landfill Road. Existing ground surface elevations in the Rutherford County Landfill Facility-South area generally range from EL 759 feet asl to EL 846 feet asl. The facility location is provided on Figure 1. 1.3 .2 Local Groundwater Regime Groundwater in the upper-most aquifer generally flows through unconsolidated sediments southwest toward Cleghorn Creek and southeast towards an unnamed tributary of Stonecutter Creek. Discharge primarily occurs along the perennial streams existing at the southeast and southwest sides of the site. These conditions are considered typical of this area. There are no obvious confining layers. 2.0 LANDFILL GAS MONITORING 2.1 Perimeter Monitoring Network 2.1.1 Existing Network The existing LFG monitoring network for the Rutherford County Landfill includes thirteen wells (LFG-1, LFG-2, LFG-3, LFG-4, LFG-5, LFG-6, LFG-7, LFG-8, LFG-9, LFG-10, LFG-11, LFG-12, LFG-13) for the closed MSW Landfill. The perimeter LFG monitoring system is designed to intercept potential migrating LFG. LFG-1 is located near the South boundary between the East and West boundary. LFG-2 is located along the South boundary near the East boundary .. LFG-3 is located near the intersection of the South and West boundaries. LFG-4 is located along the West boundary between the North and South boundary. LFG-5 is located near the intersection of the North and West boundary. LFG-6 and LFG-7 are located along the North boundary. LFG-8 is located along the North boundary near the intersection of the North and East boundary. LFG-9 is located at the intersection of the North and East boundary. LFG-10 is located along the East boundary. LFG-1 lis located southeast of the South boundary. LFG-12 & 13 are located along the South boundary. Landfill gas monitoring locations are shown on Figure 2. 2.1.2 Site Features . The landfill property is bounded to the East by the Second Broad River and to the South by Avondale Landfill Road. Rutherford County Landfill Facility 8 2.1.3 Structure and Ambient Sampling The (2) two training trailer facilities on-site are monitored quarterly in accordance with the NCDEQ LFG Guidance Document. 2.1.4 Well Placement Limitations The LFG monitoring well locations were determined by the surrounding area condition, soil type, waste location and nearby water bodies. 2.1.5 LFG Monitoring Well Construction The existing monitoring wells are installed just above groundwater depth. Wells are screened with 2-inch diameter PVC IO-slot screen from the total well depth to between 5 feet and 10 feet below grade. Each well is completed with solid PVC riser pipe, a landfill gas monitoring well cap fitted with a stopcock valve or quick connect fitting and locking outer steel casing. See Figure 3. 2.2 Monitoring and Reporting Monitoring and reporting of LFG gas concentrations shall be performed in accordance with guidance by the Division of Waste Management document "Methane Monitoring Guidance" (www.wastenotnc.org/swhome/met_mon.html) and as outlined below. 2.2.1 Frequency LFG monitoring will be conducted quarterly to insure that landfill gas does not exceed the lower explosive limit (LEL) at the current compliance landfill gas monitoring wells and 25% LEL at facility structures. Modifications to monitoring frequency can be obtained through the Division. If methane readings exceed the specified limits, protection of human health is the primary objective. Within seven days the landfill gas levels detected will be recorded in the log with the steps taken to protect human health. Within 60 days a remediation plan that describes the nature and extent of the problem as well as the proposed solution will be implemented, a copy of the plan will be recorded in the log and the Division will be notified. 2.2.2 Personnel LFG monitoring will be performed by personnel trained in LFG hazards and explosive gas meter use. A designated landfill technician will be assigned to regular LFG monitoring duty. 2.2.3 Equipment Rutherford County Landfill Facility 9 Rutherford County will utilize a landfill gas instrument (GEM-2000) that meets the Division Landfill Gas Monitoring Guidance requirements for methane, oxygen and carbon dioxide. See Appendix A. 2.2.4 Procedures Prior to each monitoring event, portable methane field instruments will be calibrated with a known calibration standard in accordance with manufacturer's recommendations. The equipment used calibration procedure and results for each sampling event will be indicated on the landfill gas sampling data sheet and will be included in the sampling report. An example data form is provided in AppendixB. The following steps outline the procedure for the LFG well monitoring: •Check calibration date on the meter and calibrate according tomanufacturer's instructions; allowing equipment to warm up properlyprior to use, per manufacturers direction. $1 Purge sample tube for one minute before sampling.•Connect instrument tubing to sample port on the monitoring well withoutremoving the cap-See Appendix C. @ Open the valve and record the stabilized reading. A stabilized readingwill not vary more than 0.5 percent by volume on the instrument's scale.Recorded readings will include the oxygen concentration, at two percentper volume or less to indicate air is not being drawn into the systemproviding false readings, and barometric pressure. @ Record data on the monitoring log form provided in Appendix B.•Tum off the valve and disconnect the tubing. @ If less than 50% LEL, move to next LFG monitoring well. If deviation from the prescribed plan is warranted, sample integrity and adherence to the Guidance Document will be priority. Modifications will be noted on the sampling log. If explosive gas concentrations equal to or greater than 50% of the LEL in a LFG monitoring well, personnel should implement the Precautionary Action Plan located in Section 2.2.5. IF EXPLOSIVE GAS CONCENTRATIONS EQUAL TO OR GREATER THAN 100% OF THE LEL IN A LFG MONITORING WELLS, THE FOLLOWING ACTIONS SHALL BE IMPLEMENTED BY PERSONNEL: (1)Recalibrate monitoring equipment and confirm results.(2)If results are confirmed, IMMEDIATELY contact the Solid Waste Manager. (3)Implement the Compliance Action Plan located in Section 3.2. 2.2.5 Precautionary Action Plan Rutherford County Landfill Facility 10 If explosive gas concentrations are equal to or greater than 50% of the LEL in a LFG monitoring well, personnel should perform the following additional steps at those locations: e Measure gas pressure in the well head (in inches of water) using magnehelic gauge or other appropriate metering device. G Record at least one additional gas concentration measurement, inside well just below the top of casing. •Evaluate surrounding area for potential receptors to or signs of LFGmigration. LFG can stress vegetation and can kill trees and grass by root asphyxiation. Note stressed/dead vegetation areas on the monitoring form. Monitoring should be conducted in this manner for wells with concentrations equal to or greater than 50% LEL during monitoring events. Detailed procedure descriptions, actions performed and relevant sampling information should be recorded, kept in the operating record and repmied to the Solid Waste Manager and Engineer for further evaluation. 2.2.6 Record Keeping Readings will be documented on the LFG monitoring log form provided in Appendix B. The Landfill Gas Monitoring Report Form will contain the facility name, permit number, type of landfill gas monitoring instrument used, instrument calibration date, landfill gas monitoring event date, sample collector name, instrument pump rate, ambient air temperature, and general weather conditions. For each well the sampler will record the well location or well identification, barometric pressure, time pumped (sec), time reading collected,% LEL, % methane by volume, % oxygen, % carbon dioxide and notes, observations or comments relative to the sampling event. Completed forms will be reviewed and initialed by the County Solid Waste Manager following each monitoring event and placed in the landfill operating records. Landfill gas monitoring logs will remain on file in the landfill office and/or the Rutherford County Public Works Building at 131 N. Washington Street, Rutherfordton, North Carolina 28139. These readings should be available for review by NCDEQ and EPA personnel on request. If readings above 100% LEL are measured at the current compliance landfill gas monitoring wells, a copy of the LFG monitoring form and an Environmental Data Reporting Form shall be submitted to NCDEQ with the implemented action. Rutherford County Landfill Facility 11 2.2.7 Sampling Reports The facility name, permit number, landfill gas monitoring instrument type, calibration date, landfill gas monitoring event date, sample collector name, instrumentation pump rate, ambient air temperature and general weather conditions will be included at the top of landfill gas documentation. For each well the time pumped in seconds, barometric pressure, time stabilized reading collected, % LEL, and % methane by volume and observations or comments will be documented. Documentation will be recorded on the Landfill Gas Monitoring Report Logs provided by NC Division of Waste Management-Solid Waste Section or logs established in the same fashion. An example log is included in Appendix B. 2.3 Maintenance Periodic maintenance and site observations shall be conducted routinely to address monitoring program components (at a minimum): •Maintain access to monitoring well and gas well locations. @ Observe landfill cover conditions, potential erosion areas, landfill seeps, odors,etc.•Monitoring well maintenance: operational locks, steel casing and concrete padconditions, etc.Note deficiencies on the monitoring forms and report to the Solid Waste Manager for repair or replacement as necessary. Rutherford County Landfill Facility 12 Odom Engineering PLLC 169 Oak Street, Forest City, "I.C. 28043 ph: 828.247.4495 fax: 828.247.4498 RUTHERFORD COUNTY LANDFILL-SOUTH FIGURE 1 '·-· ·it .. ,,.;-· \l, .. \ .. r, , ·o I L I'. : ',J !,'''. I • p-A 't, X ; I " / 1\·' ;-·.,l·, , ..,.,·,t(\;;, JUNE 27, 2017 SCALE: N.T.S. (0 1---+-----l---------------+-''--j =�>----+----4---------------+--'� !�>---+--+--------------�"( l1YC J.8 NOU.d!IOSlO WELL T A6 INa.. TtE FOI..J..OVv'IN6 11\f'ORMAT!al) WELL ID: DR.lLIN0 u;MPANY: DATE OF INST Jd..LAT!al:TOfAL DEPni: CON5TRUCT!al DET AIL5: I' I 2: I 5EA%NAL. Hl6H WATER TAel.E IB" IB" ' '\ \ I I I / /·: .. -... WELL CONSTRUCTION N.T.S. ('?' MIN. STICK LP WIT11 LOCKIN0 tu\JER) (CEM:Nr AND � e>ENTONITE) FIGURE 3 APPENDIX A Rutherford County Landfill Facility 14 ••LANllEC GEM ™2NAV Plus GEM ™2NAV GEM ™2000 Plus GEM ™2000 GAS ANALYZER & EXTRACTION MONITORS OPERATION MANUAL for Serial Numbers 10000 and up GEM2xxx Instruments Operation Manual I.ANll1EC ©copyright 2009 by LANDTEC All rights reserved. No part of this book may be used or reproduced in any form or by any means, or stored in a database or retrieval system, without consent of the publisher. Making copies of any part of this book for any purpose other than your own personal use is a violation of copyright laws. LANDTEC and GEM are registered with the U.S. Patent and Trademark Office. For further information contact: LANDTEC North America 850 S. Via Lata, Suite 112 Colton, CA 92324 United States of America Sales Tel: +1 (800) 821-0496 or +1 (909) 783-3636 Sales Email: sales@LANDTECNA.com Instrument Service Tel: +1 (909) 783-3636 x 6141 Software Support Tel: +1 (909) 783-3636 x 6131 Software Support Email: support@DataField.com Web: www.LANDTECNA.com LANDTEC Europe Formerly Geotechnical Instruments Sovereign House Queensway Leamington Spa, Warwickshire CV31 3JR England Tel: +44 (0) 1926 338-111 Web: www.geotech.co.uk LANDTEC South America LANDTEC Produtos e Servicos Ambientais Ltda. Rua Pedroso de Carmargo, 237 -Chacara Santo Antonio -SP/SP CEP 0417-010 Brasil Phone: +55 (11) 5181-6591 Web: www.landtecbrazil.com.br This manual is subject to rev1s1on without prior notice. Please periodically check our website for a newer revision. Revision Date Approved bv Translated from Comment A Oct-2009 N/A This document uses Arial, Wingdings, Wingdings 2, Wingdings 3, G/2k fonts. Printing of this document to PDF should only be done if these fonts are present. "Whitespace" has been removed from many of the graphical images and the images are otherwise "cropped" to reduce the total number of pages. These alterations of the actual screen images do not detract from the technical content oresented1st Release of this manual B Nov-2009 MC&SM N/A Minor Corrections I Final Proofing B1 Nov-2009 SM NIA Minor corrections to images C1 16-Feb-2010 SM NIA Explanation of single media format & software installation. C1a,b 1-Mar-2010 SM N/A Environmental Chamber Clarified. H2S & CO specs modified C2 Nov -2010 MC N/A Clarified instruments are not total hydrocarbon analyzers, cross gas interference and solutions for tvpical interferences. Page ii REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Instruments Operation Manual Contents 1 INTRODUCTION ........................................................................................................................ 1 1.1 PHYSICAL CHARACTERISTICS OF THE GEM2xxx INSTRUMENTS .......................................................... 2 1.2 STORAGE ......................................................................................................................................... 3 1.3 BATTERY/CHARGING ......................................................................................................................... 4 1.4 INSTRUMENT CERTIFICATION ............................................................................................................. 4 1.5 SAFETY INFORMATION ...................................................................................................................... 4 1.6 TURNING THE INSTRUMENT ON/OFF .................................................................................................. 5 1.7 WARM-UP SELF TEST ....................................................................................................................... 5 1.8 WARNING AND ERROR DISPLAY ......................................................................................................... 5 1.8.1 WARNING Displayed ............................................................................................................... 5 1.8.2 ERROR Displayed ................................................................................................................... 6 1. 9 SERVICE INFORMATION SCREEN ........................................................................................................ 6 1.10 TECHNICIAN ID SCREEN ................................................................................................................... 6 1.11 GAS READING SCREEN ..................................................................................................................... 6 1 .11 .1 Keypad Lock ............................................................................................................................ 7 1.12 OPTIONAL GAS PODS ....................................................................................................................... 7 1.13 MEMORY ......................................................................................................................................... 7 1.13.1 Cold Start ................................................................................................................................. 8 1.13.2 Recover Readings ................................................................................................................... 8 1.13.3 Print Readings ......................................................................................................................... 8 1.14 RADIO FREQUENCY (RF) INTERFERENCE ........................................................................................... 8 2 THE LANDTEC SYSTEM GAS ANALYZER MANAGER (LSGAM) SOFTWARE .................... 9 2.1 CONFIGURATION OPTIONS ................................................................................................................ 9 2.2 LANDT EC SYSTEM ONLINE USERS .................................................................................................. 9 2.3 OFFLINE USERS ............................................................................................................................... 9 2.3.1 Installation with the CD .......................................................................................................... 1 O 2.3.2 Startup ................................................................................................................................... 12 2.3.3 Navigation .............................................................................................................................. 13 2.4 CONNECTING TO THE INSTRUMENT .................................................................................................. 14 2.5 CREATE A PROJECT / SELECT A PROJECT ........................................................................................ 15 2.6 ID SETUP ....................................................................................................................................... 17 2.6.1 Creating Comments ............................................................................................................... 17 2.6.2 Creating IDs ........................................................................................................................... 17 Importing DataField CS IDs ................................................................................................................. 22 2.6.3 Create a new project based upon IDs ALREADY IN THE INSTRUMENT: ............................. 22 2.7 CREATING YOUR SITE QUESTIONS ................................................................................................... 23 WORKING WITH DEVICE IDs ....................................................................................................................... 25 2.8 SENDING IDS TO THE INSTRUMENT .................................................................................................. 27 Clearing ID s from your instrument or Deleting a Project.. .................................................................... 30 CLEARING THE INSTRUMENT MEMORY ........................................................................................................ 31 2.9 INSTRUMENT SETTINGS ................................................................................................................... 32 2.9.1 Alarm Settings ....................................................................................................................... 33 2.9.2 Data Logging ......................................................................................................................... 33 EVENT LOG ............................................................................................................................................... 34 2 .10 MISC OPTIONS ............................................................................................................................ 35 2.11 UNITS OF MEASUREMENT ............................................................................................................ 37 DOWNLOADING READINGS ......................................................................................................................... 38 CLEAR READINGS ..................................................................................................................................... 39 EXPORTING READINGS .............................................................................................................................. 40 Page iii REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Instruments Operation Manual GENERAL OPERATIONS MENU .................................................................................................. 