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NCG510064_Regional Office Historical File Pre 2018
NCDENR North Carolina Department of Environment and Natural Resources Division of Water Quality Michael F. Easley, Governor William G. Ross, Jr., Secretary Alan W. Klimek, P.E., Director April 12, 2006 Mr. James Wellons Shield Engineering, Inc. 4301 Taggart Creek Road Charlotte, N.C. 28210 IV D R 7 r7, ENVIRONMENT RESOURCES VAAL OFFla Subject: Rescission of NCG510064 Piney Woods Quick Stop Iredell County Dear Mr. Wellons: Division staff has confirmed that the subject Certificate of Coverage [issued under NPDES General Permit NCG510000] is no longer required. Therefore, in accordance with your request [made on behalf of Tull Transport Company], CoC NCG510064 is rescinded, effective imnaediately. If in the future your company wishes to discharge wastewater to the States surface waters, you must first apply for and receive a new NPDES permit. Discharge of wastewater without a valid NPDES permit will subject the responsible party to a civil penalty of up to $25,000 per day. If you have questions about this matter, please contact Charles Weaver of my staff at the telephone number or address listed below. Sincerely, Alan W. Klimek cc: Central Files Mooresville Regional office Mike Parker NPDES Permit file Fran McPherson, DWQ Budget Office 1617 Mall Service Center, Raleigh, North Carolina 27699-1617 512 North Salisbury Street, Raleigh, North Carolina 27604 Internet: h2o,enr,state.nc.us Phone: 919-733-5083, extension 511 / FAX 919 733-0719 charles.weaver@ncmai net One NorthCarolina Nati/tray An Equal Opportunity/Affirmative Action Employer — 50% Recycled/10°k Post Consumer Paper SOC PRIORITY PROJECT: Yes No X If Yes, SOC No. To: Permits and Engineering Unit Water Quality Section Attention: Charles Alvares Date: July 9, 1993 NPDES STAFF REPORT AND RECOMMENDATION County: Iredell Permit No. NCG510064 PART I - GENERAL INFORMATION 1. Facility and. Address: Groundwater Remediation Facility at Phil's Food Tull Transport Company d/b/a Johnston Fuel Company Post Office Box 327 Troutman, North Carolina 28166 2. Date of Investigation: 07-08-93 3. Report Prepared By: G. T. Chen 4. Persons Contacted and Telephone Number: Mr. Michael Shaw, Project Engineer, SPATCO Environmental; (704) 596-8624 5. Directions to Site: The site is located in the northwest quadrant of the junction of SR °1581 (Damascus Church Road) and Highway 115 approximately 10 miles north of the City Limits of Statesville, Iredell County. 6. Discharge Poi°nt(s). List for all discharge points: Latitude: 35° 56' 15" Longitude: 80° 58' 00" Attach a U.S.G.S. map extract and indicate treatment facility site and discharge point on map. USGS Quad No.: D 15 NW USGS Name: Central, NC 7. Site size and expansion are consistent with application? Yes_ No If No, explain: N/A Topography (relationship to flood plain included): The site area was graded and paved with 1 to 2% slopes. The site is not in a flood plain. 9. Location of nearest dwelling: One dwelling within 500 feet of the site. 10. Receiving stream or affected surface waters: UT to Little Rocky Creek a. Classification: C b. River Basin and Subbasin No.: Yadkin and 03-07-06 c. Describe receiving stream features and pertinent downstream uses: The receiving stream is a roadside drainage ditch which may enter the headwaters area of an unnamed tributary to Little Rocky Creek. No known downstream users. PART II DESCRIPTION OF DISCHARGE AND TREATMENT WORKS a. Volume of wastewater to be permitted: 0.0018 MGD (Ultimate Design Capacity) b. What is the current permitted capacity of the wastewater treatment facility? N/A c. Actual treatment capacity of the current facility (current design capacity)? 0,0018 MGD d. Date(s) and construction activities allowed by previous Authorizations to Construct issued in the previous two years: N/A e. Please provide a description of existing or substantial y constructed wastewater treatment facilities: N/A Please provide a description of proposed wastewater treatment facilities: The proposed groundwater remedi tion facility will consist of a series of recovery wells with submersible pumps, a Quantek VPS-1 oil/water separator, a Carbonair STAT 30 aeration type air stripper, a Strainrite UF1-90 bag filter, and two (2) Calgon Flowsorb, 165-pound Granular Activated Carbon Reactors (GACR) in series. g. Possible toxic impacts to surface ers: N/A h. Pretreatment Program (POTWs only): N/A in development: should be required: NPDES Permit Staff Report Version 10/92 Page 2 approved: not needed: Residuals handling and utilization/disposal scheme: a. If residuals are being land applied, please specify DEM Permit No.: Residuals Contractor: Telephone No.: b. Residuals stabilization: PSRP: RFRP: Other: c. Landfill: d. Other disposal/utilization scheme (specify): Solids, if any, from the bag filters and that from the oil/water separator will be containerized and shipped to a brick yard for disposal. Treatment plant classification (attach completed rating sheet): Proposed facility, no rating given. 