42 2.12 ZERO TRANSDUCERS .................................................................................................................. 42 2.13 UPDATE SITE DATA ..................................................................................................................... 43 2.14 DATA LOGGING (GA MODE ONLY) ................................................................................................ 43 2.15 OPERATING LANGUAGE ............................................................................................................... 43 2.16 VIEW DATA ................................................................................................................................. 43 2 .17 ADJUST CONTRAST ..................................................................................................................... 43 2.18 FIELD CALIBRATION .................................................................................................................... 43 2.18.1 Zero Channels ....................................................................................................................... 44 2.18.2 Span Channels ...................................................................................................................... 44 2.18.3 Factory Settings .................................................................................................................... 44 2.18.4 Last Field Cal ........................................................................................................................ 45 2.19 MODE OF OPERATION ................................................................................................................. 45 2.20 INFORMATION SCREEN ................................................................................................................ 45 NAVIGATION ............................................................................................................................................. 45 2.21 EXIT MENU ................................................................................................................................. 45 3 TAKING PROBE READINGS (GA MODE) .............................................................................. 46 3.1 PRELIMINARY CHECKS .................................................................................................................... 46 3.2 UPDATE SITE DATA ........................................................................................................................ 46 3.3 TAKING READINGS-WITH ID .......................................................................................................... 46 3.4 TAKING READINGS-WITHOUT ID ................................................................................................... 48 3.5 TEMPERATURE PROBE READING ..................................................................................................... 49 3.6 CROSS-GAS EFFECTS .................................................................................................................... 49 3.6.1 Methane, Carbon Dioxide and Oxygen .................................................................................. 49 3.6.2 H2S, CO and other Optional Gas Pods .................................................................................. 49 3.6.3 GEM2xxx Plus Internal Electrochemical Cells for Measuring H2S and CO ............................ 50 4 TAKING EXTRACTION WELL READINGS (GEM MODE) ..................................................... 51 4.1 PRELIMINARY CHECKS .................................................................................................................... 51 4.2 UPDATE SITE DATA ........................................................................................................................ 51 4.3 TAKING GAS AND FLOW READINGS (GEM MODE) ............................................................................ 51 5 FIELD OPERATIONS .............................................................................................................. 54 5.1 LANDFILL GAS GENERATION ........................................................................................................... 54 5.2 SUBSURFACE FIRES ....................................................................................................................... 54 5.3 TECHNIQUES FOR CONTROLLING LANDFILL GAS ............................................................................... 54 5.3.1 Controlling by Wellhead Valve Position ................................................................................. 55 5.3.2 Controlling by Wellhead Vacuum ........................................................................................... 55 5.3.3 Controlling by Gas Composition ............................................................................................ 55 5.3.4 Controlling by Flow Rate ....................................................................................................... 55 5.4 WELL FIELD MONITORING ............................................................................................................... 56 5.5 TYPICAL FIELD READINGS ............................................................................................................... 56 5.6 ABBREVIATED FIELD READINGS ....................................................................................................... 56 5.7 WELL FIELD ADJUSTMENT CRITERIA ................................................................................................ 57 5.8 ESTABLISHING TARGET FLOWS ....................................................................................................... 57 5.9 WELL FIELD OPTIMIZATION ............................................................................................................. 58 5.10 MIGRATION CONTROL-DEALING WITH POOR METHANE QUALITY ..................................................... 58 5.11 WELL FIELD ADJUSTMENT-PURPOSE AND OBJECTIVES .................................................................. 58 Page iv REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Instruments Operation Manual 6 TROUBLESHOOTING ............................................................................................................. 59 7 SERVICE & MAINTENANCE .................................................................................................. 60 7.1 FACTORY SERVICE ......................................................................................................................... 60 7.2 FACTORY SERVICE FACILITIES ......................................................................................................... 61 7.3 USER MAINTENANCE ...................................................................................................................... 61 TECHNICAL SPECIFICATIONS .................................................................................................... 62 7 .4 PHYSICAL. ...................................................................................................................................... 62 7.5 GENERAL ....................................................................................................................................... 62 7.6 POWER SUPPLY .............................................................................................................................. 62 7.7 GAS RANGES ................................................................................................................................. 62 7.8 PUMP ······························································································································ ·············· 63 7.9 OPERATING CONDITIONS ................................................................................................................ 63 7 .10 OPTIONAL GAS PODS ..................................................................................................................... 63 7.11 REGULATORY COMPLIANCE LABELS AND STATEMENTS ..................................................................... 64 Page V REV C2 (English) LANDTEC Release Date: November 301", 2010 GEM2xxx Operation Manual 1 Introduction LANDTEC is the premier manufacturer of products, instruments and software for landfill gas extraction and regulatory monitoring compliance. LANDTEC has provided the landfill industry with a technologically innovative family of products for more than a decade. These products are the result of field-proven experience in design, operation and maintenance of landfills for environmental compliance. The GEM2000, GEM2000 Plus, GEM2NAV and GEM2NAV Plus instruments designed by LANDTEC, are specifically for use on landfills to monitor landfill gas (LFG) extraction systems, flares and migration control systems. These instruments sample and analyze the Methane, Carbon Dioxide and Oxygen content of LFG. The GEM instruments are not total hydrocarbon analyzers. The Plus versions (GEM2000 Plus and GEM2NAV Plus) also sample and analyze Carbon Monoxide and Hydrogen Sulfide. The NAV versions (GEM2NAV and GEM2NAV Plus) include an integral GPS (Global Positioning System). The readings are displayed and stored in the instrument and can be downloaded to a personal computer for reporting, analyzing and archiving. Since there are variations to the features of the instruments, this single manual is designed to cover all instrument versions. Throughout this manual, the term GEM2xxx is intended to refer to ANY of the GEM instruments with a serial number above 10,000. Features specific to one particular instrument will be designated within this manual to be specific for the particular instrument. The GEM instruments are shipped in a protective hard case with a foam interior that offers additional protection, transportation convenience and component hardware storage. When properly sealed, the hard case is watertight. The hard case is equipped with a pressure relief valve (located under the handle on the case) that is normally kept closed. If there is a change in elevation, the hard case may not open until the pressure relief valve is opened to equalize internal pressure. When shipping an instrument to LANDTEC for calibration or service, always ship it in the hard case to protect unit from damage. It is a good idea to also call and generate a Service or Repair Authorization (RA) prior to sending the instrument. This ensures proper routing of your instrument once it arrives at LANDTEC. The RA also will detail a list of reasons as to why the instrument is being returned for service. If an RA does not exist when the instrument arrives it can delay service of your instrument. Carefully unpack the contents of the instrument package, inspect and inventory them. The following items should be contained in your package: Page 1 >-The GEM2000, GEM2000 Plus, GEM2NAV or GEM2NAV Plus instrument (Plus instruments have a Silver Keyboard and the numbers 1, 3, 5, 7, and 9 will be white on a blue background with a red highlight.) >-Operation Manual >-Registration/Warranty Card >-Soft carrying case with replaceable protective window and carrying strap >-Clear¼" vinyl sampling hose assembly (5 ft.) with external water trap filter assembly >-Blue ¼" polyurethane pressure sampling hose (5 ft.) >-Spare internal particulate filter element >-Polypropylene male connector (hose barb) connects to blue & clear tubing >-Spare O-rings for the male connectors >-Spare external water trap filter element >-100-240 volt battery charger>-Software on CD-ROM >-USB communications cable � Temperature probe (optional) � Hard carrying case REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Complete the Registration/Warranty Card and return it to LANDTEC. The model and serial numbers are located on the back of the instrument. Immediately notify shipping company if the instrument or accessories are damaged due to shipping. Please keep all packaging material and take pictures to document the damage. Next, contact LANDTEC immediately so that a claim can be established with the shipping company. For questions regarding instrument operation and procedures, please contact LANDTEC at the regional office of your choice. General Operational Features 1.1 Physical Characteristics of the GEM2xxx instruments 1 Exhaust Port 2 Temperature I Gas Pod / Communications Socket (Connector "A") 3 Power Socket (Connector "B'') 4 Particulate Filter Housing ( on back of instrument) 5 Sample Inlet, Static or System Pressure Port 6 Impact Pressure Port Page 2 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual ---® G)- CV- ($)- -® CD CD key � � key, up arrow, 'A' cursor key, scroll up ® CTl key ® ® key, left arrow, '<' cursor kev, scroll left � � key @ ® key, right arrow, '>' cursor key, scroll right (Z) <v key @ ® key, down arrow, 'v' cursor key, scroll down ® ® key @ @ key, (zero) key, Backlight operation, Keyboard Lock (press and hold for 2 second to activate keyboard lock, press again to deactivate the lock) Pump Operation, Pump On/Off, Backspace Key (press and hold for 1 second to backspace) ._I Enter/Store key @) Red Power Button, On-Off (Press and Hold for 2-3 seconds for normal On-Off function, Press and Hold for 15 seconds to forcibly turn off the instrument) 1.2 Storage Do not keep the instrument in the trunk of a car or shed because it may be exposed to temperature extremes. After use or before storing the instrument it should be purged with clean nitrogen or air. Purging with nitrogen may prolong the oxygen sensor's life. When not in use, instruments and accessories should be kept clean, dry and warm inside of their hard case. Page 3 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual The instrument batteries should be discharged and fully charged at least once every four weeks regardless of indicated charge state. The discharge function may be carried out with the use of the Data Logging Function in GA mode of operation. 1.3 Battery/Charging The Battery Charger IS NOT covered by the unit UL certification. Warning -To reduce the risk of ignition of a flammable or explosive atmosphere, charge batteries only in an area known to be non-hazardous" or equivalent. The battery used in the GEM2xxx instrument is an encapsulated six cell, Nickel Metal Hydride pack. This type of battery is not as susceptible to "memory effects" as Nickel Cadmium batteries, although it is not recommended that the unit be given short-term charges. When the flashing LED indicates 'Trickle Charge" the charging is completed and the unit should be disconnected from the charger. The battery charger indicates when the unit is charging, charged or if there is a fault. A full charge should take approximately 2 hours. 1.4 Instrument Certification The GEM2xxx is UL/Sira certified for use in hazardous locations. Specifically certified as to intrinsic safety for use in hazardous locations Class I, Zone 1, AEx ib d IIA T1 (Ta=32°F to +104°F). When the GEM2xxx instrument is in the hazardous area it shall only be externally attached via connector A to devices that are marked with the UL File Number E203142 For the certification to remain intact it is vital that the instructions in this manual are followed closely and repair of this equipment be carried out in accordance with the applicable code of practice by an approved repair facility. See section 7.2 for a list of authorized repair locations. It is the responsibility of the operator to determine the protection concept and classification required for a particular application. 1.5 Safety Information The GEM2xxx instruments are normally used for measuring gases from landfill sites. Inhalation of any gas may be harmful to health and in some cases may be fatal. It is the responsibility of the user to ensure that they are adequately trained in the safety aspects of the gases being used and that appropriate procedures be followed. In particular, where hazardous gases are being monitored or used the gas exhausted from the analyzer must be piped to an area where it is safe to discharge the gas. Hazardous gas can also be expelled from the instrument when purging with clean air. Page 4 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual 1.6 Turning the Instrument On/Off When switching the instrument on, a long beep will sound, followed by the LANDTEC logo being displayed and the self-test will commence. Whenever a key is pressed the unit will emit a short 'beep' as an acknowledgement. This function cannot be turned off. When switching the instrument off, the On/Off button must be held down for approximately 2-3 seconds, at which point a clean air purge will be carried out. If for any reason the instrument 'locks-up' and will not switch off, press and hold the On/Off button for 15 seconds. This will force the instrument to switch off. 1.7 Warm-up Self Test When switched on, the instrument will briefly display the LANDTEC logo and perform a predetermined self test sequence taking approximately 30 seconds, during this time many of the instrument's functions are tested, including: •General operation •Pump function •Gas flow measurement •Calibration •Backlight function •Solenoid function During the self-test, the following information is also displayed: •Software version •Serial Number •Calibration due date •Date format •Operating language •Communication Baud rate Depending upon your version of GEM2xxx instrument you may see additional items listed from the self-test as well. 1.8 Warning and Error Display During the self-test, if any operational parameters are out of specification or the pre-programmed recommended calibration/service date has passed errors or warnings may be displayed. Only three errors/warnings can be displayed at any time. To ascertain if more errors occurred, use the ·,: and 'v' key to scroll up/down the list, to exit from this screen press the "Enter/Store" key 'J'. 1.8.1 WARNING Displayed All warnings displayed will be prefixed by the word "WARNING' followed by a relevant description. Two types of warnings may be displayed. 1.General warnings that may not have an effect on the instrument's function and those where the self-test has detected a function that is outside the usual programmed operating criteria (e.g. Battery charge low,memory nearly full, etc.).2.Specific warnings of operational parameters that can affect the performance of the instrument (e.g. 02 Cell out of calibration, CH4 out of calibration, CO2 out of calibration, etc.). The most likely reason for the errors is either an incorrect user calibration, or sensor failure. If an incorrect user calibration has caused the warning, it should be correctable by way of returning the instrument to factory settings, zeroing or carrying out a user calibration as necessary for the relevant function. Page 5 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual 1.8.2 ERROR Displayed All errors displayed will be prefixed by the word 'ERROR' followed by a number and description. The errors detected by the self-test are usually caused by a user calibration being out of specification or possibly memory corruption. This will have an effect on the functionality of the instrument and should be corrected before use (e.g. 01 -User cal data, CH4 reading or channel out of specification, 02 -User cal data, CO2 reading out of specification). If any other Warnings or Errors are displayed, contact a LANDTEC Authorized Service Facility for further information. 1.9 Service Information Screen Upon self-test completion, the instrument will display service information including when the next manufacturers service is due, what type of service agreement the instrument is under (if applicable), and when the last factory gas check was performed. To exit from this screen press the "Enter/Store" key '.J'. 