4. SIC Code(s): 5172 Wastewater Code(s) cf actual wastewater, not particular facilities, i.e., non -contact cooling water discharge from a metal plating company would be 14, not 56. Primary: Treated groundwater Secondary: Main Treatment Unit Code: 00000 PART III - OTHER PERTINENT INFQR:NATION Is this facility being constructed with Construction Grant. Funds or are any public monies involved (municipals only)? N/A Special monitoring or limitations (including toxicity) requests: N/A Important SOC, JOC or Compliance Schedule dates: (please indicate) N/A Submission of Plans and Specifications Begin Construction Complete Construction NPDES Permit Staff Report Version 1©/92 Page 3 Date 4. Alternative Analysis Evaluation: Has the facil; all of the non -discharge options available. Pa regional perspective for each option evaluated.. Spray Irrigation: Connection to Regional. Sewer System: Subsurface: Other Disposal Options: Other Special. Items: N/A PART IV - EVALUATION AND RECOMMENDATIONS y evaluated ase provide N/A Tull Transport Company (d/b/a Johnston Fuel Company) requests an NPDES General Permit for the discharge of treated groundwater generated from a groundwater remediation facility. The groundwater at the Phil's Food Store is contaminated by petroleum hydrocarbons from leaking underground storage tanks. An engineering report prepared by SPATCO Environmental for the subject project was submitted with the application to the Division of Environmental Management. The Report details the treatment facilities, and methods of treatment and disposal. On -site investigation revealed that the proposed discharge will enter a roadside drainage ditch. Since there is no access to surface waters near the groundwater recovery site, it is recommended that the subject request be approved and a General Permit be issued to the applicant as requested. Signature of Report Preparer Date NPDES Version .l0 92 Page 4 4 755 / NE IODENITE! T APPLICATION STATUS Tc c�ct Name: Puma t No.: , 14R0 No.. Date Applicati*- Received: Completeness t f Applic, Lion. Package: Yes Date of Invest .ati©n: Date SR Submitted for Review: ID1ate Person Rgst. Contacted Other: Information Reques Te hc+ne No Inc.Date Rqs Recvd . State of North Carolina Department of Environment, Health and Natural Resources Division of Environmental Management James B. Hunt, Jr., Governor Jonathan B. Howes, Secretary A. Preston Howard, Jr., P.E., Director Ms. Mildred Berryhill Tull Transport Company PO Box 327 Troutman, NC 28166 June 25, 1993 CL D"L'ir 1lViC"r,„ PLIMMUN tvislyn, Subject: NPDES Genekrmit'Apphcation Application Number NCG510064 Tull Transport Company Iredell County Dear Ms. Berryhill: This is to acknowledge receipt of the following documents on June 4, 1993: Completed Notice of Intent (Application Form), Engineering Proposal (for proposed control facilities), Request for permit renewal, Application processing fee of $400.00, Engineering Economics Alternatives Analysis, Engineering Plans and Specifications Local Government Signoff, Source Reduction and Recycling, Interbasin Transfer, Other The items checked below are needed before review can begin: Completed Notice of Intent (Application Form), Engineering proposal (see attachment), Application Processing Fee of $, Delegation of Authority (see attached), Biocide Sheet (see attached), Engineering Economics Alternatives Analysis, Engineering Plans and Specifications Local Government Signoff, Source Reduction and Recycling, Interbasin Transfer, Other If the application is not made complete within thirty (30) days, it will be returned to you and may be resubmitted when complete. P,O. Box 29535, Raleigh, North Carolina 27626-0535 Telephone 919-733-5063 FAX 919-733-9919 An Equal Opportunity Affirmative Action Employer 50% recycled/ 10°4 post -consumer paper I his appl wvdew. ot. e.ss for t aeon. assigned to Charles t lvratrez l 3 ( k f a tar era litS i tit advised of any e mments, recoup rctenaattans, iue st.ans or other infra iew of the application. I am, by copy of this letter, requesting that our Regional Office Supennsar p and recommendations regarding this discharge. If you have any questions res application, please contact the review person listed above. Cotten S rid P.E, vine Region al` Oftc Pe 't Application Statue of North Carolina , Department of Environment, Health and Natural Resources Division of Environmental Management 512 North Salisbury Street • Raleigh, North Carolina 27611 James G. Martin, Governor William W. Cobey, Jr., Secre NOTICE OF INTENT A. Preston Howard, Jr., PE. Acting Director National Pollutant Discharge Elimination System Application for Coverage under General Permit NCG510000; Groundwater remediation projects designed to treat petroleum contaminated groundwater. 1. Name, Address , location, and telephone number of facility requesting Permit. Tull Transport Company P.O. Box 327 A. Official Name: B. Mailing Address: (1)Street Address; (2)City; (3)State; (4)Zip; (5)County; C. Location. (Attach map delineating general l facility ac l tya anonscus Church Road (1)Street Address; (2)City; (3)State; (4)County; D. Telephone Number; 2. Facility Contact: A. Name; B. Title; C. Company Name; D. Phone Number; Statesville North Carolina fredel1 C. DEPT, OF N.4TtriA.', RFSaLrRcy.; PbMMUZVITY I)Evb.. ( 704 876 _ 4512 Michael Shaw Project Manager SPATCO Environmental ( 704 ) 596 - 8624 JUN 2 8 1993 Sill OF ERit E"itilEhT"s iLLL Application type (check appropriate selection): A. New or Proposed; X B. Existing; If previously permitleti, provide permit number and issue date C. Modification; Describe the nature of the modification): Description of discharge A, Please state the number of separate disc points. 1,[1 ; 2,1 l ; 3,[ l ; 4,[) ; Page 1 B. Please describe the amount of wastewater being discharged per each separate discharge point: 1: 1800gallons per day (gpc1) 2: (gpd) 3: (gpd) 4; (gpd) C. Check the duration and frequency of the discharge, per each separate discharge point: 1. Continuous X 2. Intermitimt (pleaw descae): 3. Seasonal (check month(s) the discharge ): January (xi; February N; March id; April [1, May [1;June id; July bi; August bl;Septerriber ;,];Octobeiroa: November kl; December 4. How many days per week is there a discharge?(check the days the discharge occurs) Monday 11, Tuesday 11, Wednesday id, Thursday H,Friday k 1, Saturday kl, Sunday [xl. 5. How much of the volume discharged is treated? (state in percent) 100 % D. Describe the type of wastewater being discharged per separate discharge point. Specify what is being removed and products recovered. This includes a listing of any chemicals found in detectable amounts with the maximum observed concentration reported. The summary of analytical results containing this maximum value should also be submitted (Le. the listing, not the graphical scan). The most recent sample must be no older than one year previous to the date of this application. The following volatile organic compounds should be included along with any suspected fuel additive; 1. Benzene'; 2, Toluene*; 3, Ethylbenzene*; 4. Xylene*; 5. Lead; 6. Methyl tert-butylether (1v1 E); 7. Dibromoethane (EDB); 8. 1,2-dichloroethane; 9. Isopropyl ether; 10. Naphthalene; 11. Phenol; *(An EPA approved method capable of detection levels to 1 ppb should be used to detect these compounds). E. Please check the appropriate type of treatment being used to treat the groundwater; 1. Oil/Water Separator; X 2, Air Stripper; X 3. Diffused Aeration; 4, Activated Carbon Absorption; X 5. Other(spedfy);_ 6 SeparateJy, please describe in detail(size, volumeicapacity, design flow through treatment, etc.) each type of treatment that was checked in 1 through 5. Include, if any, the manufacturer's information on each type of treatment. Also provide the removal efficiency of each compound detected for the project, if known. Give design specifics (i,e, design volume of each unit, materials used in air stripper, etc.). Existing treatment facilities should be described in detail and design criteria or operational data should be provided(including calculations) to ensure that the facility can comply with requirements of the General Permit. Please include model and calculations used in determining the design requirements for the air stripper. 7. What are the well sizes and how many exist. 