1.10 Technician ID Screen The Technician ID screen is displayed after the Service Information screen. It is not necessary to input a Technician ID but it is suggested to do so for record purposes. Up to four characters can be entered to identify the technician performing the readings. This technician ID will be appended to all readings that are taken until the instrument is turned off. To change the Technician ID simply turn the instrument off and back on again. The Technician ID can be input through a virtual key board shown on the instruments display. Letters or numbers can be selected by using the 'A' and 'v' keys to scroll up/down and the '<' and '>' to scroll left and right. Pressing the "Enter/Store" key '.J' will select the highlighted character. Once the Technician ID is selected, or to bypass selecting any characters press the '(J)' button. 1. 11 Gas Reading Screen After inputting or bypassing the Technician ID, the instrument will go into the Gas Reading screen, also considered the normal operation screen. All operations are carried out from this starting point. The following information is displayed in various boxed sections at this time: •Current programmed time and date•Current selected ID code•Pump status•Pump run time •Three main constituent gases -CH4, CO2, 02 (in %)•Two minor gases -CO & H2S and indication of H2 (GEM2xxx Plus instruments only)•Balance gas•Last read time/date (if previous data is in memory)•Technician ID•External devices (displays pod type or temperature probe readings when attached)•% LEL CH4 (if selected through LSGAM)•Barometric pressure reading.•Current relative pressure reading (GA mode only)•Gas Pod or Temperature Probe reading (if connected)•Battery Charge graph (5 segment, flashes at 20% remaining) •Memory Usage graph (5 segment, flashes at 5% remaining) Other options: (J) Menu Allows access to all instrument user functions. G.> Next ID / GPS Screen / (5) Measure Flow (2) Previous Reading .J Store Reading Page6 Allows the next ID to be selected (if IDs are available). (GPS Screen is for GEM2NAV Models when ID's are not used) For GEM mode only. Allows the previous reading of the selected ID to be viewed (if data is available). Stores the current displayed reading. (GA mode only) REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual 1.11.1 Keypad Lock After the instrument enters into the Gas Reading Screen, and from this point forward, the keypad can be locked by pressing and holding the backlight key for approximately 2 seconds. A message will display at the bottom of the display instructing you that to release the lock you will need to press and hold the backlight button. 1. 12 Optional Gas Pods Optional Gas Pods are available for use with the instruments. These pods are available for a variety different gases. For certain gases, more than one PPM range may be available; consult with a sale representative for the Gas Pod that would best meet your specific needs. Connection to the instrument is made via the communications socket and exhaust port. The detected PPM level is displayed in the upper right area of the gas read screen and is saved in the same manner as the other gas readings. The Gas Pods are not classified as intrinsically safe they should not be attached or detached from the instrument in hazardous areas. Gas Type Range (PPM) Resolution (PPM) H2S 0-50 0.1 0-200 1.0 0-5000 35 co 0-1000 1.0 S02 0-20 0.1 0-100 1.0 H2 0-1000 1.0 HCN 0-100 1.0 Gas Pods are intended for use as an inexpensive detection means and not for regulatory reporting purposes. If a Gas Pod, indicates the presence of the pod's selected gas, further testing should be performed with regulatory approved instrumentation. LANDTEC recommends that field calibration be performed using the relevant gas and concentration, prior to sampling with a Gas Pod. If calibrated properly, the accuracy of these Gas Pods are typically 5-10% Full Scale. Certain gases used to calibrate gas pods may be dangerous or fatal to your health. Be familiar with material safety data sheets (MSDS) prior to using any gas. 1.13 Memory The instrument's memory is volatile. It is maintained by a battery back-up system, which will maintain the memory while the battery is being charged. The memory is not to be used as a permanent storage medium and any data should be downloaded to a computer with permanent storage as soon as possible. An Instrument should never be stored for prolonged periods with valuable data in its memory. When using the instrument please cover the communications and charging sockets with their "dust plugs". Although unlikely, sudden shocks, high levels of electromagnetic interference or static discharge may cause memory corruption or loss. Additionally the use of cell phones or other high powered devices near the instrument may cause radio frequency interference and may cause memory corruption or loss. If this occurs, the instrument may need to be Cold Started and the calibration reset to factory settings before further use. NOTE: Cold Starting will erase all data in the instrument including resetting the following to default values: Page 7 •Time and Date •Language Settings •Screen Contrast Setting •Mode of Operation •Field Calibration REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual 1.13.1 Cold Start THIS FUNCTION SHOULD BE USED ONLY AS A LAST RESORT. (For Gas Calibration Error Messages, confirm that Factory Settings and User Calibration are done). A Cold Start should only be carried out to correct an instrument if no other course of action has proved successful. This function WILL ERASE the instrument memory entirely. After a cold start is performed the user will need to reset the instrument to factory settings, perform a field calibration, reset the internal time/date to the default settings, and load device IDs into the instrument. Please note that the time/date and device IDs may only be updated through the communication software. They cannot be updated manually. To carry out a cold start, turn the instrument on, before the instrument enters into the self-test screen press and continue to hold the '.J' key until a pass code entry screen is displayed. At this point the 'J' key may be released. Enter the pass-code 12345 and press 'J' to confirm. After the pass-code entry has been accepted, the instrument serial number will be displayed along with the hours in use, pump run time and service dates. There are four options from this screen; 1 -Cold Start 2 -Recover readings 3 -Print readings 0 -Exit ONLY select option '1' if a Cold Start is to be carried out. Press key '1' to confirm this operation or press key 'O' to continue with normal operation. If you select '1' to confirm the cold start a message will be displayed confirming the cold start operation and all memory will be cleared. The instrument will continue to the technician ID screen. 1.13.2 Recover Readings THIS FUNCTION SHOULD BE USED ONLY AS A LAST RESORT. Recover readings is a low level memory function that should only be used as a last resort if all your readings were inadvertently deleted and you know how many readings you had. This function moves the memory buffer and can cause instrument corruption. Contact LANDTEC before attempting to recover readings. After using this function, it is recommended that you download data from the GEM and then perform a cold start to ensure all memory is cleared and returned to an initialized state. 1.13.3 Print Readings This function is performed as a technical support diagnostic tool and can assist LANDTEC personnel in troubleshooting certain types of problems. 1.14 Radio Frequency (RF) Interference The gas sensors, especially the Methane sensor, are sensitive to RF interference. Any device that transmits radio waves can cause your gas readings to fluctuate. Cell phones are the most common cause of the problem. You should never use your cell phone while you are taking gas readings. Page 8 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual 2 The LANDTEC System Gas Analyzer Manager (LSGAM) Software Beginning with GEM2xxx serial number 10000 and above, LSGAM is the only software that will communicate with the instrument. 2.1 Configuration Options The GEM2xxx and LANDTEC System Gas Analyzer Manager (LSGAM) software can be utilized in a number of ways: •Configured for operation with the LANDTEC System online service•Used offline as a local application storing information on the desktop/laptop computer•Use of the GEM2xxx out of the box without software; (this does not allow the user to generate flow rate values, select comments or select IDs with the instrument. This also prevents downloading of readings to the computer. It also does not allow the user to correct the time and date or to clear the memory, unless cold started.) 2.2 LANDTEC System Online Users The procedures included in this section are intended for those who connect to the LANDTEC System online service. The LANDTEC System is an online collaboration tool to Collect, Validate, Analyze, and Communicate information based on field data obtained using LANDTEC instrumentation. If you are a currently registered user on the LANDTEC System, please log in at http://www.landtecsystem.com/. If you are not currently using the LANDTEC System, you may register by contacting LANDTEC in the US: (800) 821-0496 or International: +1 (909) 783-3636. Online reference for using LANDTEC System Gas Analyzer Manager (LSGAM) with the LANDTEC System can be found under the About � Help & Support menu within the LANDTEC System. LANlTECSVSTEM LANlrTECSVSlEM LFG Pro If you do not have login information please contact LANDTEC System Technical Support at +1 (909) 783-3636 extension 6131. Alternately, you may contact your local LANDTEC office for informationon connecting to the LANDTEC System online service. 2.3 Offline Users The procedures included in the section describe use of the LANDTEC System Gas Analyzer Manager (LSGAM) Software while NOT connected to the LANDTEC System online service. Page 9 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual 2.3.1 Installation with the CD System Requirements •Windows XP, Vista, 7 •Pentium 750MHz or faster •128MB RAM •200MB Hard Drive Space Available •CD-ROM Drive•Available USB port NOTE: The computer may need some administrative privileges to install the program. Program may run on other versions of Windows but LANDTEC has not tested the program on older versions of windows or with lesser processor and memory requirements. As part of LANDTEC's continual improvement process, LANDTEC has consolidated its product information and instrument communications software into one menu structure. On your memory stick or CD you will find technical information, instrument communication software, USB cable drivers, videos and instrument manuals. To install the USB Cable Drivers and LSGAM (instrument communication software) from this media format, you will need to place your CD or memory stick into your computer. If you have a CD it should automatically start. If you have a memory stick, you may have to browse to it in your computer and then click on the ClickHereToStart.htm icon. Once the media opens, you will need to choose your appropriate application area from one of the application categories. This example is for a GEM2NAV instrument being used on a Landfill Gas application. After the page opens you'll click on the link titled Instrument Communications Software(LSGAM) & USB Cable Driver. Step A -Click on LANDFILL GAS Step C -Install Components of the Instrument Communication Software Page 10 I Step B -Click on Instrument Communications SoftwareLSGAM & USB Cable Driver > J Step D I -Choose "Step 1 -Install USB Drivers" REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Step E -Choose"Step 2 -Install LSGAM Software" LANlTEC The software will automatically update if an internet connection is available when the software starts. This software has been tested with Windows XP. Partial testing on Windows Vista and Windows 7 is complete and the software is performing as expected. Should you have any difficulties, please don't hesitate to contact us. Our Software support group can be reached at (909) 783-3636 x6131 or support@landtecna.com LANllFC LANDTEC System Gas Analyzer Manager Step 1 -Install USB Drivers ! · ..................................................................... · Step 2 -Install LSGAM GEM 2.xxx Manual Visit LANDTEC Website Copyrijlit 2089·2112 lANOTEC Nonla AID aka The instrument communicates to the computer by means of a USB. This USB cable requires drivers to be installed prior to use on the computer. From the CD (or USB memory stick) choose the first option "Step 1-Install USB Drivers" The Java programming is an import part of this software and will be loaded with the CD install. If you have internet access, it is recommended to update your java to the latest version by going to http://www.sun.com Page 11 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual then click the Java Icon under the "downloads" section. Once at the Java downloads you'll see links to download the latest version of Java for your computer. The java icon, shown below, will be in the task tray at the bottom of your computer screen where your time is shown. There will also be a GAM log icon, shown below, that will be created on your desk top during installation. i( Java- 2.3.2 Startup Up Once the USB cable drivers are installed and you've checked for the latest Java Runtime from the www.sun.com website, click on "Step 2 -Install LSGAM". LSGAM will install placing an Icon on your desktop and a new Start Menu Group named LANDTEC. Starting LSGAM can be easily done by doing one of the following: Double-Click on the Desktop icon. OR -go to; Start 7 All Programs 7 LANDTEC 7 LANDTEC System Gas Analyzer Manager Page 12 lJtK+ HI-TECH Soltwar• tTunes Juniper Networks LANOTEC Run_ l.ANDTEC ystt:m Gas Ana .er Man Uninrtoll LSGAM logitech i Back LANDTEC Syste:m Gas-Analyzer Manager !lows management o 1nforma 10n related o the EM-based gas anal ... �r h nd held instruments. REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual - DD ... 2.3.3 Navigation The LANDTEC System Gas Analyzer Manager User Interface allows for easy access and navigation to various utilities to use the LANDTEC portable instrument on a day to day basis. The following is a general description of the user interface. LANDTEC System Login When LSGAM is used with the LANDTEC System online service, the username and password will be entered in the screen below, if you are using LSGSM as a desktop application the User Id and Password fields do not need to be filled in. � LANDTEC System Login -----� User Id: II Password: Ii 1 1 bog In _ The Progress section indicates the status of the current process. For example, when starting up LSGAM, this will show you the activity of the software. The Instrument section displays whether or not an instrument is connected. This also downloads the IDs, readings, and comments. If an instrument is found the following details are shown about the instrument: Page 13 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual GE1'P2t A SenaJ uroer: ·�1953 ersion: ersa,3.IOC,09 �I 09 OperatnJ Mode: GEM lots:� .runent te: Oct 1-2C09 3.39 37 Pl.I SemceCueOa e: • 1, -n 3:32:HPM f'l.lnber 0 ds: (: luroer of Realn}S: 1 Avaiable Memocy: 6.;tterylev : Chaq ng ... 2.4 Connecting to the Instrument Ill 1.Connect the GEM2xxx with the USB or RS-232 Download Cable to your Computer 2.Instrument must be powered ON and in the Gas Reading screen3.Launch the LSGAM software by clicking on the icon on your desktop This is the first screen you will see when starting the program. va.-• Once the software is installed on your computer with an internet connection this instrument communications program has Auto application updates. This enables you to always have the most current version of the instrument communications LSGAM. If an update to LSGAM is available, you will see this notice when connected to the internet. Page 14 REV C2 (English) LANDTEC Release Date: November 301", 2010 GEM2xxx Operation Manual Ja,a Web Sta11 . � "" .fta .' ":'ti,::!,G Downloading application. Name: LANDTEC System Gas Analyzer Manager Publisher: Land tee North America Click on OK this will return you to the desktop and you will then need to click on the again. LSGAM shortcut The GEM2xxx must be connected to computer and turned ON. It must also be in the Gas Reading screen. The LSGAM software will automatically download any information in the instrument including readings, comments and IDs. Note: Connection of instrument to computer should not be performed in a hazardous area. A new instrument containing no information will display only the instrument information: Serial Number, Version, Operating Mode, Instrument Date, Service Due Date, Number of IDs, Number of Readings, Available Memory, and Battery Level. _ lANDTEC S stem Ga, .:.nal;:er Manag.,, I LS Ed,t,on £reject Readings Y:i Archi.e Rou!e LANDTEC System Login ,-..,........,....,._ _______ ....,..,.......,....,.""""' tnstruml!1\ User Id: PasswOfd: No ID Found m lnstru ent 0 Serial Number: GM 1195 3 Version: ersIon 3, !Ol, 09/ 21Al9 Oper abng Mode: Units: 1-,al GEM"'2NAV Instrument Date: Oct I�, 2CO!t ·t 05 Pf 2.5 Create a Project I Select a Project Service Due Date: Mar 1, 2010 3: : -; PM Number of Ids: 0 Number of Readngs: l Available MemOfy: , • Battery Level: Charg'"2:.:.:_ Projects are a collection of Device IDs and their associated reading history. A project can be created using LSGAM to contain a group of sequenced IDs and chronological history of instrument readings. To create a Project, click on the Project menu and select New Project. Delete Current ProJect Add Id.. Ctrl-NumPad • Import Ids ... Comments .. Srte Questions .. Exit Instrum.,,t No !Os Found in Instrument Serial Number: GM!l953 Version: �ersion 3. !OL, 09/21/09 Operabng Mode: GEM Units: Imperial Instrument Date: Oct 14. 200� ·46·56 PIA �ce Due Date: Mar 1, 2010 3: 32: 14 PM Number of Ids: 0 Number of Readings: 1 Available Memory: ,1 • Battery Level: Char9"'>9... -;;J Page 15 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Upon selecting New Project ... you will be prompted to enter a Project Name and select from one of three options. Pleas� enter a name for your ne'H project Qi C,:eate a new empty proJect Create a r.ew QrOJe:Ct Vt'ith comments and site questions from current pro)ect Cr�ate a new proJect from the data in my instrument Units of meaSUfement " US Un!ts (Imperial) Metricl.Jlits Create a New Empty Project This option creates a blank project where you configure all IDs and Comments. Create a New Project with comments and site questions from a Current Project Selecting this option allows the user to create a new project that will have the same Comments and Site Questions as an existing project. Create a New Project from the data in a GEM2xxx instrument This option will create a New Project and automatically associate the IDs, Comments, and Site Questions that exist in the connected portable instrument. Page 16 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual 2.6 ID Setup An ID represents a physical sampling point in the field. An ID can be allocated to field components such as extraction wellheads, gas transmission lines, or passive monitoring probes. LSGAM allows users to configure an ID for each sampling point in order to obtain accurate readings with LANDTEC portable instrumentation IDs are created, modified, and removed from the Project Setup tab in the software. 2.6.1 Creating Comments Comments should be setup prior to creating new IDs The user can define Comments that can be associated with a reading in the portable instrument. If you selected Create a New Project, when creating your project, you will need to click on the Create Comments button. Comments can be entered in this setup screen or loaded from a file and will be displayed in the user interface. Typical Comments Might Include Valve Fully Open Valve Partially Open Valve Closed Air Leak in Wellhead Water BlockaQe in Header Surging at well Sample Port Needs Replacement More Vacuum Needed 5 Day Recheck 2.6.2 Creating IDs There are several ways to input IDs to the Project. The following describes each process: Creating new IDs with LSGAM To create a new ID using the LANDTEC System Gas Analyzer Manager, Right Click on the left ID pane beneath your active project and select the Add New ID option. The Add New ID form will be displayed. From the ID Information tab of this form, entry of the following is Page 17 REV C2 (English) LANDTEC Release Date: November 30'". 