8. Please state the pump sizes and their location in relation to the treatment used in part 2.E. 9. Please explain what fail-safe measures, such as audible and visual alarms or automatic shutoff systems, are provided to ensure no system failures. 10. is there an access to the effluent for sampling?( either an open pipe or a valve to obtain a sample) Page 2 4 NOTE: Construction of any wastewaterwas1eater tcatrncnt facilities require submission of three (3) sets of plans and specifications along with their application. Design of treatment facilities must comply with requirement 15A NCAC 214 .0138. If construction applies to the discharge., include the three sets of plans and specifications with the application.. 5. What is the nature of the business applying for this perrnit. 6. Name of receiving water or waters; Little Rocky Creek Classification: (Attach a USGS topographical map with all discharge point(s) clearly marked) 7. Is the discharge dire-ctly to the receiving water?(Y,N) N If -no, state specifically the discharge point. Mark clearly the pathway to the potential receiving waters on the site map. (This includes tracing the pathway of the storm sewer to its discharge point, if a stormsewer is the only viable means of discharge.) 8. Please address possible non -discharge alternatives for the following options: A. Connection to a Regional Sewer Collection System; B. Subsurface Disposal; C. Spray Irrigation.; 9. I certify that I am familiar with the information contained in the application and that to the best of my knowledge and belief such information is true, complete, and accurate. Piinted Name of Person Signing'_ . \\ Titl\7<c' '1/4 4 e Date Application Signed_ , Sipa ture of A pplialnt N1QnIll_CAG E Nt1lL&IAULI E 111.721.1.6_111.ilinE2YID-E5_11.1./iL Any person who knowingly makes any false statement, representation, or certification in any application, record, report, plan or other document filed or required to be maintained under Article 21 or regulations of the Environmental Management Conunission implementing that Article., or who falsifies, tampers with or knowingly renders inaccurate any re -cording or monitoring device or method required to be operated or maintained under Article 21 or regulations of the Environmental Management Commission implementing that Article, shall be guilty of a misdemeanor punishable by a fine not to exceed $10,000, or by imprisonment not to exceed six months, or by both. (18 U.S.C. Section 1001 provides a punishment by a fine of not more than $10,D00 or imprisonment not more than 5 years,or both, for a similar offense.) Notice of Intent must be. accompanied by a check or money order for W0.00 made payable to the North Carolina 'Department of Environment, Health, and Natural Resources. Mali threc (3) copies of entire. package to: Division of Environmental Management NPDES Permits. Group Post Office Box 29535 .North Carolina 27626-053.5 Page .3 NATIONAL POLLUTANT DISCHARGE ELIMINATION SYSTEM APPLICATIONS ENGINEERING REPORT SITE: Phil's Food Highway 115 Iredell County, North Carolina PREPARED FOR: Ms. Mildred Berryhill Tull Transport Company d/b/a Johnston Fuel Company P.O. Box 327 Troutman, North Carolina 28166 PREPARE BY: SPATCO Environmental 5100 North I-85, Suite 6 Charlotte, North Carolina 28206 February 11, 1993 ss Senior Hydrogeologist NC Professional Geoloist # 1160 Donn McGinnis, P.E. Senior Engineer NC Professional Engineer # 1 72 DESCRIPTION OF FLOW The proposed effluent is from a ground -water recovery and treatment facility. Ground water in the area of Phil's Food Store has been impacted by petroleum hydrocarbons from leaking underground storage tanks (USTs). Levels detected are above NCAC T15A:02L regulatory limits for benzene, ethylbenzene, xylene, and naphthalene. The anticipated flow rate from the on -site treatment works is approximately 1.25 gpm (0.0018 MGD). WASTE DISPOSAL OPTIONS Sanitary-POTW Option: The site is located in a rural area of Iredell County, North Carolina. There is no sanitary POTW available at the site. The nearest POTW is located in Statesville, North Carolina, 10 miles south of the site. Ground -Water Injection: Ground -water injection into water bearing formation is impractical due to the low hydraulic conductivity of the site. Injection of wastewater upgradient of the site reduces the capture zones of the recovery wells to a point where ground water pumping is not practical. Ground -Water Infiltr ration: Ground -water infiltration into surface soils is i.mpracticai due to the low hydraulic conductivity of the soils. During a double ring