2010 GEM2xxx Operation Manual available: ---,,.. Add New Id -- I� I Id Informabon !Id Q�esMns, . --------------· Device Id: ALFGWOOI --- Device Type: WeU Flow De Vice: Accu-flo N {System Pressure) In-c• ;.,pc[)!, E!rf' I I L_ Onfice Darneltf: ' Pump Run Tlf!le: 120 Seconds LAT: 34.056339 - LONG: ·117.306197 Device Informabon: ACHE Ga" Prod:.iCC.iO!'l ----· 001 -------�--- -- ------ i .... ,. ��-�:· � ( - - �ancel --l ID INFORMATION I . -I I I Well I I I ---- J -Note: LAT & LONG will only be available on GEM2NA V models Device ID: Must be eight (8) alphanumeric character spaces. (For example, ALFGW001) Device Type: --., ..... •Well: An active gas extraction well connected to a piping network which may require a flow rate reading.•Sample Port: A sample point along a gas transmission line that may require a flow rate.•Probe: A passive gas migration monitoring probe that does not require a flow rate. The GEM2xxx calculates flow rate values specific to each device type (listed above). The available flow devices programmed in GEM mode are listed below. Page 18 REV C2 (English) LANDTEC Release Date: November 301". 2010 GEM2xxx Operation Manual Flow Devices: [ Static Pressure Port L Figure 1 -ACCU-FLO Vertical Wellhead Figure 2 -ACCU-FLO Horizontal Wellhead Page 19 ����:«'.'«''<<,���'I,.����� REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual Impact/Total Pressure Port Static Pressure Port Figure 3 -Pitot Tube Figure 4 -Orifice Plate (WellSide) Page 20 Impact Pressure/ "L" Static Pressure FLOV � I STATJC PRESSURE STATIC� Orifice Plate Pl TO TUBE CS£CTIDN ENLARGED TO SHD'w DE T AIU Static Pressure / "L" Impact Pressure/ REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Flow Device Name Programmed in GEM Orientation Size System Pressure ACCU-FLO 1.5V Vertical 1.5 inch ACCU-FLO 1.5H Horizontal 1.5 inch ACCU-FLO 2V Vertical 2.0 inch ACCU-FLO 2H Horizontal 2.0 inch ACCU-FLO 3V Vertical 3.0 inch ACCU-FLO 3H Horizontal 3.0 inch Orifice Plate Pitot Tube User Input Orifice Plate WellSide ACCU-FLO-1.5V (System Pressure) Vertical 1.5 inch ./ ACCU-FLO-1.5H (System Pressure) Horizontal 1.5 inch ./ ACCU-FLO-2V (System Pressure) Vertical 2.0 inch ./ ACCU-FLO-2H (System Pressure) Horizontal 2.0 inch ./ ACCU-FLO-3V (System Pressure) Vertical 3.0 inch ./ ACCU-FLO-3H (System Pressure) Horizontal 3.0 inch ./ Orifice Plate-System Side (System Pressure) ./ Pitot Tube (System Pressure) ./ User Input (System Pressure) ./ Orifice Plate WellSide (System Pressure) ./ Pipe Diameter: The pipe inside diameter (ID) is required for Orifice Plate and Pitot Tube type flow devices. Orifice Diameter: The field for orifice bore diameter is available for all Orifice Plate flow devices. Pump Run Time: Indicates the duration the instrument's pump will run while sampling for the selected ID Device Information: Allows the user to enter general information for the device. This will display on the screen of the instrument if the user chooses the @ View ID Details option from the ID selection screen on the instrument. ID QUESTIONS There are 5 Question Types that can be selected: •None -No question will be prompted to the user•Alphanumeric -An alphanumeric answer can be entered when taking a reading•Numeric - A numeric only answer can be entered when taking a reading•Multiple Comment selection -Up to 8 comments that may be appropriate for this device ID can be selected in the ID setup. Then one or all of the comments can be selected when taking a reading.•Single comment selection -Up to 8 comments that may be appropriate for this device ID can beselected in the ID Setup but only one comment can be selected when taking a reading. Commentsrelated to valve position are often used with a Single Comment Selection because the valve can only be in one position. Page 21 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual --· --- Importing DataField CS IDs --..._.._._,..y -,n--... ---· If you have existing ID files from DataField CS v3.2.x, these files can be imported by LSGAM. To begin this operation select the Import IDs ... option from the Project menu. New Project... Ctrl� N Save Current Project Ctrl+ S Delete Current Project Import Ids ... Exit t.. . ......... :r.------�1 Select an ID file generated by DataField CS v3.2.x . ... 2.6.3 Create a new project based upon IDs ALREADY IN THE INSTRUMENT: To create a Project based on the information in the instrument, select Create a new project from the data in my instrument. Page 22 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Creole le·,,, Fro;ec Please enter a name for your new proJect ACME Gas Producers Q:._eate a new empty project Create a ne'N 12fOJect Wtth comments and site questions from current project o Create _c,_ ne·N proJect fr�_ the data.,_ mY 111strume0t Units of measurement <> US Unlts (Imperial) r1etr1c Ur11ts � q';,r,-;i I �ancel Note: When using the Creating a new project from the data in the instrument option, only IDs NOT associated with other projects will be created into the new project. Creating a Device ID that does not measure flow Example-Probe or Sample Port If there is no flow device you will choose User Input. When choosing the User Input option you will need to enter the appropriate pipe inside diameter and pump run time. This ID is then generally sent to the GA mode [Landfill Gas Analyzer] of the instrument. Because this mode of the instrument does not read flow will not show the pressure readings screens that are in the GEM mode for vacuum and impact pressures. � Add l\ew Id I Id Informatio,;-1 [d Quesbons Device ld: ALFPOO0 I DeVKe ype: Flow Dev,ce: Internal Pipe Diameter: Ortfi<.� O.ai eter· ------- Probe User�t ---0.5 ., ., ------ - Pump Run Time: 2'l0 Seconds LAT: ----LONG: ·-Dev,ce Informabon: P::cobe nea= Scale :iouael I Qone ! I �ancel I 2. 7 Creating your Site Questions � - . . Site questions are setup in the same manner as ID questions however unlike ID questions, the answers for Site questions will apply to all subsequent readings until the site question is updated. A total of 5 site questions can be sent to your instrument. These must be updated each time you use the GEM. This is done by going to the CD Menu selection on the instrument and choosing [Update Site Data] Page 23 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual The options for questions are Alphanumeric -Numeric -Multiple or Single comment selection. Setup Site Que; ,on; 1 Que;ti� I Quesbon3 j Ques!Jon4 r �� Question Type: Nooer---,,,--=--:=-=-:=:�==--==-:--,::===-=,�. Alphanumeric Numeric Multiple comment selection Single comment selection I !lone j CanceJ ---------� Load gom F,le These Site Questions may be used again with another project by selecting the Create New Project and create new project with comments and site questions from current project. � LANDT EC Syste,,-, Ga:; Analy;:er Manager I LS Edition Leiete Current PrcJect Add Id. Import Id, Comment,.. C rl•C S • Q ,en,ons... Ctrl•Q Exit Create ew ProJe<t oute Please enter a name for your new project ACME2 C[eate a new empty project No ID Found m Instrument o �reate a new Qroject with comments and s,te guesbons fi-om current P'9J.�.,.tj Crtate a new project fi-om the data 111 my ,nstrument Units of measurement g US Un[ts (Imperial} t:1etric Uruts I Qone ] I !:;ancel Instr .n>6lt I_·"'� Sena! Number: GM: 1953 Version: ters.onJ.m., 09/21,09 Operating Mode: GEM Units: llT\:)enal Instrument Date: Oct 14 2C092 46�B Pl ServtceDueDate: Marl, 103:� :14PM Number of Ids: 0 Number of Readw1gs: l Available Memory: Battery Level: __ Char_9fl9�-· �···-- The project will be created and the IDs, Comments, and Site Questions that exist in the instrument will be applied to the new project. Page 24 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Working with Device IDs Once some IDs are added to your project you may need to occasionally edit them or reference them. First select the project which you want to work with from the project drop down list. ProJect Instrument Current Instrument Contents Device Id LSGWOOO! � I S;;_nd to Instrument Flow Dev,ce Placing the mouse cursor over a specific device ID will show detailed information about that ID. PrO)K1 Dr ·e Id ALFPOOOJ ACM[ c;.., P1<l<lu,�1> ll<><•IJ p • D ICt! I . 0 Pun, Run l 1me.· Z-10 l11!tJ: Pr n,,11 S-(.,1 Heu Flow ICC: u��f !11pu1 Ptpe Di•miett.r. 0 5 ,n Quntlcn; t..Jo Qu,,11011 Qu 1t,on. N Quiit,on u6t1cru N�Mt1c,n Int11Vi I r.M£1 I h U urnf'fil ] flow Dev_ .. lSGWOOOl -.Cc:u-Mo lV (5yst� P't6��} To edit a Device ID, right click on the desired device and select Edit Device ID. ACME Gos Prorucers (local) Oev,ce Id To delete an existing ID, right click on the desired device and select Delete Selected Device ID(s). Page 25 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual U-ld L lri l " AlFt1WOO� l Co,,,....,,,to J [ £,to Que• • [ .. I 1 r AQd ld I l , '°" J ... lAV Upon clicking on Delete Selected Device ld(s) you will see the line strikeout. Project ACME Gas Producers (Local) Device Id ALFP000! ALFMW002 Flow Device Instrument 1Current Insb·ument Contents Device Id LSGW000! ----- llt.lfl•IJf'f'nfk" no-: I Ava.lMLla M 1lOC y: ----..JI- I! y \,,.yp,4t ... , Flow Device .. ) orl It V�! Q,0, P(yt: OM1 �d to lnstrLrnent * Ii] The computer Icon will now display a red over the imag�. This indicates that the IDs are NOT saved. Deleted IDs are displayed with a line through the information on the screen. To restore a deleted ID, right click on the ID and click Restore Selected Device ID(s). Note: Deleted /D's can only be restored while the project state is unsaved. Once saved, the ID changes are saved and restoration cannot be completed. Once all work with the device ID's is complete, click on the Save button. LANDTEC Project save complete L ..... oK __ J After clicking on OK, the device is removed and the computer icon returns to the unaltered state D. Page 26 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual ProJect AO�E Gas Producers ocal) Dev,ce Id ALFPOOO! ALFMl'/002 Flow Device User Input - -Aau4'1ol5H --- -------- -------1 -- 2.8 Sending IDs to the instrument Instrument Current Instrument Contents Device Id Flow Device Once IDs have been created in the project, they must be uploaded to the instrument. To perform this operation, select the desired IDs from the left hand table under the Project name (computer side), left click and hold while dragging the IDs to the right hand table and release the mouse button. This is action is know as a "Drag & Drop". Three basic methods of selecting IDs exist. •Select Specific ID(s) •Select a Range of IDs •Select All IDs Specific IDs To Select Specific List of IDs, place the mouse arrow at the edge of the first cell and hold down the left Ctrl key. Now click the next ID cell that you wish to select. Repeat this as many times as necessary. Pl'Oject Instrument 1Currcnt ln�trumcnt Contents , 1 I Sc.!_� t� Irn;t.r�1ent _ j llnw(>f,iv1r" A1.1.11 flu zv (�·f11lnu1 01••i:n11•) Ao::c11-t-k> ,N ($v�te111 i-Te.1111·.-) Selected IDs (shown as Highlighted). Arrow depicts "Drag & Drop" action after selection. Now "Drag & Drop" the IDs from the left (computer window) to the right (instrument window). During the "Drag &Drop" process, the arrow will change to5l. ProJect Instrument ACME Gas Producers (local) Current Instrument Contents De,·lce ld LSGWOOOl ALFMV/004 �, [ �nd tolnstn..rnent Flow Dev,ce Accu-Flo 'l>I (System Pressure) User Input Accu-Flo !. SH Accu-flo 2V The selected IDs ALFP001, ALFMW002, and ALFMW004 now appear on the Right (Instrument) side. At this point the IDs are on the Instrument side but have NOT been sent to the instrument. The instrument with the red * [81 indicates this unsent ID state. Click on the Send to Instrument button I�"'""'�"'" ' 11 to send these IDs to the instrument. Page 27 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual ProJect : ACME Gas Producers (Local) ALFMW00S -ALFMWO06--r ALFMW007 __ 1 __ ALFMW008 --i-- --Accu-Flo 2V (System Pressu"re} ---·-ALFM\0/009 Accu-Flo 2V (System Pr�su..'.:_e?__ __ Instrument I current Instrument Contents ..-l I S�nd to Instn.ment Device Id Flow Device LSGW000 l j Accu-Flo 2V (Svstem Pressure) _ ALFGW00 J __ .1,_ ____ "._CC�I'?. 2V (Syste"2_Pre�S<J� ----t ALFP000 l User Input ALFMW002 I Accu-Flo l. SH ----A,--ccu-Flo 2V -------1 After the IDs are sent to the instrument, the instrument [§Lill appear without the red * Range of IDs To Select A Range of IDs, place the mouse arrow at the edge of the first cell and hold down the left shiftke Now click the last cell in the ran e. The entire selected ran e will now be selected. Project ACME Gas Producers (LocaQ Device Id ALFPOO0! _! __ _ALFM\0/002 Flow Device User Input Accu-Flo !.SH ALFMW003 ALFMW004 ALFMW00S Accu-Flo ?v (System Pressure) -.------Acru.flo 2V Accu.flo 3H Instrument Current Instrument Contents Device d LSGW000l S1:nd to Instrument j Flow Device Accu-Flo 2V (System Pressure) Accu.flo ?v (System Pressure) User Input Accu-Flo t. SH Accu-Fl·-07'!1/ __ _ As with selecting specific IDs once the IDs are selected, they are moved to the Instrument side by "Drag & Drop". The Instrument icon will appear with a red* and the ID's will need to be sent to the instrument. Project ACME Gas Producei-s (Local) DeVtee Id ALFPOOOI ALFMW002 ALFMW003 Flow Device User Input Accu-Flo !.SH Accu-Flo 2V (System Pressure) Accu-Flo 2V �-Flo3H Instrument rrent Instrument Contents LSGW000I ALFGW00J ALFP000I ALFMl'/002 Fk:>wDevice Accu-flo 2V (System Pressure) AcOJ-Flo ?v (System Pressure) User InDUt Click on the Send to Instrument button Ii �"'�"""' ' 11 to send these IDs to the instrument. Selecting All IDs All IDs can be selected by selecting one ID in the Project window and then pressing Ctrl-A. Page 28 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual ProJect ACME Gas Producers (Local) Flow OeVKe Instrument Current Instrument Contents -- ALFMW006 ALFMW007 Flow Device Accu-Flo ZV (Sv!item Pre:;:;ure) Accu-Flo N (System Pre!.sure) User Input Aca,-flo 1.5H Accu-flo 2V I Accu-Flo 2H I Accu-Flo 2V _ .-, AL�\"J0_93 -�� ____ A_ccu_-fl_o_2V_(�Sy�s_te_m_Pr_e_ss_ur�e) ---� Now move IDs from the Project Side to the Instrument Side by dragging and dropping them. Option Do you want to replace existing ID ALFPOO0l from prcject ACME Gas Prcducers? .-:-e.!i t-!o J I Cancel j If you are dragging and dropping an ID that is already on the instrument side, you will be prompted with the above message. Answer Yes to update the IDs on the instrument side from those on the computer side. Answer No to ignore IDs that are already in the instrument. Answer Cancel to cancel the action without sending ID's to the instrument side. Project Instrument ACME Gas Producers {Local) Current Instrument Contents Dev,ce Id LSGW000I t ALFGW00l ALFP0OOl I Al.FMW002 r ALFMW00� Al.FMW006 lA1.FMW007 ALFMW008 ALFMW003 ALFMW005 l ALFMW009 T I S�d to Instrume?J Flow�v,ce Accu-flo 1)1 (System Pressure) Accu-Flo 1>I (System Pressure) Uoer Input Accu-f/o !.SH Accu-flo l>/ Accu-Flo 2H Accu-Flo ?>I Accu-f/o ?>I (System Pressure) Accu.f/o '1'I (System Pres,;,.,re) Accu.flo 3H Accu-flo '1'I (System Pressure) Click on the Send to Instrument button l�"'"'"g'"·" ;...-, I to send these IDs to the instrument. Page 29 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Clearing ID s from your instrument or Deleting a Project ProJect ,· --- -ACME Gas Producers (Local) - - - - - --- Device Id ALFP000! I ALFMW002 ALFMW003 ALFMW004 ALFMW00S ALFMW006 ALFMW007 ALFMW008 ALFMW009 Flow DeV1ce User Input Accu -Flo I. SH Accu·Flo 2V (Syscem Pressure) Accu-Flo 2V Accu-Flo 3H Accu-Flo 2H Accu-Flo 2V Accu-Flo 2V (System Pressure) Accu-Flo 2V (System Pressure) 9 !Ds [ Comments J I Site Quesbons J [ Add Id 11 Load IDs Instrument ;current Instrument Contents [ Send to lnslrt.m10nt J Dev,ce Id Flow Device ALFP0OO! User Input ALFMW002 Accu-Flo 1. SH ALFMW006 Accu-Flo 2H ALFM\\1007 Accu-Flo 2V ALFMW008 Accu-Flo 2V (System Pressure) ALFM\V003 Accu-Flo 2V (System Pressure) ALFMW00S Accu-Flo 3H ALFMW009 Accu-Flo 2V (System Pressure) 8 IDs Clear Instrument Memory aearld LJst In current instrument contents when selecting the Clear ID List option it will draw lines through the IDS. ProJf-Ct ACME Gas Producers (Local) . [ �ave=:-] I Device Id Flow Device AlFP000l I Us�r Input ALFMW002 I Accu-Flo !.SH i ALFMW003 I Aco;-Flo '2>I (System Pressure) ALFMW004 I Accu-Flo 2V --·---ALFMW00S +Accu-Flo 3H ALFMWOO�T -Acru-o�--Accu-Flo 2V-----ALFMW007 ALFMW00S Accu-flo 2V (Sy:;tem Pressure) I ALFMW009 Accu·Flo 2V (System Pressure) I Instrument tCurr�nt Instrument Contents I S�nd to Instrument i -Device Id Flow Device -I � � Oi;;g,; '=I'-• lif'I �I � � I � ••• �!'"90i L --0-'11 tilg ;111 ��l e;\,ei:q f:l:Fi:1!!;61:<!�@l - j... M\''001+ -� �j o,Q.I ""lg �I (i� G'eRI �F@�Q.IJ:@f -·-"='' -· ·-- --- ----- ,1 I You then need to select Send to Instrument. This will clear all IDs from the GEM2xxx in both the GEM and GA mode. Proiect ACME Gas Producers (Loca0 Device Id ALFP000l I-ALFMW002 ALFMW003 i --r ALFMW004 ALFMW00S _§ ALFMW006 ALFMW007 AlFMW00S �W009 ------- Flow o.,,ice User Input Accu-flo 1. SH Accu-flo N (System Pressure) Accu-flo 2V Acru-Flo 3H �-Flo2H ---,.Zcu-flo 2V Accu-flo N (System Pressure) Accu-Flo 2V (System Pressure) Instrument � B Current Instrument Contents • [ �nd to lnslnment Device Id Flow Device You may also delete one ID from a list by highlighting the ID RIGHT CLICK with your mouse and select the Delete Selected Device option. If you have selected the wrong ID and deleted then you may select the Restore option to return the ID to the list. Page 30 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual I I ' I Proioct i ACME Gas Pr;du�e;s -(l.�1)--. Device Id ALFPOOO! ALFMW002 ALFMW003 ALFMW004 ALFMWOOS ALFMW006 ALFMW007 ALFMW008 ALFMW009 9 IDs I Comments 11 Accu Flow Devtee User Input Accu-flo I. SH -Flo 2V (System Pressure) Accu-Flo 2V Accu-Flo 3H Accu-Flo 2H Accu-Flo 2V Accu-Flo 2V (System Pressure) Accu -Flo 2V (Sys tern Pressure) Site Qu estions 11 Add Id 11 Load IDs Ins:trum�nt Current Instrument Contents: 9 IDs Device Id ALFP0,)01 ALFMW002 II. ALFMW006 ALFMW007 ALFMWOOS ALFMW003 ALFMWOOS ALFMW•)09 Flow Device Accu-F!o 2\1 (System Pre_ss_u_re�)----� Clear Instrument Memory Oear Id List Upon selecting Delete Selected Device ld(s) you will see a strikeout line appear through the ID Proiect ·--------. Device Id Flow Device ALFPOOO! User Input ALFMW002 Accu-flo !. SH ALFMW003 Accu-Flo 2V (System Pressure) ALFMW004 Accu-Flo 2V ALFMWOOS Accu-Flo 3H ALFMW006 Accu-Flo 2H ALFMW007 Accu.flo 2V ALFMWOOS Accu-flo 2V (System Pressure) ALFMW009 Accu-Flo 2V (System Pressure) 9!Ds I �omments 11 Site Questions I [ Add Id I [ boad IDs Instrument ----------------�i I Ss_nd ta Instrum<ent I1 Curre:nt Instrument Conte:nts Device Id Flow Device ALFPOOO! I User Input ALFMW002 Accu-Flo !. SH � ALFMW006 Accu.flo 2H ALFMW007 Accu-Flo 2V ALFMWOOS Accu-Flo 2V (System Pressure) ALR�W003 Accu-Flo 2V (System Pressure) ALFMWOOS Accu-Flo 3H ALR,1W0,)9 Accu-Flo 2V (System Pressure) 8 IDs' not sent to instrument Clear Instrument Memory C[ear Id Ust Click on the Send to Instrument button u--�,, .. ,,.,,�.;, I to send the ID corrections to the instrument. Project l ACME �as Producers (Local) Device Id Flow Device ALFPOOO! User Input ALFMl'/002 Accu-Flo I. SH ALFMW003 Accu-Flo 2V (System Pressure) ALFMl'/004 Accu-Flo 2V ALFMWOOS Accu-Flo 3H ALFMW006 Accu-flo 2H ALFMW007 Accu-Flo 2V ALFMW008 Accu-Flo 2V (System Pressure) ALFMW009 Accu-Flo 2V (System Pressure) 9 IDs I �omments 11 Site Quesbons 11 cidd Id 11 b,oad IDs Instrument S!Ds �cntlnstn.11:nentContents �-..,. : �nd to Instrument Device Id Flow Device ALFPO(),)! User Input ALFMW002 Accu-Flo I. SH ALFMW006 Accu-Flo 2H ALFMW007 Accu-flo 2V ALFMWOOB Accu-Flo 2\1 (System Pressure) ALFMW003 Accu-Flo 21/ (System Pressure) ALFMWOOS Accu-Flo 3H ALFMW009 Accu-Flo 2V (System Pressure) C[ear Instrument Memory I[ C[eor Id List The instrument contents will now be updated and the ALFMW004 ID no longer shows in the instrument side of the list. Clearing the Instrument Memory The Clear Instrument Memory functio L •-Y l allows various parts of the instrument's memory to be cleared. Upon clicking on the Clear Instrument Memory button the following options are available. Page 31 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Clear Memory Clearing Method Clear IDs Clear Readings G tlear_Eventlod Clear Comments Clear Site Questions Clear All memory 1n the instrument ci7 [ Cancel J Please Note: Clear functions in the instrument affect both GEM and GA modes of instrument operation. Upon selecting a memory type to clear, and clicking OK, a prompt will appear to confirm the selected action. Select •� Opt,on Are you sure you wan to Clear Eventlog ? �o J ! Cancel j Answer Yes to perform the action. Answer No or Cancel to return to the clear memory dialog. 2.9 Instrument Settings The LANDTEC System Gas Analyzer Manager software allows users to change many of the operational settings of the instrument. To view and change the available settings click on the Instrument Configuration tab. L"*n T>iooct: o, In the Instrument Configuration user interface, there is an Instrument Settings option tree. The Instrument Settings tree allows for easy navigation to the following categories: •Alarm Settings •Data Logging •Date/Time Settings •Misc Options •Units of Measurement Page 32 REV C2 (English) LANDTEC Release Date: November 30'". 2010 GEM2xxx Operation Manual The following sections describe each option category. 2.9.1 Alarm Settings 11 Pro1ect�etupfReaQ1n9s1 I�stru�e�tCo,�9urao� Lin� ___________________________________ -�---__ ' I Instrument Setting::; ,,-:, c;..J Data Logging Date/Time Settings Event Log � Misc Opbons � Units of Measurement Alarm Setungs CH, J Lo' Tngger: LJ High Tngger: co, LowTngger: High Trigger: o, % Lo· Tngger: % High Trigger: % % L �---�-et-A-larms % I I i ! The Alarm Settings options control the activation and deactivation of the audible alarms in the GEM2xxx instrument. Audible alarms can be configured for CH4, CO2, and 02 parameters. Each parameter can be configured with a Low Trigger and/or High Trigger for the alarm. To activate any specific alarm, click and place a checkmark in the desired box. This will activate the entry field to place the value. The values must be O -100 percent. When alarms are set, the instrument will beep and flash the parameter on the screen if an alarm threshold is surpassed when taking a gas reading. I 2.9.2 Data Logging Instrument Sethngs Alarm Setongs u ._,._....,., ! Oate(Time SettJn<;1s Event Log .. ; Misc Options � Units of Measurement Data Log9,n9 Data Log Id: A_0"�-l.OG nme Between Readings: PumD Running Tme: l : (M,nutes) 30 (Seconds) �t LOQ9<19 Opbons Note: This feature of the instrument is available in GA Operational Mode Only Data Log ID The Data Logging option allows the user to specify an ID to be associated to readings taken with the Autologging feature of the instrument. Time Between Readings This value indicates the time from when the pump stops running until the pump begins sampling. Pump Running Time This value indicates the duration the pump will be run for sampling. Page 33 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Date/Time Settings r.; Instrument Settmgs Alarm Setbngs :····u Data Logg111g Event Log L .-, ��sc Options L. � Units of Measurement Date{T,me Setting, Date 1 Octobe;r • 1 2009 • 1 Sun Mon Tue Wed Thu Fr, Sat I 2, 1 2a 1 29 1 10 u ::iJGJGJ GJQ]ITJOJGJGJGJ GJGJGDG0�0 GD�00GDGDG ��@��GD0 l 1 lddsl5'd 7] Time ru:-':,1� ,ooI Sst Date{rme j �t to System DateIT1111e I The Date/Time Settings screen allows the user to set the date and time of the instrument. Setting the Computer's Date and Time To set the instrument's date and time to that of the computer, click on the Set to System Date/Time button. S cces; Dat time information successfully saved to the instrument limm===-···· Answer OK and the instrument's date/time will be set to that of the computer. Date Use the calendar options to select the desired date. Time Use the up and down controls to select the desired hour and minutes. Set Date/Time in the instrument Click the Set Date/Time button to apply the settings to the instrument EventLog The instrument maintains an event log which records certain events that are not downloaded along with readings, IDs, or comments. In general, these events are useful for LANDTEC Service personnel when assisting in troubleshooting the instrument. Instrument Settings Alarm Settings ·· Id Data Logging L ... � Date/Time Settings ' .... .; Misc Options L ··� Units of Measurement Event Log Events Count: 74 ID I 41 -¼3 41 55 61 39 37 35 •I Description Cold Start Technician login Power Off Auto Purge Technician login Downl011d comments Download site questions IDs downloaded fi-om 111strument Readings downloaded fi-om ,nst. .. Set Clock via RS232 --,.,. . -Ill Time l/1/1998 12:0:0 1/1/1998 12:0: 5 1/1/1998 12:3:4 1/1/1998 12:4:59 1/1/1998 12:6: 1 1/1/1998 12:6:3 1/1/1998 12:6:4 1/1/1998 12:6:7 9/30/2009 13: 10:0 -·--·----. -.. ·- �ve Eventl.og Type: RS232 � Technician ID: u Seconds: O Technician ID: Mode: GEM , No of: Mode: GEM , No of, Before , 1/1/2098 12 � 1 Clicking on the Save Eventlog button will allow events to be saved from the instrument. Page 34 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Sa.e Save tn: Rece t Items Desktop My Documents Computer E-.entlogs Desktop .L Computer Local Disk (C:) ProgramData Application Data LANDT::( LSGAM I= --- -----·- ----------- --- FIie o.ame: GM l !953_20091015125235.csv D �ave Metwork Ftles of _\ype: , CS'II Cancel By default the location of the folder is the Eventlogs for the data directory associated to LSGAM. This directory location changes depending upon your operating system but it can be found by typing the following in the Start Menu"7Run box from windows. Run Type the name of a program, folder, document, or Internet rESource:, and /indows will open it for you. Qpen: %allu;ersprofile%\L 2.10 Misc Options Instrument Settings :---· Alarm Settings L .. -L_J Data Logging L. --� Date{nme Settings Event Log L ·-* Units of Measurement 0 TEC\LSGAM\Eventlogs Cancel J I �rowse ... MISC Options t1] Automatically purge instrument [t] Automabcally zero instrument [ti Show LEL on instrument readings screen Low Ffo•N \"laming Sens1tiv1t-1 -0---- Low Medium High Purge nme: I 30 :1:iJ (Seconds) :i_etOpbons Under the miscellaneous options interface the user can change the following instrument settings: Page 35 REV C2 (English) LANDTEC Release Date: November 30th, 201 O GEM2xxx Operation Manual Automatically purge instrument Activates and deactivates the automatic purge feature in the instrument Automatically zero instrument Activates and deactivates the automatic zero feature in the instrument Show LEL on Instrument readings screen Specifies whether or not Lower Explosive Limit (LEL) is displayed on screen, power instrument off and on for change to take effect. Low Flow Warning Specifies the point at which the instrument will "Flow Fail". If the instrument detects that it is not able to extract the appropriate gas flow for analysis the word "Flow" will flash in the upper left part of the screen where the pump timer is normally shown. If flow does not increase the pump will automatically be stopped. Adjusting the setting to "Low" will allow the pump to run with less flow going through the instrument. This may help avoid flow fail conditions when sampling from high vacuum systems. Purge Time Specifies the duration the pump will run when activated by the purge feature of the instrument. Page 36 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual 2.11 Units of Measurement Alarm Settings t... J Data Logging Datei)7me Settings Event Log · ... .., fY1isc Options Units of Measurement I Metric ---, ,. Imperial (USA) Transducer Pressure: I --;.� .. 1b-:; :h-----;n·:i;e:;,,,ater (�;;)- - -; Barometric Pressure: I i-11:!,ba·-: 'mo1 Inches mercury (�g) 1 Temperature: 1 Oegr<:es e1s•ur: • • Degrees Fahrenheit {Cf) , Flow: r•etern cubed ce• rcui ·,n'h) Standard cubic feet/min (SCFM, Power: I hlo•, arts (ir , , I British Thermal Units (BTU) I Anemometer: Mete, s rs second ·n, "s) 1 Meters cubed per hour (m';h) :_r�tern�I �pe Diameter: ! r,,�t'11me:tr.=rs ::rnm Inches(; :i_etUnits The Units of Measurement interface allows users to select whether to operate the instrument in metric or imperial units. The units for each parameter are displayed on the screen. WARNING: Units of Measure are as critical as the values of the readings stored. Be certain to verify the appropriate Units of Measure for your project prior to making a change to this option. Changing the Units of Measure will NOT convert any existing values stored in the instrument. To avoid confusion, download any stored readings prior the changing the Units of Measurement. Clicking on the Set Units button will bring up the Change Units Password box. I f you must change the units of measure please call LANDTEC's Software Support for a password. Cha ge Un ts of ·fea,urement I� Please enter the required passwora to change the instrument's units of measurement. Password: ••••••• Qone .:·:. I �ancel Upon entering the password you'll be prompted one last time to download your data from the instrument. If you have not downloaded your instrument press the No or Cancel buttons. Click Yes only if you have all data from your instrument as changing the units of measure must erase data that is in the instrument to ensure data integrity. Page 37 Option By continuing with this operation, an readings ,n the instrument will be permanently deleted. Are you sure you want to do this? [ .. :xes _,.:J 1 �o J I Cancel REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual Downloading Readings After successfully creating projects, IDs, and setting appropriate instrument settings, the instrument is ready for field use. When used in the field, readings are collected and stored within the instrument's memory. The readings consist of the measured, input, and calculated parameters such as CH4, CO2, 02, Gas Temperature, Flow Rate, etc. These readings must be downloaded from the instrument to be reviewed on the computer and stored for review at a later time. This section of the Operation Manual reviews the process of downloading and storing readings from the instrument. To view your readings from the instrument, select the Readings tab of the LANDTEC System Gas Analyzer Manager software. Then click on the Get Readings button _ LANDTEC S ste'tl Ga; Analy::e, Man,ge, i LS £d1t1on ]:roject Beadings 1{1e.11 Archive Rou!e LANDTEC System Login User d: Pass·Nord: []c�- O-lOG O-lOG O-lOG O-lOG ACME Gas Producers (Local) �ogln DateTrme 9118/09 J: 53 PM 9/18/09 3:54PM 9/18!09 3:55 PM 9/18'09 3: 56 PM ID Do mload Complete !;_et Readings ils ,dr,Qs CH• co, o."0.1 20.0 0. 0.1 20.0 0.4 0.1 20.0 0.4 0. ! 20. ! GEM""2NAV Serial Number: GM 1195] Version: Version 3.11 1., 09 �1 '09 Operabng Mode: GEM Units: Irr,penal Instrument Date: ct 15. 2CC9 1· 1�:0Z Pi.! SeruceDueDate: �!at 1, 10 1:13:JJPM Number of Ids: 10 Number of Readings: 2 Available Memory: Battery Level: !;_xport Readings J j gear Instrument Readings J Comments Onlne Proiect Local Project Project <No ProJect > <No Proiect> <No ProJect> <No Dro1ect> Unkno,n ProJect -Version:5.0.0, Port:COM2 Note: Get Readings function only retrieves readings for the instrument's current mode of operation. If there are readings in both modes of operation (typically Probe Readings in GA mode and Well I Sample Port Readings in GEM mode) then Get Readings button will need to be pressed in each mode of operation to download all of the readings in the instrument. Page 38 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual DTEC S);tern Ga, AMly:er Man,ge• I LS Eort,on £roject Readings �le\tt _rchive Route LANDTEC System Login User Id: Pass•Nord: I� October 15, 2009 1: 18:07 PM PDT [2] t .,, :no:tn.merit GEM�21�AV Serral Number: G/'111953 ers1on: \Jers:on ;, !OL, 09 •2 P09 Operabng Mode: GE� Units: Irr4)?nal Instrument Date: Oct I: 2CC9 I.IS· 18 Pf Service Due Date: Marl, �10 1: 1J:33PM Number of Ids: 10 Number of Readings; Avaiable Memory: Battery Level: f ... i;,xl)Oft t3eadin_9s Clear Instrument Readings ) I �---------------------------- Device Id Date Time CH, CO, o,Comments Project Posted 7 ! 11------·-·-------==:::..::':.::'30.;;.PM;.;..;._...,.._o:.:·.;;.o_....:o�. ':....,...:20=.o...,. _______________ ...,...;;<No�Pr�o�::;.> ____ � 1, AlFM\'/002 10/15/09 1: 13 PM 0.0 .l � 20.S ACME Gas Proruc_._ .. ..__ __ _ J On,ine Project Local ProJect ---------------------- ACME Gas Producers (Local) Veroon:5.0.0, Port:CO 2 When the instrument is initially detected by the LSGAM software, the Get Readings button will activate if there are readings in the instrument in the current mode of operation to be downloaded. Placing your mouse over a reading will display additional parameters of the reading. As shown below on the left. Clicking on a reading will open a Reading details window and allow you to click through the readings one-by-one in detail by clicking the Previous and Next buttons. ACME2W01 krnit Numb,,. NIA Dar Ill"< T>,u Orr 15 2009 Jl J J7 Ttc moan CH-I. CO2, 0): ,yF ,14.1 0 r F ·OA 111 ho H2 ·OA ir11o.ho H20 lni ••I DP· ·0,01 inche> H20 Ad usted OP: --0.0JJ inche, 1120 5 Im xf,n ln•ti•I Powe BTU AdJUlled Po.,.,,r. BTU U:m Pre_1:.ure1 NIA 1nche, I t20 Clear Readings ACMfJWOI ; '•--" .·,� t:\::'JS�:.·�,e; � I To clear the readings from your instrument, after the readings are downloaded successfully, click the Clear Instrument Readings buttorl I L...�TEl,�!..Jr.i�.tr.l!.rl).El.r),t8.El.�.9).n,.9.?. .... J I A prompt will verify the permanent deletion of the readings from the instrument. Page 39 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual By conanu,ng w,th tn,s operahon, all readings 1n the instrument w,11 be permanen�y deleted. Are you sure you want to do this? : Jes ...... · ,ij �[ --�-o-�] [ Cancel This will clear information within the GEM and GA Mode simultaneously. Note: Clicking yes will NOT check to ensure all data is saved from the instrument. If you plug in a GEM2xxx and click the Clear Instrument Readings button without first performing a Get Readings operation, data not previously downloaded will be lost! Exporting Readings To export readings to a file, click the Export Readings button. NOTEC Sy,tem Ga, Anal,-e, Man,ger I LS Edition £reject Beadin_g, ':liew _rch,ve Rou!e LANDTEC System Login User Id: Password: Dev,ce Id ACME2W01 ACME2 (Local) �og In Date T,me 10/14p.t 3:30PM 10/15/YJ 1:13PM 10/lSl(IJ 1:26PM 10/lS/(IJ 1:11PM 10 1:11PM 10/15/09 l:�5 PM -I Download C ncen d Get Readings CH• co, o, o.o 0,1 20.D o.o 0.0 21).5 Q.Q 00 20.5 0,0 0.0 20.2 o.o o.o 20.2 o.o 0.0 20.2 instr " I Comments Online Proiect Local Proiect Senal Number: GM 119 5 Ver,;,on: ers,on 3.!0l, 09;21/09 �atjng Mode: A Units: Imperial Instrument Date: Oct 15. 20C9 2.0n5 P 1 Service Due Date: Mar 1, 010 2:0Z: 16 PM Number of Ids: umber of Readings: 0 Available Memory: " Battery Level: d,r,;,,ng_ ... _ Project 0 ID'E.Gasl'nllllt ID'E. Gas� AOE2 AOE2 ACME2 Unkno n ProJect Posted Vers.on:5.0.0, Port:COM2 This will open the Stamping Information Screen. Stamping information are details that are most often stored with the historical data but not directly stored by the instrument. Detailed historical Stamping Information can assist when reviewing the data as atmospheric conditions do impact a gas system's production performance. Page 40 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual Sta Serial Number: . , -l 5 _ Field Technioan: Juan Valdez Download Technician: Scott Marcell Ambient Temperature: 75 Precipitation: 0 Wind Speed: 1 Wind Direc!Jon: S [D�ne __ i I Cancel j Clicking on Done will open the Export Readings to CSV screen. ' ,.., ... l"C'ft"lO -Ool "001 001 -0 01 -001 -0 01 Note: Depending upon your specific GEM2xxx Instrument model you will see additional fields specific to the instrument. For example GEM2NA V has the fields of Latitude, Longitude, Altitude, Herror, Verror, and HOOP Status that the other GEM2xxx models do not have. This interface provides several options described below. •To add or remove a single reading from export, uncheck the checkbox in the leftmost column.•To add or remove a specific parameter from export, uncheck the corresponding checkbox across thetop.•To clear all rows click the Clear All Rows button at the bottom of the screen. After Clearing all Rows you can the button will change and you can Set all Rows•To clear all column selections, click on the Clear All Columns button at the bottom of the screen. After Clearing All Columns the button will change and you can then choose Set All Columns•To exit the operation without saving, click the Cancel button.•To specify a filename and save the selection to a file, click the Save File button. Clicking this button will open a Save window. Page 41 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Save !f1: My Doruments D ---------------· -----------------, , .. Recent Items Des top i ,,-.�1 1 Computer I I, ,., ----- --·--- I I I � Filename: ACME_LF Read1ngs.csv �ave ] NeM•ork Flies of _type: Fdes [ Cancel ) The save file dialog will open and default to the My Documents of the user who is currently logged in on the computer. Specify a filename and location then click the Save button. The selected readings will be saved in comma separated value (.CSV) format. The .CSV file may now be opened in another application such as Microsoft Office Excel or Open Office Cale. General Operations Menu The following features and functions are selectable from the main menu via key '<D Menu' from the read gas levels screen. Navigation through the list is via the by pressing the '.J' key. and -.../ cursor keys. Selection of the feature is 16: 12 10/ l 5/E19 ID : ACME2W0 PUMP 056 OFF CH4 00.0 ·CO2 00.002 20.BAL? 2. 12 Zero Transducers 16:13 1-----------nt..ernal ID : A �::'.il91.1�m-1E•ll1')H:!�Hf-"1 c.e 11 ::. PUMP 0 0PDITTE -" l T [) 1 ed DATA L013G I NG OPERATING LANGUAGE UIEW DATA RDJUST CONTRAST FIELD CALIBRATION MODE OF OPERATION INFORMATION SCREEN NAU I GAT I Ot�EXIT t·1ENU % .41 4 "Hg se cursor ke�s to select menu item ther ·ress Enter This function allows the user to zero the pressure transducer(s). Upon selection, the current pressure reading is displayed. The operation will be carried out when the '.J' is pressed. When zeroing transducers it is important to allow them to stabilize first so an accurate zero is achieved. If <D is pressed the instrument will return to the gas reading screen without zeroing. NOTE: Zeroing Transducers may take a few extra minutes in the field, but is a recommended step to Page 42 REV C2 (English) LANDTEC Release Date: November 301". 2010 GEM2xxx Operation Manual ensure the best possible accuracy. 2.13 Update Site Data Allows the user to answer questions (pre-defined in LSGAM software) relating to the site (e.g. name of operator, weather conditions, etc.). Site Questions are different than ID Questions. Once answered, site answers to site questions will be associated with all subsequent readings until the instrument is turned off or the question answers are updated. This is covered in detail in section 3.2 of this manual. 2.14 Data Logging (GA mode only) Enables the user to leave the Instrument unattended to take samples at pre-determined intervals. The reading interval and pump run time may be edited prior to commencing the logging cycle. The ID code may ONLY be set in LSGAM communication software. Once the logging function is activated, the instrument will carry out a 30 second 'Warm-up' countdown (displayed bottom right) and begin the first sample. After each sample, the unit will automatically sleep to conserve power if the time between the pump ending and the next sample is greater than 30 seconds. The instrument is reactivated (awakened) during a logging cycle, the LANDTEC logo will be displayed for a few seconds and the Gas Reading screen will be displayed. This will initiate a 30 second countdown to the next sample being taken unless the operator stops the logging function. The data will be logged against the ID setup through LSGAM for the Data Logging function 2.15 Operating Language The operating language of the instrument can be set to English, German, Spanish, French, Italian or Brazilian Portuguese through this option. 