infiltration test (ASTM D 3385-75), an infiltration rate of 0.02 feet/hour was measured; however, no infiltration was observed at the end of the test. Thus surface discharge of wastewater is the only practical alternative. Wastewater Discharge Point: The point of discharge will be into the intermittent creek located east of the site. Figure 1 is a site plan showing the location of the site, treatment works, and discharge point. Figure 2 is a topographic map showing the location of the discharge and the topographic, cultural features, and location of the site. The intermittent creek is a tributary of Little Rocky Creek and is classified as a class WS-III surface water. Little Rocky Creek flows east to Patterson Creek. TREATMENT WORKS Pumping System: Total fluids will be pumped from the recovery wells with submersible pumps. A pneumatic pump system will be used to recover total fluids from the four (4) recovery wells. The recovery rate for the wells is estimated to be 1.25 gpm total. Recovered fluids will be pumped to a treatment facility to remove petroleum constituents and then discharged. 2 Oil/Water Separation: SPATCO Environmental will install a Quantek VPS-1 oil/water separator. The Quantek VPS-1 is designed with vertical and horizontal coalescing plates and removes ail globules as small as 20 µm. Accumulated phase -separated hydrocarbons will be transferred to the existing holding tank. In addition, the coalescing plates also capture and settle suspended solids. Dissolved Hydrocarbon Removal: Dissolved volatile hydrocarbon compounds will be removed from the recovered ground water using a Carbonair STAT 30 aeration type air stripper. The STAT 30 is a counter current sieve -type air stripper with three aeration sieves. Predicted effluent concentrations are noted in Table I. Table I. Predicted Removal Efficiencies nfluent frog Separator in ppb Predicted Effluent from Stripper in ppb NPDES Permitted Discharge in ppb Benzene 2 <_ 71 71.4 Toluene 840 Ethylbenzene 680 2 325 Total Xylene 3781 monitor & repo MTBE 75.5 moni epo Naphthaiene 1273 ppb = parts per bi ion. onitor & report After stripping, the effluent will be pumped through a 50 µm Strainrite UF1-90 bag filter. The combination of air stripping, which will induce metallic oxide precipitation, and a filter screen will lower any dissolved metal concentrations in the waste stream.. solids from the bag filters will be periodically collected and containerized with solids from the separator for disposal. Following bag filtration, treated water will be pumped through two Calgon Flowsorb, 165-pound Granular Activated Carbon Reactors (GACR). As a final polish to remove soluble hydrocarbons, the two GACR drums will be used in series. This will allow for maximum loading of organic compounds on the leading GACR while minimizing the breakthrough with the trailing GACR. Figure 3 is a schematic diagram showing the treatment facility. Air Discharge Treatment Engineering: The site is located in an area where vapor treatment is not anticipated. If however, after conducting pilot tests the following methods will be used. Exhaust air fro the stripper will be vented to the atmosphere. Should exhaust vapor treatment be required, the air will be routed through a GACR designed for recovering volatile organic compounds from a gaseous waste stream. Prior to the GACR, the air will be heated to reduce the relative humidity, promote GACR efficiency, and prolong carbon life. Extracted vapors from the soil venting system will be routed to a discharge stack located at the remediation compound. Required treatment of extracted vapors is not expected. 4 System Operation and Control.: SPATCO Environmental will monitor the operation of the system using a computer interface and remote telemetry. The telemetry system will allow for the status of the system to be called up via telephone link. In addition, the computer can alert the control center of any problems that have occurred within the system. System Safety Features: The system will employ high level cut off switches in each of the tanks. If a tank, separator, aerator, or holding tank is full or fails to drain, the whole system will be shut down. SPATCO Environmental strongly recommends the proposed system be completed with shut down systems located at the pumps. If the stripper pumps should fail, the recovery pumps will be shut down to prevent gravity over flow of recovered ground water. Similarly, if the recovery pumps or compressors fail, the stripper