2.16 ViewData The view data allows the user to see the readings that are in the GEM2xxx memory. Often the amount of data stored is more than can be displayed adequately on one screen so pressing the ® key will allow the user to see additional screens with stored data. The 2 'A', 4 '<', 6 '>' and 8 'v' cursor keys will move forward or backwards through the instruments memory. Pressing the <D key will exit to the Gas Reading screen. 2. 17 Adjust Contrast The GEM2xxx automatically adjusts the screen contrast according to the ambient temperature to maintain normal viewing. The contrast can be manually adjusted by using the 4 '<' and 6 '>' cursor keys. The manual contrast setting is stored when the '.J' key is pressed. 2. 18 Field Calibration Whenever carrying out a user calibration function it is important to ensure the correct values are entered. Additionally, in the case of a zeroing function, ensure only certified gas or ambient air is used and no connection is made to a probe or wellhead fitting. Additionally, ensure the instrument is purged of any residual gas that may be inside the instrument prior to zeroing. Calibration cylinders are sold by LANDTEC. The regulator, sold by LANDTEC, is set to 0.5 liters per minute and 15 psig maximum. A normal field calibration usually requires the gas to be running for about two minutes. Upon selecting this option, the Field Calibration screen is displayed. A brief description of the user span calibration procedure and the current reading (row 'a') and user span calibration gas values (row 'b') are Page 43 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual displayed. .::i= Ct�rrent. readin9� l::=5F--:1n -·�� N/A N/A N/A N/A CH4 a --.-------------Q�.Q b --.-------------��-� _., .. t..:1rS1et.. -- -i_:u:.::'. 0(1. 1 05.�] 02 2(1. 7 20.8 -··,Exi l:,o· (;·-,Edit tar9et \::./ Concent.rat ions 1•-;i'•1 C.:11 i br.:1t. ion ,..:..,, Menu t· I The span gas values may be changed via the '® Edit Target Concentrations' option. Once this option has been selected, all the gas values will require entry. Each entry is to be confirmed by pressing the '.J' key. It is important to confirm the concentration of the calibration gas(es) used and enter the value(s) properly. The calibration menu has the following menu options: =· I Ht-� 1_: H ·IT CONFIRM CALIBRATION FACTORY SETTINGS LAST FIELD CAL'D EXIT MEt�U 2.18.1 Zero Channels Selected from the 'Field Calibration' -'.J-Calibration Menu' allows the relevant reading to be zeroed. When selected, a list of the available options will be displayed, this usually includes CH4, and 02, also the Gas Pod (if fitted). Supply a zero gas mixture to the instrument for the gas to be zeroed. Ensure the reading for the selected gas has settled to its lowest value before selecting the zero function. When the required option is selected, the user zero function will be carried out automatically. The operation will be carried out when the '.J' key is pressed. 2.18.2 Span Channels Spanning Channels should be carried out prior to use or when the ambient operating temperature changes greater than +/-20 degrees Fahrenheit. Selected from the 'Field Calibration' -'.J-Calibration Menu', allows the relevant reading to be span calibrated (in accordance with the calibration value entered). When selected, a list of the available options will be displayed, which includes CH4, CO2, 02. (CO & H2S internally for the Plus) and if an external Gas Pod is fitted (H2S, CO, SO2, H2, NO2, Cl2, or HCN). When the required option is selected from the list, the span calibration function will be carried out automatically. When carrying out this procedure, ensure the span calibration procedure (as outlined below) is followed: 1.Apply the relevant known certified gas concentration through the inlet port of the Instrument. 2.Wait until the current gas reading has stabilized. 3.Select the required calibration option via the '.J-Calibration Menu'. 2.18.3 Factory Settings This will clear any user zero and span calibration data. It will also restore the pre-programmed factory settings for ALL channels -CH4, CO2, 02 (CO & H2S for the Plus) or Gas Pod (if fitted) and pressure transducers. Page 44 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual 2.18.4 Last Field Cal Displays the date the last field calibration was carried out (zero or span). 2.19 Mode of Operation Allows changing instrument between GA mode and GEM mode of operation. 2.20 Information Screen The information screen will automatically display the following information: INSTRUMENT INFORMATION Software Version 3.10L, 09/21/09 Seri .::1 l Nu111ber Full service due La::.l Field C-::11. Lan·:.'l1...1a·:.'le Co111111tm i cal ion::. F.:ead i n9s lak en ID' s in u::.e Date f orm.::it Navigation Gt-111953 13 M.::1r 2£11£1 ** : ** ** ...... .+::+: /:t::+:EtY� 1 i ::.h BHUt:1- 3840(1H 00�35 of l ::n"::1[1 011 of 99::: MM/dd/':l':1 Note: This menu item is specific to GEM2NA V instrument models. This feature has two options Navigation Screen ON and Navigation Screen OFF. If the Navigation is turned ON, a navigation screen will appear after selecting a well ID. If the Navigation screen is OFF you will skip entering through the navigation screen. If all well locations are known, the user may choose to turn this feature off. Even if this feature is turned off, the GPS will record the related information with readings. 2.21 Exit Menu The Exit Menu simply exits the main menu screen and returns to the gas reading screen. Page 45 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual 3 Taking Probe Readings (GA Mode) LANDTEC classifies non-extraction wells as Probes when NOT connected to an active vacuum extraction system. Probes, (commonly known as migration probes), are typically placed on the perimeter of the landfill in natural soil to test for sub-surface gas migration or may be placed next to a building or road to test for the presence of Methane. The GEM2xxx instruments may be configured as a Gas Analyzer (GA mode) for sampling probes. To access this function from the gas read screen press '©' for menu and scroll down to Mode of Operation, press the '.J' key and highlight Landfill Gas Analyzer, pressing the '.J' key again will select GA mode of operation. 3.1 Preliminary Checks Prior to going to the test site, it is good practice to ensure: •All necessary ID codes have been uploaded via LSGAM software.•The time and date are correct.•The water trap has a clean and dry filter fitted.•The inlet-port particulate filter is clean and dry.•A supply of spare filters is available in case of accidental water blockage or contamination.•The battery has a good charge (minimum 25% charge, even if only a few readings are required).•The memory has sufficient space available.•The CH4, CO2, and 02 (CO & H2S for the Plus or Gas Pod if fitted) readings have been zeroed, withoutgas concentration present.•Check the span calibration with a known concentration calibration gas. Travel to the site with the analyzer in the vehicle's interior -not in the trunk or truck bed, where it may be subjected to extremes of temperature and possible shock damage. Do not place the analyzer against anything hot (e.g. gas extraction pipe, car body or in an unattended car during the summer). This may cause erroneous readings. When moving around a site, protect the instrument from strong direct sunlight, heavy rain or wind-chill. Strong direct sunlight can raise the temperature of the instrument beyond its operating range. If this occurs, the LCD display will appear almost black and the contrast setting cannot alter the contrast. Typically no permanent damage is done and after the instrument cools the screen will become readable again. Always use the water trap! If the water trap becomes flooded, change the filter immediately and ensure all tubes are clear before re-use. 3.2 Update Site Data Prior to taking the readings at a particular site, the Site Questions and Technician Login should be updated. This is accessed via the General Menu '©' then 'Update Site Data'. This function removes the need for the site conditions to be recorded manually. A series of up to five questions can be pre-programmed using LSGAM, see Section 3.7. If Site Questions were uploaded to the instrument, they should be answered at this time. The answers are stored and appended to each reading stored thereafter, until the Site Data is updated for another site. 3.3 Taking Readings -With ID For this function to be used it is essential that the relevant ID be previously uploaded to the Instrument using LSGAM, see Chapter 2 An ID cannot be created by the Instrument alone. 1.When the Read Gas Levels screen is displayed, option 'G> Next ID' should be selected. A list of stored IDs is displayed for selection via the '"' and 'v' cursor keys, the 'next' ID on the list is Page 46 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual automatically highlighted. To confirm selection, press the '.J Select ID' key. The display may be toggled using the '@ View ID Details' to display any relevant ID information available; such as a description of the probe location, etc. 2.A reminder is displayed to disconnect sample tubes, as a clean air purge will automatically remove the previous sample from the instrument. Purge time may be set via LSGAM (default is 30 seconds). Once the '.J Start Purge' key is pressed, purge will begin and the Read Gas Levels screen will be displayed upon completion. The purge may be aborted by pressing the '<DEXIT' key. 3.The ID number selected and the pump runtime is displayed in the upper left corner of the read gaslevels display. 4.On GEM2NAV models a Warning screen may appear before going to the GPS Tracking screen------------------------• 20f1(1f eet...---- ? r·ME21.J01 t-� : .) ·---�---1.,J: 116 I I '-JI ? = No Coordinates on Stored ID 0 = Coordinates are Stored on the ID Stat.us: Go1.J'I!!,._ ___ .,.. ________ _. ... UTC:10/16/09 03:21 t No.Satellites: 6 I Herror:5.�feet I Uerror:7.0feet I HDOP: 1. 2 I .... -------------------�• 'I)Exi t... @Store �)§F'S . � Tracking Location ��ett1n9s If coordinates were stored with the ID in LSGAM, then a diamond symbol ('0') will appear before the ID. In front of the ID, a compass with an arrow will appear indicating the direction of the ID that you have selected. G> GPS Settings will allow you to change the GPS Units of measure indicator and scaling values. Once you have navigated to the well device you can press <D Exit Tracking to proceed to the gas reading screen. 5.At this point, connect the sample tube (with water trap) from the sample point to the inlet port of theinstrument, ensuring the connector 'clicks' into place. Then connect the sample tube to the probesample port. Do not connect the sample tube to the probe port before connecting to the instrument as this will cause any pressure in the probe to dissipate and a proper pressure reading will not be taken. 6.As soon as the connection is made, the relative/static pressure reading will be displayed. Nosample is taken from the probe at this time. Let the relative pressure reading stabilizes. When thepump starts, the relative/static pressure reading is stored. The relative/static reading will remain displayed as the pressure last taken. 7.The pump will run for the pre-programmed time and a countdown timer will be displayed. The pump may be stopped or started at anytime by way of the ')(' (pump) key. The reading may be stored at anytime with the use of the '.J' key. When the pump automatically stops this should be used as aprompt to store the reading.8.Upon storing the reading, any pre-programmed questions will be displayed for response. This mayrequire a numeric, alphanumeric selectable comment, or exclusive comment answer. A maximum of eight selectable and exclusive comments may be entered. 9.Disconnect the sample tubing from the probe and start again at Step 1 for the next probe. For each reading, the following information will be stored: •ID code.•Current time/date. Page 47 REV C2 (English) LANDTEC Release Date: November 301", 2010 GEM2xxx Operation Manual •Site data (if entered). •All gas readings and balance (CH4, CO2, 02 (, CO and H2S for the Plus)). •LEL CH4. •Barometric Pressure. •Relative Pressure. •Questions/comments. •Temperature (if temperature probe is connected). •Gas Pod (if connected). •Latitude (for GEM2NAV) •Longitude (for GEM2NAV) •Elevation (for GEM2NAV) •UTC (for GEM2NAV) •Herror (for GEM2NAV) •Verror (for GEM2NAV) •Number of Satellites (for GEM2NAV) When the instrument is switched off, a clean air purge is automatically started for a pre-determined period. This may be aborted with the use of the 'J' key, although it is not recommended. A tone will sound and a flashing bell will be displayed next to the appropriate gas reading value if a preset alarm condition has been exceeded. 3.4 Taking Readings -Without ID Gas Readings can be taken without an ID in the instrument by following the instructions below. To create and uploaded IDs to the instrument using LSGAM, see Chapter 2. An ID cannot be created by the Instrument alone. 1.From the Gas Reading Screen first select 'G> Next ID' then press '@ Select No ID' or, if ID information has not been uploaded to the instrument, an ID list will not be available. In eithercase, the ID will be displayed and stored as'-- - - - - --'.2.A reminder is displayed to disconnect sample tubes, as a clean air purge will automatically remove the previous sample from the instrument. Purge time may be set via LSGAM (default is 30 seconds). Once 'J' is pressed, purge will begin and the Read Gas Levels screen will be displayed upon completion. The purge may be aborted by pressing the '<DEXIT' key. 3.On GEM2NAV instrument models the Tracking screen will appear if the Navigation Menu option is turned on. Since the reading will be taken without an ID you will not have coordinates for thedevice and the navigation compass will not be displayed. Press '<DEXIT Tracking' key tocontinue to the gas reading screen. 4.At this point, connect the sample tube (with water trap) from the sample point to the inlet port of the instrument, ensuring the connector 'clicks' in to place. 5.Now connect the sample tube to the probe sample port. Do not connect the sample tube tothe probe port before connecting to the instrument as this will cause any pressure in theprobe to dissipate and a proper pressure reading will not be taken.6.The pump may be started or stopped at anytime by way of the '@' (pump) key and a 'time-on' timer will be displayed. The pump should always be stopped using the 'J' key, before storing a reading. 7.Upon storing the reading, a virtual keyboard will be displayed for any alphanumeric comments to be entered.8.Disconnect the sample tubing from the probe and proceed from step 1 for the next probe. Except for the ID code information, which will be stored as '-- - - - - --', and probe questions, for each reading the information stored will be the same as that for a reading with an ID. Page 48 REV C2 (English) LANDTEC Release Date: November 301", 2010 GEM2xxx Operation Manual While taking a reading, a tone will sound and a flashing bell will be displayed next to the appropriate gas reading value if a preset alarm condition has been exceeded. 3.5 Temperature Probe Reading The GEM2xxx has the facility to automatically display and record the probe temperature via an optional Temperature Probe (TP-2000). When the Temperature Probe is fitted to the Communication Socket, the temperature will be displayed in the read gas levels screen and recorded with all other data. The temperature probe is part of the GEM2xxx UL certification and is therefore certified for use under the same conditions as the instrument. 3.6 Cross-Gas Effects 3.6.1 Methane, Carbon Dioxide and Oxygen Methane is measured using dual beam infrared absorption. The Methane reading is filtered to an absorption frequency of 3.41 µm (nominal). Instruments are calibrated using certified Methane mixtures and will give correct readings provided there are no other hydrocarbon gasses present within the sample (e.g. ethane, propane, butane, etc.). If there are other hydrocarbons present, the Methane reading will be higher (never lower) than the actual Methane concentration being monitored. The extent to which the Methane reading is affected depends upon the concentration of the Methane in the sample and the concentration of the other hydrocarbons. The effect is non-linear and difficult to predict. The instrument does not read total hydrocarbons. If other hydrocarbons are present in the sample gas a filter should be used to remove them and mitigate the cross gas effects. Typically trace levels of other hydrocarbons (<100ppm) will not induce a cross gas effect and do not require filtering. The Carbon Dioxide reading is filtered to an infrared absorption frequency of 4.29µm (nominal), the frequency specific to Carbon Dioxide. Therefore, any other gases usually found on landfill sites will not affect the Carbon Dioxide reading. The Oxygen sensor is a galvanic cell type and suffers virtually no influence from CO2, CO, H2S, SO2 or H2, unlike many other types of Oxygen cell. The infrared sensors will not be "poisoned" by cross gas effects. Normal operation will resume as soon as the gas sample has been purged. Note -there has been one reported incident of a high reading due to the presence of Carbon Disulfide, which has a similar absorption frequency to Carbon Dioxide. 3.6.2 H2S, CO and other Optional Gas Pods The Gas Pods used to measure H2S and CO do suffer from cross-gas effects. Such effects are not accurately specified. However, the following table may be useful as a guide. This table represents how many ppm would be read by a Gas Pod if 1 00ppm of the interfering gas was applied, (with no other crosscontaminates being present in the sample). Cell co H2S SO2 H2 CH4 CO2 co 100 <3/-300* 0 <40 0 0 H2S <0.5 100 -20 -0.1 0 0 *Indicates reading from pod not fitted with internal filter or after internal filter is saturated. NOTE: All readings are given in parts per million (ppm). The life of an electrochemical cell is determined by exposure to gasses, typical life being one to two years. It is recommended that Gas Pods be field calibrated at regular intervals. Purge gas pods in the same manner as the instrument to help preserve their life. Page 49 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual NOTE: Cross-gas effects can be mitigated by employing a filter for the gas not being tested. 