will be automatically shut down to conserve energy. Operating status of the pumps will be connected to the telemetry system for monitoring purposes. A schematic diagram showing the proposed system, sampling points, selected equipment, and emergency cut off sensors is shown in Figure 3. Freeze Protection: The proposed system includes a fully enclosed shed to prevent lines and equipment from freezing during extremely cold periods. Tanks located outside the shed will be fitted with immersion heaters to keep from freezing. SYSTEM MONITORING The treatment system will be monitored by a trained system technician on a weekly basis. During the monitoring visit, the system will be adjusted to maintain treatment efficiency and compliance. Treatment effluent samples will be screened with a Photovac G.C. to ensure discharge quality and prevent carbon breakthrough. Influent and effluent samples will be collected and submitted for analyses on a monthly basis. Sample results will be recorded. and reported in a monthly discharge monitoring report (DMR). Financial Rasponsibiiity: SPATCO Environmental will install and operate the water treatment system. SPATCO Environmental maintains an insurance policy with Liberty Mutual. The policy includes a $1,000,000/ incident, $5,000,000 annual limit for Pollution Liability, and $1,000,000/incident coverage for Errors and ©missions. ANTICIPATED INFLUENT CONCENTRATIONS Well Benzene Toluene Ethyl- Xylenes Naphthalene MTBE Flow (PPb) (PPb) benzene (PPb) (PPb) (PPb) Rate (PPb) (gpm) RW-1 MW-1 RW-2 RW-3 Eciqi 646 646 1680 1680 50 ND 10 ND 499 1260 ppb: parts per billion 1360 7530 1360 7530 ND ND 100 1020.5 5672.5 2540 2540 ND 20 1910 117 117 51 51 113.25 0.5 0.25 0.2.5 0.25 EQ- 5 Benzene = 499 = 332 ug/1 1.5 Toluene = 1260 = 840 ug/1 1.5 Ethylbenzene = 1.020.5 = 680 ug/1 1.5 Xylene = 5672.5 = 3781 ug/1 1.5 Naphthalene = 19.0 = 1273 ug/1 1.5 MTBE = 113.25 = 75.5 ug/1 1.5 NOTE: Influent concentrations for wells RW-1 and MW-1 were estimated using data from: Kramer, William K. and. Hayes, Theodore J; Water Soluble Phase of Number 2 Fuel oil: Results of A Laboratory Mixing Experiment; New Jersey Geological Survey Technicial Memorandum 87-4; October 1987. Influent concentrations for RW-2 and RW-3 were estimated from data collected from MW-6 and MW-7, respectively. Foy CAPTURE ZONE,600 DAYS CAPTURE ZONE 300 DAYS O' 65' 1 30' SCALE WATER SUPPLY WELL LEGEND 0, MONITOR WELL PROPOSED RECOVERY WELL BENZENE ISOPLETH TRENCH TO INTERMITTENT CREEK • S PATC 0 'Venvironrnenta FIGURE 1: TREATMENT WORKS JOHNSTON OIL COMPANY STATESVILLE, NC WO #9-2982 DATE: 1 /27,/93 DWG }JONSTON8 DRAWN 8Y: JCJ USGS TOPOGRAPHIC MAP SCALE 1:24000 0 1000 0 1000 2000 0 CENTRAL QUADRANGLE 7000 FEET 1 KILOMETER CONTOUR INTERVAL 10 FEET OATUi4 IS MEAN SEA LEVEL 1 MILE SPATCO Venvirenment FIGURE 2: SITE LOCATION MAP JOHNSTON OIL COMPANY STATESVILLE, NC DATE: DRAW Y: JCJ SPATCDV SPATCO INSURANCE COVERAGE Type of Coverage Commercial General Liability General Aggregate Products - Completed Operations Personal - Advertising Each Occurrence Fire Damage Automobile Combined Single Liability Li Personal Injury Property State) Medical Payments Uninsured/Underinsured Motorists Comprehensive; Collision Hired & Non -Owned. Liability Garagekeepers Legal Liability Deductible Comprehensive Collision s required by 2,000,000 2,000,000 1,000,000 1,000,000 100,000 5,000 1,000,000 500 ded 1,000 ded included 100,000 250 500 mbrella Liability 5,000,000 Pollution Liability 1,000,000 5,000,000 Errors Omissi ns 2,000,000 Judiciary Liability,000,000 1,000,000 Worker's Compensation atutory Limi FROM TRANSFER PUMP 3 MODEL: 433 (6D460P 037) RATING: 2'547GPN AT 225PSI M PULSER: 1 CONTACTCLOSURE PER GALLON OIL/WATER SEPARATOR OWS 1 MFR. HYGROFLO MODEL: UPFRP RATING: 1-10 GPM OBE./WATER SEPARATOR ATE --.- - - TRANSFER FER PUMP TRANSFER PUMP TP1 MER, GORMAN--RUPP MODEL: 61 1/4A3-X,5 3P RATING. 0.5 HP, 23DV, 3PH, AOHZ, XP, 1,9A CAPACITY: 35 GPM AT 25FT TDH TP2 PRODUCT TRANSFER 'NEUMATIC TRANSFER PUMP PUMP ROUND WATER PUMP TP2 P20 - GP31 MFR; GORMAN-RUPP (FR: CLEAN ENVIRONMENT ENGINEERS MODEL: 61 1/4A3-X.5 3P IODEL: AP-4 RATING: 0,5 HP, 230V, 1�F?ACITY. 0,3 TO 7.,0 GPM 3PH, 50H2., XP, 1.9A .TING: '1.'2 CFM/GPM CAPACITY; 35 GPM AT 25FT TOR SHALLOW RECOVERY WELL (TYPICAL, 1 OF 4) SAMPLE PORT AIR DISCHARGE 6' AERATION BLOWER TRANSFER PUMP SHALLOW TRAY At:RATOR SAT 1 MFR: CARRONAIR MODEL: SAT 30 RATING: 99,995 VOC REMOVAL CAPACITY: 1,5 GPM TRANSFER' PUMP TP4 MFR° BURKS PUMPS MODEL 370F4-1 1/4 RATING: 3/4HP, 230Y, 3PH,. OOHZ XP, 2,6A CAPACITY: 75 GPM AT AOFT TOH FILTER FLTR 1 MFR: STRAINRITE MODEL: UF1-^90 SAMPLE PORT SAMPLE PORT SURGE TANK ST1 MFR: BENDEL MODEL'. XXXX CAPACITY: 270 GALLONS PRODUCT TANK PRODUCT TANK PT1 MFR: BENDEL MODEL: SK{D TANK CAPACITY: 550 GALLONS GAC1 LBS ACTIVATED CARBON UNIT GAC1 NUR: CALGON MODEL: FLOWSOR6 RATING: 1-10 GPM CAPACITY 165 LBS, CARBON SURGE TANK TRANSFER PUMP { MHO 1 J T3 TO TRAY TRANSFER PUMP AERATOR TP3 MFR: BURKS PUMP MODEL: 370F4•-1 3/4A1 RATING: 3/4 HP, 230V, 3PH, 60HZ XP, 2.6A CAPACITY: 75 CPM AT 401-T' TDH SAMPLE PORT MHO TOOL MHO 1 MFR: MHO MODEL: 2" CRATING: 30-50 GPM FLOW METER & PULSER' MOO do FTC 100 MFR: HERSEY MODEL: 433 (604390P039) RATING: 3.95GPM At 225PSI MAX. PULSER: 1 CONTACT CLOSURE PER 16 GALLONS DISCHARGE TO SURFACE WATER FIGURE 3: GROUND WATER REMEDIATION SYSTEM PROCESS FLOW DIAGRAM JOHNSTON OIL COMPANY STATESVILLE, NC W g9-:982 DATE: i /26/9: DWG } E3AUCSYS5 DRAWN BY: JCJ 4 AC1-AIR COMPRESSOR CACI--CARBON VESSEL GAC2-CARBON VESSEL HB1-AIR DRYER OWS-OIL/WATER SEPARATOR PT I -PRODUCT HOLDING TANK TPI-INFLUENT TRANSFER PUMP TP2-EFFLUENT PUMP WCB1 -WELL PUMP CONTROL WCB2-WELL PUMP CONTROL PRODUCT LINE ELECTRICAL LINE WATER LINE AIR LINE SP AT C O environmental GROUNDWATER REMEDIATION SYSTEM OVERHEAD VIEW PHIL'S FOOD MART STATESVILLE, NORTH CAROLINA WO# DATE: 5-18-93 DRAWN BY: DB COMPRESSOR MT'RI CHAMPION HIII'DEL VRS-12 CAPACITY, 19,1 CFM 0 1E5 PS1 I rrhlt;E, S!2211ER F1, 1R1 Ml" R, BANJO MODEL, LST-125-80 B© MCSHI 150 PS/ OIL/WATER SEPARATOR 07L/'MAZER SEPARATOR 0M51 MFFT, NO141FE.AS7 FQB0L, BP-4 RATING, 35 GPM PNELRfiATlC 0.R 1NBMAGER PI MERn 4f»E:AN ENV /2* AP-4 B APACIT Y, 0 -10 GPM RECOVERY WELL (TYPICAL„ 1 of 4) INLIHE STRAINER FLTR2 MFR1 BANJO MODEL! LST.-125'410 00 MESH, 1.50 PSI TRANSFER P1J�MgP-"'� FLOW' TPI CONTROL MFR+ BURNS VALVE MODEL, GHA 5 1-If4 RATING, 0,25HP. 230f3/0 NP, 1.0A C APAC I Y, 111 GPM / 201 TtN F1.0WME I E.R L POE SE F 11101 MFR, HE R SEY NOVEL, 433 PGiY4002039) RATING L^00 00T*M B 205P51 MAIL PLILSERt 0 PULSL PER GALLON IF M 101 TRAY' AERATOR dTHEAST 48.`'di:, VIA REMT1'V T, 1-15 CB'M 11 / BLGIWER AER PUMP TRANSFER P'd3ME" CE' ifRCR" TP2 'MfALYV'il 11FR, BURNS M4OGE4' Coda 5 1-I/4 FILTER RATINGI 0-2511P, 230/ /Ta0 AT", 1.0A FLTR3 CAPACITY. 10 GP'M B 3043T Tit2 W2' STRAIWRITE MODEL, UFA-'90 PRESSURE SW I CH P51-PS3 MFG, HERCOIB MDBEL, OA-7031-153 CAPACITY, L/0-20 P; ACTIVATED CAR;23F4 I2N11S GACO L GAC2 MN, CARBTREIL n03EL. LI RATING = 10 GPM CAPACITY, efliI LBS CARBON SPATCOI.,� 33E04 Marl, I^BS, 4.,4e 7 CYwPI.34, NC, 70706-137L UNUWATER REMEDIATION SYSTEM PROCESS FLOW DIAGRAM JOHNSTON OIL COMPANY STATESVILLE, NC WATER SUPPLY WELL E MW-12 4 MW-2-N \ / RECbVER( / COMPOUND\ MYI -1 ,404 W- 65' SCALE DISCHARGE POINT 5 WATER SUPPLY WELL C LEGEND MONITOR WELL PROPOSED RECOVERY WELL BENZENE ISOPLETH SPA CO /environmental FIGURE 1: TREATMENT WORKS JOHNSTON OIL COMPANY STATESVILLE., NC WO #9-2982 1-DATE; 5 DWG #JONSTON8 DRAWN 25 93 Y: JCJ haiioW[ w profile air stripper. System Performance Estimate Client and Proposal information: Phil's Food - lredell Co., NC Untreated Model 1311 Contaminant Influent Effluent ppb ppb `air(lbsfhr) % removal Benzene 332 5 * <.001 98.6052%© Ethyl Benzene 680 8 • <.001 98.8485% MTBE 76 5 * <.001 93.9086% Naphthalene 1273 88 * <.001 93.1037% p-Xylene 3781 40 * 0.002 98,9427% Toluene 840 15 * <.001 98.2469% Model 1321' Effluent ppb ''air(1bs/hr) % removal 0.052 * <.001 99,9844%© 0.072 • <.001 99.9894% 0.224 * <.001 99.7032% 5 • <.001 99.6195% 1.000 * 0.002 99.9911% 0,207 • <.001 99.9754% Model Chosen: Water Flow Rate: Air Flow Rate: Water Temp: Air Temp: A/W Ratio: Safety Factor. Model 1331 Effluent ppb *air(Ibs/hr % removal 0.001 * <.001 99.9998% 0.001 * <.001 99.9999% 0.011 • <.001 99.9855%e 1.000 • <.001 99.9790% 0.003 • 0.002 99.9999% 0.003 * <.001 99.9997% 1300 1.2 gpm 150 cfm 55.0 F 55.0 F 897.6 cu. IV cu, ft 25% Model 1341 Effluent ppb *air(IbsIhr) % removal 0.000 • <.001 100.0000% 0.000 * <.001 100.0000% 0.001 * <.001 99,9993%© 0.015 * <.001 99.9988% 0.000 * 0.002 100.0000%m 0.000 • <.001 100.0000% This rat has been generated by Shall©wTray Modeler software version 1.0.1. This software is designed to asalat a alrllied op ato in pre p the peaforrnance of a ShallowTray air stripping system, The software will accurately predict the systetrr performance when both the equipment and the software are operated according to the written documentation and standard operation. North East Environmental Products, Inc. cannot be responsible for incidental or consequential damages resulting from the improper operation of either the software or the air stripping equipment. Report generated: 5/411993 Copyright 1992 North East Environmental Products, Inc. • 17 Technology Drive, West Lebanon, NH 03784 Voice: 603-298-7061 FAX: 603-298-7063 *Ail Rights Reserved. 