3.6.3 GEM2xxx Plus Internal Electrochemical Cells for Measuring H2S and CO The GEM2xxx Plus employs two internal electrochemical cells to measure Hydrogen Sulfide (H2S) and Carbon Monoxide (CO). Electrochemical cells which measure CO are typically susceptible to cross gas interference by Hydrogen (H2) and Hydrogen Sulfide (H2S). Two components that may be present in the Landfill Gas sample. This means that if H2 and/or H2S are/is present in the Landfill Gas sample a normal CO electrochemical cell would give an artificially high reading. The GEM2xxx Plus uses a 'hydrogen compensated' CO cell to counteract the interference by H2• This is why the instrument displays an H2 channel. H2 is not directly measured, although a rough value, which is shown as LO, MED or HI, can be interpreted. If the H2 value is displayed as LO or MED the H2 compensation will mitigate the H2 effect on the CO reading, however if the H2 value is shown as high it is possible that there is more H2 present than the compensation is capable of adjusting for. If that is the case the CO value may be artificially high due to cross gas interference by the H2. Additionally, if a HI level of H2 is encountered then a longer than normal purge time will typically be necessary to clear all the H2 from the electrochemical cell. It is recommended that after encountering a HI level of H2 the instrument be purged with clean air until the H2 channel displays LO. This could take as long as five or ten minutes (if the H2 channel was over ranged) but is necessary to ensure the subsequent readings are accurate. The CO cell used in the GEM2xxx Plus also utilizes an internal H2S filter to eliminate H2S cross gas interference. However, the filter does have a finite capacity. If the filter's capacity is exceeded then the CO cell will be susceptible to cross gas interference by any H2S that is present in the gas sample. It is quite easy to determine if the capacity of the filter has been exceeded. After all the sample gas has been purged from the instrument, with clean air, and the CO reading is zero, run a certified gas that contains H2S but not CO (the H2S calibration gas) through the instrument. If the CO reading remains zero while the H2S reading increases to the certified value then the internal H2S filter has remaining capacity. If the CO reading increases with the H2S reading then the internal filter's capacity has been exceeded and the cell will need to be replaced. The GEM2xxx Plus was designed to read a maximum H2S concentration of 500ppm and a maximum CO reading of 2000ppm. If the gas sample contains more than the maximum concentration the instrument will be over ranged and display >>> as the reading. If the instrument is over ranged the readings typically stay artificially high for several minutes and will not go back to zero with a normal purge. While over ranging the instrument is not recommended and will slightly shorten the life span of the electrochemical cells the resulting high readings are not permanent. If one of the channels is over ranged it is recommended to purge the instrument, with clean air, until the reading returns to zero. This may take as long as five or ten minutes. The cell may need to be recalibrated but normally the extra long purge is all that is necessary. Page 50 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual 4 Taking Extraction Well Readings (GEM Mode) LANDTEC classifies gas-producing penetrations on landfills as wells when used with vacuum extraction systems and flow determining devices such as the ACCU-FLO wellheads, orifice plates or pitot tubes. The GEM2xxx instruments may be configured as a Gas Extraction Monitor (GEM mode) for the purpose of sampling wells and obtaining flow measurements. To access this function from the gas read screen press '<D' and scroll down to Mode of Operation, press the '.J' key and highlight Gas Extraction Monitor, pressing the '.J' key again will select GEM mode of operation. LANDTEC classifies monitoring points on the gas conveyance system not otherwise classified as a Well. Sample ports may have a flow device associated with them. For this reason, Sample ports are monitored in the same manner as well readings. 4.1 Preliminary Checks Prior to going on site, it is good practice to ensure: •All necessary ID codes and readings have been uploaded via LSGAM software•The time and date are correct•The water trap has a clean and dry filter fitted•The inlet-port particulate filter is clean and dry•A supply of spare filters is available in case of accidental water blockage or contamination•The battery has a good charge (minimum 25% charge, even if only a few readings are required)•The memory has sufficient space available•The CH4, CO2 and 02 (CO & H2S for the Plus or Gas Pod if fitted) readings have been auto-zeroedwithout gas concentration present•Check the span calibration with a known concentration calibration gas Travel to the site with the analyzer in the vehicle's interior -not in the trunk or truck bed, where it may be subjected to extremes of temperature and possible shock damage. Do not place the analyzer against anything hot (e.g. gas extraction pipe, car body or in an unattended car during the summer). This may cause erroneous readings. When moving around a site, protect the instrument from strong direct sunlight, heavy rain or wind-chill. Strong direct sunlight can raise the temperature of the instrument beyond its operating range. If this occurs, the LCD display will appear almost black and the contrast setting cannot alter the contrast. Typically no permanent damage is done and after the instrument cools the screen will become readable again. Always use the water trap! If the water trap becomes flooded, change the filter immediately and ensure all tubes are clear before re-use. 4.2 Update Site Data Prior to taking the readings at a particular site, the Site Data and technician login should be updated (if programmed). This is accessed via the General Menu '<D'. This function removes the need for the site conditions to be recorded manually. A series of up to five questions can be pre-programmed with the use of LSGAM and answered at this time. The answers to these questions are stored and appended to each reading stored thereafter, until the site data is updated for another site. 4.3 Taking Gas and Flow Readings (GEM Mode) The GEM mode of operation is designed to allow for gas flow (SCFM) and energy measurements (BTU) to be calculated at the wellhead. This function requires the use of an ID that has been uploaded from LSGAM software with the correct type of flow device defined. Gas flow and BTU will not be calculated if this action has not been performed. 1.When the gas read screen is displayed select '@ Next ID'. A list of stored IDs will be displayed for Page 51 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual selection via the·,,.: and 'v' cursor keys, the 'next' ID is automatically highlighted, to confirm the selection press the '.J' key. The screen may be toggled to display any relevant ID information such as a description of the well location, work to be carried out, etc. 2.A reminder is displayed to disconnect sample tubes, as a clean air purge will automatically remove the previous sample from the instrument. Purge time may be set via LSGAM (default is 30 seconds). Once the '.J' key is pressed, purge will begin and the Read Gas Levels screen will be displayed upon completion. The purge may be aborted by pressing the '<DEXIT' key. 3.On GEM2NAV models a Warning screen may appear before going to the GPS Tracking screen..-----------------------· ._2000f eet..---.. ? �2lJ01 I M: 3..) . . • c:-i:: •• 4 I I.,J:116':·�� R:3977�·�-..-----------------Sec: ...... ? = No Coordinates on Stored ID -- <> = Coordinates are Stored on the ID Status: Good .... �IJTC: 10/ 16/0'3 0�1.5�: ....... .I' .. 1. -..i,111111a-----------No. Satellites: 6 I Herror:5.3feel I Uerror:7.0feet I HDOP: 1. 2 I---------------------• ·T·1E)<i t_. �)Store @GPS '·-·' Track in•;i �.::::. Location Settit1'::1s If coordinates were stored with the ID in LSGAM, then an diamond symbol ('0') will appear before the ID. In front of the ID, a compass with an arrow will appear indicating the direction of the ID that you have selected. G> GPS Settings will allow you to change the GPS Units of measure indicator and scaling values. Once you have navigated to the well device you can press <D Exit Tracking to proceed to the gas reading screen. 4.Connect the sample tubes (with water trap filter) to the wellhead ensuring the gas sample tube and impact pressure tubes are properly oriented. Insert the temperature probe if used. Note; a flashing bell will be displayed next to the appropriate gas and a beeping tone will be heard, if a preset alarm condition has been exceeded. 5.Press the ')(' key to start the sample pump; a countdown timer will be displayed in the upper left area of the display. The pump may be stopped and restarted and any time by pressing the ')(' key. The pump run time is set in LSGAM software. Allow the gas readings to stabilize and press 'G>Measure Flow' key, this will store the gas level readings.6.If a temperature probe is plugged in the temperature will automatically be recorded, otherwise a screenwill appear prompting you to enter the gas temperature. Enter in the gas temperature manually if necessary and press the '.-When Complete' key. 7.If the flow device is set to user input then a screen prompting input of the flow will be displayed. Enter in the flow and then press the '.-When Complete' key. 8.The 'PRESSURE READINGS' screen will now appear and prompt the user to disconnect the sample tubes and allow the pressure to stabilize. Once the pressure has stabilized press '.J ZeroTransducers'. Press '(D' to continue. Note: if ACCU-FLO wellheads are used this zero function may be performed prior to connecting the sample tubes to the well head by selecting '(!) MENU' and highlighting 'ZERO TRANSDUCERS'. This eliminates the need to disconnect and re-connect the sample tubes on the same wellhead.9.If a temperature probe is not connected, the user is prompted to manually input the gas temperature, press the '.J' key when entry is finished.10.The gas flow and energy screen is now displayed showing all the gas level readings taken in the gas Page 52 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual read screen as well as the level of gas flow (SCFM) and power (BTU). In addition, Adjusted, Current and Previous (if not previously cleared from the instrument) readings are displayed so modifications may be made to the well if required. 11.If a device is setup containing "system pressure" then the System Pressure Readings screen will appear and prompt you to connect the instrument's static pressure hose to the sample port on the gas system side of the valve. Once the pressure is stored, press then 'Q) Continue' key. 12.Pressing '.J STORE' will save the readings to memory. 13.If questions were associated to the device, the questions/comments screen(s) will display and allow you to answer questions or select comments about the condition of the well. A total of seven comments andone exclusive comment may be stored with each ID.14.Press'@ NEXT ID' and proceed to the next wellhead. An automatic purge will be performed at this time to ensure the sample has been exhausted from the instrument. For each reading, the following information will be stored: •Device ID code•Current time/date •Site Questions and Comments (if entered)•All gas readings and balance gas (CH4, CO2, 02 (CO & H2S for the Plus Models))•Barometric Pressure•Temperature•Gas Pod (if connected)•Gas flow (SCFM)•Power (BTU)•Comments, Exclusive comments and Answers to Questions•For GEM2NAV Models Only Relevant GPS information•Latitude• Longitude• Altitude• UTC• Herror• Verror• Number of Satellites Upon switching the Instrument off, a clean air purge is automatically started for a pre-determined time period. This may be aborted by pressing the '.J' key, although this action is not recommend. Page 53 REV C2 (English) LANDTEC Release Date: November 301", 2010 GEM2xxx Operation Manual 5 Field Operations 5. 1 Landfill Gas Generation A brief overview of the theory of landfill gas generation and Methane recovery follows. Initially, when decomposable refuse is placed into a solid waste landfill, the refuse is entrained with air from the surrounding atmosphere. Through a natural process of bacterial decomposition, the Oxygen from the air is consumed and an anaerobic (Oxygen free) environment is created within the landfill. This anaerobic environment is one of several conditions necessary for the formation of Methane-CH4• If Oxygen is reintroduced into the landfill, those areas are returned to an aerobic (Oxygen present) state and the Methane-producing bacteria population is destroyed. A period of time must pass before the productive capacity is returned to normal. Since there is some Methane of a given quality within the landfill void space, a decline in Methane quality is only gradually apparent depending upon the size of the landfill. Carbon Dioxide is also produced under either an aerobic or anaerobic condition. Under static conditions, the landfill gas will be composed of roughly half Methane and half Carbon Dioxide with a little Nitrogen. As air is introduced into the landfill, the Oxygen is initially converted to Carbon Dioxide and residual Nitrogen remains. Measurement of residual Nitrogen is usually a good indicator of the anaerobic state of the landfill; however, it cannot be directly measured. It can, however, be assumed and estimated using a subtraction basis as the balance gas. Hence, the measurement of Carbon Dioxide is an intermediary step. Because Carbon Dioxide levels may fluctuate depending on the changing concentrations of the other constituent gases, Carbon Dioxide levels are not evaluated directly but are considered in light of other data. In evaluation of residual Nitrogen, allowances must be made if there has been any air leakage into the gas collection system or if there has been serious over pull. If enough air is drawn into the landfill, not all Oxygen is converted into Carbon Dioxide and the Oxygen is apparent in the sample. It is ideal to perform routine analysis of individual wells, as well as an overall well field composite sample, by a gas chromatography. This is not always practical at every landfill. Under some conditions there may be a small amount of hydrogen in the LFG, (about 1 percent, usually much less). This may affect field monitoring response factors, but otherwise it can be ignored. 5.2 Subsurface Fires If very large quantities of air are introduced into the landfill, either through natural occurrence or overly aggressive operation of the LFG system, a partly unsupported subsurface combustion of the buried refuse may be initiated. Subsurface fire situations are difficult to control or extinguish once started, present health and safety hazards, and can be quite costly. Therefore, prevention by good operation of the collection system and maintenance of the landfill cover is the best course of action. The presence of Carbon Monoxide, Carbon Dioxide, and Hydrogen Sulfide are indicators of poorly supported combustion within the landfill. 5.3 Techniques for Controlling Landfill Gas There are many techniques for controlling landfill gas extraction. These techniques represent tools, which are used together to control landfill gas. The ACCU-FLO wellhead is designed to work with all of these techniques. Below is a discussion of the individual techniques, how to use them, and their limitations. Reliance on only a few of the techniques discussed can lead to misinterpretation of field data and improper operation of the well field. Later the best use of these techniques to optimize landfill gas control will be discussed. Page 54 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual 5.3.1 Controlling by Wellhead Valve Position Unless the valve handle is calibrated for a given flow rate, this method is unreliable. The position of the valve handle alone does not provide sufficient information about the well to control it. It is useful to note the relative position of the valve, and essential to know which valves are fully open or fully closed. 5.3.2 Controlling by Wellhead Vacuum This technique relies on the relationship of well pressure/vacuum to flow for a given well. Reliance upon this method, however, can be misleading. This is because the square root relationship between flow and pressure is difficult to affect while performing day-to-day well field adjustments. As decomposition, moisture, and other conditions change, this method shows itself to be inadequate and imprecise. 5.3.3 Controlling by Gas Composition This method determines Methane, Nitrogen (balance gas) and other gas composition parameters at wellheads and at recovery facilities using portable field instruments and, sometimes, analytical laboratory equipment. Complete knowledge of gas composition (i.e., major fixed gases: Methane, Carbon Dioxide, Oxygen and Nitrogen) is desirable. It is also necessary to check other gas parameters, such as Carbon Monoxide, to fully evaluate the condition of the well field. Reliance on this information can lead to improper operation of the well field. Indications of excessive extraction often do not show up right away. This method often leads to a cycle of damage to the Methane producing bacteria population and then to overcorrection. This cycling of the well and producing area of the landfill is not a good practice. It leads to further misinterpretation of the condition of the well field and has a disruptive effect on the operation of the well field. The use of analytical laboratory instrumentation such as a gas chromatograph is a valuable supplementary tool to verify gas composition. This normally requires collection of samples at the wellhead and analysis at some fixed location where the equipment is located. The drawbacks of this method as a primary means of obtaining information for well field adjustment are the time expended, cost, and probably most important, responsiveness to the needs of the well field for timely adjustment. The laboratory equipment required is also very costly. Some analysis is recommended for verification of field readings from time to time. It is recommended a monthly sample of the composite gas be taken at the inlet to the flare or gas recovery facility. 5.3.4 Controlling by Flow Rate This is a more exacting technique for determining and adjusting gas flow at individual wells. It requires using a fixed or portable flow measurement device at each wellhead to obtain the data needed to calculate volumetric (or mass) flow rates. It is normally convenient to use cubic feet per minute or per day, as a standard unit of measure for volumetric flow. It is important to distinguish between the volumetric quantity of landfill gas and the volumetric quantity of Methane extracted from each well and the landfill in total. The two variables are somewhat independent of each other and it is the total quantity of Methane extracted we are interested in. It is possible for the total quantity of landfill gas extracted to increase while the total quantity of Methane extracted decreases. To monitor this, the quantity of Methane extracted (LFG flow x percent Methane) or the quantity of BTUs recovered per hour (LFG flow x percent Methane x BTUs per cubic foot of Methane x 60 minutes per hour) can be calculated. It is conventional to measure BTUs per hour as a unit of time. There are approximately 1012 BTUs of heat per cubic foot of pure Methane (like natural gas), although this figure varies a little among reference texts. Measuring flow is an essential part of monitoring and adjusting a well field. The well should be adjusted until the amount of Methane recovered is maximized for the long term. A greater amount of Methane or energy can usually be recovered over the short term; however, this ultimately leads to diminishing returns. This is seen in stages as increased CO2 and gas temperature and later as increased Oxygen from well over-pull. In time, the Methane will also decline. This is the result of a portion of the landfill, usually at the surface, being driven aerobic. In this portion of the landfill, the Methane-producing bacteria will have been destroyed (due to the presence of Oxygen). With the Methane-producing capacity of the landfill reduced, the pore space in the area no longer producing may become filled with landfill gas equilibrating (moving in) from an unaffected producing area. This leaves the impression that more gas can be recovered from this Page 55 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual area, and may lead to the operator opening the well or increasing flow. 5.4 Well field Monitoring The frequency of LFG well field monitoring varies depending upon field requirements and conditions. Normal monitoring frequency for a complete field monitoring session with full field readings (suggested normal and abbreviated field readings list follows) will vary from typically once a month to once a week. Well field monitoring should not normally be extended beyond one month. The importance of regular, timely monitoring cannot be overemphasized. 5.5 Typical Field Readings •Name of person taking readings•Date/time of each reading•Methane (CH4)•Oxygen (02)•Carbon Dioxide (CO2)•Balance Gas (primarily Nitrogen N2)•Wellhead gas temperature (flowing)•Ambient air temperature•Static pressure (PS) (from GEM2xxx or magnehelic) or other device(anemometer/velometer)•Velocity head (P or PT) (from GEM2xxx or pitot tube and magnehelic)•Wellhead gas flow (from GEM2xxx, or pitot tube & magnehelic, or anemometer/velometer)•Wellhead adjustment valve position (initial and adjusted)•New wellhead vacuum and flow information after adjustment•Calculation of each well's LFG and Methane flow and sum total•Observations/comments Additionally, Carbon Monoxide (CO) or Hydrogen Sulfide (H2S) readings may be taken if problems are suspected. Supplementary monitoring once to several times a week may be performed using an abbreviated form of field readings. 5. 6 Abbreviated Field Readings •Name of person taking readings•Date/time of each reading•Methane (CH4)•Oxygen (02)•Wellhead gas temperature (flowing)•Ambient air temperature•Static pressure (PS) (from GEM2xxx or magnehelic)•Velocity head (P or Pt) (from GEM2xxx or pitot tube and magnehelic) •Wellhead gas flow (from GEM2xxx, or pitot tube and magnehelic, or anemometer/velometer)•Wellhead adjustment valve position (initial and adjusted)•New wellhead vacuum and flow information after adjustment•Observations/comments Line vacuums and gas quality may be taken at key points along the main gas collection header and at subordinate branches. This helps to identify locations of poor performance, excessive pressure drop, or leakage. Perform systematic monitoring of the well field, taking and logging measurements at each wellhead and major branch junction in the collection system. During monitoring, examine landfill and gas collection system for maintenance issues. Record needed maintenance or unusual conditions. Examples of unusual occurrences or conditions are unusual Page 56 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual settlement, signs of subsurface fires, cracks and fissures, liquid ponding, condensate/leachate weeping from side slopes, surface emissions and hot spots, and liquid surging and blockage in the gas collection system. Field readings should be kept in a chronological log and submitted to management on a timely basis. 5. 7 Well Field Adjustment Criteria There are several criteria used in well field adjustment. The primary criterion is Methane quality. Methane quality is an indicator of the healthy anaerobic state of the landfill and thus proper operation of the LFG collection system. However, a decline in the healthy productive state of the landfill is usually not immediately apparent from Methane quality. Due to this, several criteria must be considered at once. Conditions within the landfill favor Methane production. Following are well field adjustment criteria and typical conditions for consideration: •Methane quality (ranging from 26 percent upwards)•pH•Temperature•General overall quality•Moisture conditions•Waste stream characteristics•Placement chronology•Insulation characteristics•Oxygen quality (ranging below 1 percent, preferably less then ½ percent) •Landfill cover porosity and depth in the proximity of the well•Landfill construction factors including:•Type of fill•Size and shape of refuse mass•Depth of fill•Compaction•Leachate control methods •Seasonal, climatic, geographical, and recent weather, or other considerations, including seasonally arid or wet conditions, precipitation, drainage, groundwater •Surrounding topography and geologic conditions•Proximity of the well to side slopes (within 150 to 200 feet and less may require conservative operation of the well)•Nitrogen (typically 8 to 12 percent and less)•Temperature (between ambient and about 130 °F)•LFG and Methane flow from the wellhead•Design of the gas collection system•Landfill perimeter gas migration and surface emission control, or energy recovery objectives•Diurnal fluctuation (day to night) of atmospheric pressure 5.8 Establishing Target Flows The goal is to establish a target flow which will likely produce the best possible Methane quality and minimum Oxygen levels while maximizing the recovery of landfill gas. Typically, small adjustments are made in flow to achieve and maintain quality objectives. The well must not be allowed to over pull. High well temperatures, (130° to 140°F and greater), are an indication of aerobic activity and, thus, well over-pull. These effects may not be immediately apparent. Well adjustment should be made in as small an increment as possible, preferably an increment of ten percent of the existing flow or less. There may be obvious conditions when this is not appropriate, such as Page 57 REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual when first opening up a well or when serious over-pull is recognized. Every effort should be made to make adjustments and operations as smooth as possible. Dramatic adjustments, or operating while switching between a high flow mode and a well shutoff mode, should be avoided. 5.9 Well Field Optimization Every effort should be made to continuously locate and correct or eliminate conditions (e.g., gas condensate, surging and blockage, settlement, etc.), which inhibit efficient operation of the gas collection system. This allows well monitoring and adjustment to be significantly more effective. 5.10 Migration Control-Dealing with Poor Methane Quality If Methane and Oxygen quality objectives cannot be maintained at a given well, such as a perimeter migration control well, then an attempt should be made to stabilize the well as closely as is practical, avoiding significant or rapid down trending of Methane or up trending of Oxygen. It is not uncommon for perimeter migration control wells to be operated at less than 40 percent Methane or greater than one-percent Oxygen. It should be recognized that these wells are likely in a zone where some aerobic action is being induced, and that there is some risk of introducing or enhancing the spread of a subsurface fire. Sometimes a judicious compromise is necessary to achieve critical migration control objectives or because existing conditions do not allow otherwise. Such situations should be monitored closely. 5.11 Well Field Adjustment-Purpose and Objectives The objective of well field adjustment is to achieve a steady state of operation of the gas collection system by stabilizing the rate and quality of extracted LFG in order to achieve one or several goals. Typical reasons for recovery of LFG and close control of the well field are: •Achieve and maintain effective subsurface gas migration control.•Achieve and maintain effective surface gas emissions control.•Assist with proper operation of control and recovery equipment.•Avoid well "over-pull" and maintain of a healthy anaerobic state within the landfill.•Optimize LFG recovery for energy recovery purposes.•Control nuisance landfill gas odors.•Prevent or control subsurface LFG fires.•Protect structures on and near the landfill.•Meet environmental and regulatory compliance requirements. Well field adjustment is partly subjective and can be confusing because it involves judgment calls based on simultaneous evaluation of several variables, as well a general knowledge of site specific field conditions and historical trends. Well field evaluation and adjustment consist of a collection of techniques, which may be used, in combination, to achieve a steady state of well field operation. Page 58 REV C2 (English) LANDTEC Release Date: November 301". 2010 GEM2xxx Operation Manual 6 Troubleshooting Problem Unit does not turn on or operation is erratic "Flow Fail" is displayed and an audible alarm is heard Readings taken are not what was expected Readings swing up or down wildly as they are being taken Unit displays***** or>>>>> Oxygen reading is high on all wells Unit will not download readings or an error occurs while downloading. Methane and Carbon Dioxide readings drift Oxygen readings drift Black screen displayed when unit turned On Nothing happens when the Gas Pod is installed Temperature does not update when temperature probe is installed Page 59 Corrective Action/Reason Battery charge is too low-recharge batteries. Unit is too hot -cool down unit and try again. Contact Factory Service. The inlet is blocked. Remove blockage and retry. The particulate filter or water trap filter needs replacing. Unit may be out of calibration. Calibrate unit with known gas concentration. Water trap or particulate filters are clogged. Replace filter(s). Cell phones and other sources of RF interference can affect Methane readings. Don't use your cell phone while taking readings. These symbols are substituted when the measured reading is out of range of the instruments capabilities in some fields or when a value needs to be entered manually such as temperature. Check that the water trap housing is screwed on tight. Check or replace O-rings on the water trap and instrument inlet. Check the wellhead inset for cracks, replace O-ring on insert. Field calibrate Oxygen channel. Verify that the communications software is the right version for the instrument being used. Check that the proper serial port is selected in the software. Contact Factory Service. Perform a field calibration and check well again. Verify cal gas is flowing when regulator is turned on. Verify all connections are tight and filters are not clogged. Contact Factory Service. Perform a field calibration -zero and span. Contact Factory Service. Charge unit over night and try again. Unit too hot -cool down and try again. Try adjusting contrast level. Contact Factory Service. Remove and re-seat the Gas Pod. Contact Factory Service. Check the probe fitting is fully seated. Check the probe plug is screwed together tightly. Contact Factory Service. REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual 7 Service & Maintenance 7. 1 Factory Service LANDTEC Facilities are the ONLY authorized service centers for the GEM ™ Family of instruments. LANDTEC offers a several service plans to facilitate your bi-annual Factory Servicing of the instrument. Please contact your LANDTEC representative for more information on the service plan that best fits your specific needs. Factory Service includes but is not limited to the following; General operations The main functions of the gas analyzers operation are checked to ensure that they are within specification. Barometric pressure reading The barometric pressure reading is checked to ensure it is within specification. This is carried out by way of comparing the atmospheric reading against a known standard. If necessary, reprogramming is quoted. Static and differential pressure readings The static and differential pressure transducers are checked to ensure they are within specifications. This is carried out by comparing instrument readings to a known standard, applying a known pressure and noting both readings. If necessary, reprogramming will be quoted. Pump functionality (flow and vacuum) All flow and vacuum functions of the internal pump are checked to ensure the operation is within specification. Water ingress/blockage The internal filters are checked for cleanliness and moisture ingress to ensure they are not contaminated. Flow fail setting The flow fail function is checked to ensure proper operation within the specified limits. Gas pod and Temperature probe connectivity reading The connectivity of the gas analyzer is checked to ensure correct operation and reading performance with accessories. Computer controlled gas check Inward and outward gas checks are carried out by way of connecting the gas analyzer to a custom built computer controlled calibration chamber and proprietary software. At the inward stage, two sets of readings are taken -one using the customer's calibration settings and a second set using factory calibration settings. During this process a range of gases are used that span the reading range of the gas analyzer. Structural and aesthetics check The instrument is checked for cracks, scratches and broken or missing pieces. Page 60 REV C2 (English) LANDTEC Release Date: November 301", 2010 GEM2xxx Operation Manual 7.2 Factory Service Facilities LANDTEC North America 850 S. Via Lata, Suite 112 Colton, CA 92324 USA Sales Tel: +1 (800) 821-0496 or +1 (909) 783-3636 Service Tel: 1 (909) 783-3636 x6141 Web: www.LANDTECNA.com LANDTEC Europe Formerly Geotechnical Instruments Sovereign House Queensway Leamington Spa, Warwickshire CV31 3JR, England Tel: +44(0)1926 338111 Web: www.geotech.co.uk LANDTEC South America LANDTEC Produtos e Servicos Ambientais Ltda. Rua Pedroso de Carmargo, 237 -Chacara Santo Antonio -SP/SP CEP 0417-010 Brazil Phone: +55(11) 5181-6591 Web: www.landtecbrazil.com.br 7.3 User Maintenance This instrument is designed to be low maintenance and rugged. However, field calibrations are recommended prior to use or when the ambient operating temperature of the instrument changes more than +/-20 degrees Fahrenheit. See section 2.18 for further information on field calibrations. Additionally, it may be necessary to change the user accessible filters and o-rings from time to time. There are two user accessible filters, the particulate filter is located in the back of the instrument, see section 1.1 for location, and the water trap filter which is part of the included hose kit. There are four user changeable o-rings, one on the particulate filter cover, one on the outside of the water trap filter housing, one on the inside of the water trap filter housing, and one on the ends of each male quick connect fitting included on the hose kits. Note: The a-rings on the male quick connect fittings should be routinely checked as dust and dirt from the various wells they connect to can be abrasive. A damaged or leaky o-ring may allow air intrusion into your gas sample. This intrusion of air may not be noticed when calibrating the instrument because the calibration does not occur under vacuum. Page 61 REV C2 (English) LANDTEC Release Date: November 301". 2010 GEM2xxx Operation Manual Technical Specifications 7.4 Physical Weight Size Case material Keys Display Filters 7.5 General Certifications Temperature measurement Temperature accuracy Visual and audible alarm Communications Relative pressure 7.6 Power supply Battery type Battery life Battery charger Charge time Alternative power Battery lifetime 7. 7 Gas Ranges Detection principle Oxygen cell lifetime Page 62 4.4 lbs. L 2.48" x W 7.48" x D 9.92". Anti-static ABS. Membrane panel. Liquid Crystal Display 40 x 16 characters. Fiber optic woven backlight for low light conditions. User replaceable integral fiber filter at inlet port and external PTFE water trap filter. UL Certified to Class 1, Zone 1, AEx lb d Ila T1 With optional probe 14°F to 167°F. ±0.4°F (± probe accuracy). User selectable CO2, CH4 and 02 Min/Max levels via LSGAM CS software. RS232 protocol via download lead with variable baud rate. ±250 mbar from calibration pressure Rechargeable Nickel Metal Hydride battery pack containing six 4AH cells. Not user replaceable. Lithium Manganese battery for data retention. Typical use 10 hours from fully charqed condition. Separate intelligent 2A battery charger powered from AC voltaqe supply (110-230V). Approximately 2 hours from complete discharge. Can be powered externally for fixed-in-place applications only. Contact LANDTEC for further information. Up to 1,000 charge/discharqe cycles. CO2 and CH4 by dual wavelength infrared cell with reference channel. 02 (and CO & H2S in Plus) by internal electrochemical cell. The gas sample is not dried or adjusted for Gas Humidity and therefore is on a wet basis. Approximately 18 months in air. REV C2 (English) LANDTEC Release Date: November 30th• 2010 GEM2xxx Operation Manual Typical Accuracy Gas 0-5%5-15%15%-FS 0 -Full Scale volume volume CH4 ±0.3% ±1% ±3% CO2 ±0.3% ±1% ±3% 02 ±1% ±1% ±1% H2S in Plus Instruments ±10%FS from 0-Full Scale co in Plus Instruments ±10% of reading or 15ppm whichever is qreater Response time, T90 CH4 �20 seconds CO2 �20 seconds 02 �20 seconds Range CH4 0-100% reading.CO2 0-100% reading. 02 0-25% CO (in Plus Instruments) 0-2000ppm H2S (in Plus Instruments) 0-500ppm 7.8 Pump Typical flow 300 cc/min. Flow fail point Adjustable, approximately 50 -250 cc/min. Flow with 200 mbar vacuum 250 cc/min aooroximatelv. Vacuum 100 inches H20. 7.9 Operating Conditions Operating temp range 32°F to 104°F. Relative humidity 0-95% non-condensing. Atmospheric pressure range 700-1200 mbar. Displayed in Inches of Mercury (5.9 -35.4"Hg). Not corrected for sea level. Atmospheric pressure accuracy +5 mbar aooroximately. Case seal IP65. 7. 10 Optional Gas Pods Typical Accuracy Gas 0-Full Scale(Subject to User calibration). co ±10% FS H2S ±10% FS SO2 ±10% FS H2 ±10% FS HCN ±10% FS Response time, T90 co �60 seconds H2S �60 seconds SO2 �60 seconds H2 �60 seconds HCN �60 seconds Page 63 REV C2 (English) LANDTEC Release Date: November 30th, 2010 GEM2xxx Operation Manual Range 0-500ppm 0-50 or 0-200ppm 0-20 or 0-1 OOppm 0-1000ppm0-100ppm 7.11 Regulatory Compliance Labels and Statements The device has the following safety and non-hazardous parameters: Terminal Nos Ui Ii Connector A: 6V Connector B or 14 V 11 V 100 mA 2.25 A Underwriters Laboratories Inc. (UL) has not tested the performance or reliability of the Global Positioning System (GPS) hardware, GPS operating software or other GPS-related aspects of this product. UL has only tested for the explosion, fire, shock and casualty hazards required by the applicable hazardous locations standards. UL certification does not cover the performance or reliability of the GPS hardware, GPS operating software or other GPS-related aspects of this product. UL MAKES NO REPRESENTATIONS, WARRANTIES OR CERTIFICATIONS WHATSOEVER REGARDING THE PERFORMANCE OR RELIABILITY OF ANY GPS RELATED FUNCTIONS OF THIS PRODUCT Page 64 REV C2 (English) LANDTEC Release Date: November 30th, 2010 APPENDIXB Rutherford County Landfill Facility 15 NC Division of Waste Management� Solid Waste Section Landfill Gas Monitoring Datn Form Notice: This form and any information attached to it are "Public Records" as defined in NC General StatULI! 132-J. As such, these documents are available for inspection and examination by any person upon request (NC General Statute 132·6). FacilityName: _____________________ Pe1mitNumber: ______________________ _ Date of Sampling: ________ _ NC Landfill Rule (.0500 or .1600): __________ __ Name and Position of Sample Colle�tor: _________________ _ Type and Serial Number of Gas Meter: _____________ _ Calibration Date or Gas Meter: ____ _ Date and Time of Field Calibration: --------- Type of Field Calibration Gas ( 15/15 or 35/50): _________________ Expiration Date of Field Calibration Gas Canister: _____ _ Pump Rate of Gas tvleter: _____ _ Ambient Air Temperature: _____ Barometric Pressure: ______ General Weather Conditions: ____ _ Instructions: Under "Location or LFG Well" identify the monitoring wells or describe the location for other tests (e.g., inside buildings). A drawing showing the location of test must be attached. Report methane readings in both% LEL and% methane by volume. A reading in percent methane by volume can be converted to% LEL as follows: % methane by volume =% LEL/20 :,: .. � ci ··n ,�r � <ttnple fob� Tim� Tim� :.. -c '·' -�u ID Pt ·;e Fump�d', I Initial St1bilizeJ. ' · ::·H 0 !...�L i:-.:.:�t J.;·: 0 .0:0 r: .:: i>vtel -----1------------; _________ .....,.. ___ ,___ _______________ ,___ _____ �-------------4 lf your facility has more gas moniluring locations than there is room on this form, please attach additional sheets listing the same information as contained on this form. Certification To the best ofmy knowledge, the inform:1tion reported und statements mttde on this dnta submittal and nttilchn1ents are true and correct. I am nw:U"e that there are significant penalties for making any false stat ment, representation, or certification inclnding the possibility of a fine and imprisonment. SIGNATURE TITLE 16 APPENDIXC Rutherford County Landfill Facility 16 vapour sampling ecoplug TM Vapour Sampling EcoPlug TM headspace vapour sampling made easy W e've modified the 2" and 4" EcoPlugs ™ to produce the Waterra Vapour Sampling Eco Plug TM .This specialized well plug uses a stainless steel valve which allows you to extract a sample of the trapped headspace vapours. Pressure tested to 20 PSI, these caps prevent the loss of well gasses to the atmosphere. The Sample PortAdapter allows you to extract the sample with out removing the cap from the well. The Sample Port Adapter can be attached to a peristaltic pump in order to draw out even more of the trapped headspace gasses. VAPOUR SAMPLING 2" ECOPLUG ™