200 Pound Activated Carbon L Water Purification Canister L-`I SPECIFICATIONS Drum ft 24" 0 x 36" high, mild steel, epoxy phenolic internal coating Carbon 200 lbs. Shipping Weight 250 lbs. Inlet 1'/4" FPT, steel Outlet 11/4" FPT, steel Internal Piping 11/4" PVC Bottom Drain 3/4" bung Pressure Drop 1.25 psi @ 1 ogpm Max. Operating .10 psi Pressure CARBTROL CORPORATION PRESSURE DROP - 1 The CARBTROL° L-1 (liquid) Canister handles up to 10 gprn. Features include: • 200 pounds of high activity virgin carbon. • Large 11/4" internal piping. Low pressure drop allows operation of three canisters in series • Standard FPT couplings for easy installation - saves time and money.. • Special "no leak" lid gasket. • Heavy duty steel drums, DOT 1.7C suitable for shipment of spent hazardous carbon. • Piping design eliminates channeling. 4 2 0 0 5 FLOW —GPM 10 1.0 C1.5 PRESSURE DROP 3 Riverside Avenue, Westport, T 06880. 1-800-242-1150 • (2i 3) 226-5642 a COPYRIGHT 1991 CARBTROL CORPORATION - 4191 CLEAN ENVIRONMENT ENGINEERS, INC. SOS AUTO PUMP CONTROLLERLESS PNEUMATIC PUMP NOTION: s standard AP-4 system removes water from wells at up to 10 gallons (38 liters) per lute. The large AP-6 version can remove water from wells at up to 20 gallons (76 rs) per minute. The AUTO Pump can be used without a control box to maintain Ig ltinuous pumping from a well and it will maintain a predetermined level in the well hout external sensors. The AUTO Pump can be used as either a Top -Loading Pump, take in floating oil and water, or as a Bottom -Loading Pump to take in and remove ter and/or heavier -than -water materials. The pump senses ush t when itd isofull llband dtir when it empty. It regulates or tot fill self again rized air by exhausting theto pressuriz d air. Y g ,ssurized a e Auto Pump will match the fluid influx into the well up to the pump's maximum flow e. It can turn "on and off" millions of times without damage to itself. Thus, it is very eful in low flow rate situations where the fluid in the wells is removed quickly and the mp must then lie dormant until the water level again rises. The pump can pass silt d sand up to 0.125" (3.2 rnm) diameter. The pump air valves will also be able pass water and oil (90 wt.) without fouling. le AUTO Pumps are available in a standard size of 3.5 inches (8.9 cm) diameter and a -ger size of 5.5 inches (14 cm) diameter. Each diameter size is also available as a iort version, for maximum well draw down, and a standard length for maximum flow te. ETHOD OF OPERATION: uid enters the cylindrical pump body through a check krna cAfter the efluid ristes to to ithin about 6" (15 cm) from the top of the pump, a p poppet low pressurized air to enter. The fluid in the pump is thus pushed out of the pump 'rough another check valve, As the fluid is pushed out of the pump by the air pressure nd the level nears the bottom of the cylindrical sted from the pthe unmp The poppet p mpp thenve is fills lifted back and the pressurized air gain and the cycle repeats as long as fluid is present. LOW RATE: AP-4: 0-10 gallons per minute (38 liters per minute) AP-6: 0-20 gallons per minute (76 liters per minute) ;IZE: AP-4: 3.5" (8.9 cm) diameter AP-6: 5.5" (14 cm) diameter Bottom Loader Top Lade[ 42" long (107 cm) 52" long (132 cm) 45" long (114 cm) 60" long (152 cm) NEIGHT: AP-4: 12 pounds (5.6 Kg) 14 pounds (6.4 Kg) AP-6: 35 pounds (16 Kg) 40 pounds (18 Kg) MATERIALS OF CONSTRUCTION: Stainless Steel, Brass, Delrin, Nylon, Viton and FRP (other materials available upon request) 311 lis er. by ►ts •ce g nd to. ;air 'lye uid. dirt me. ater ier- ,the no and ha and OS AUTO PUMP RMAQLAY.ATAQE Pill 2Of 2 • SOS AUTO Pumps are designed so all components are easily viewed and maintained. This results in less down time, less maintenance costs and less replacement part costs. Use of the AUTO Pumps results in significantly less air consumption, since the units consume air "on demand" only. Unlike systems which rely on timers, which pressurize and depressurize the air hoses for each pump stroke, the air hoses remain pressurized to the pumps at all times. Air compressor power consumption and thus operating costs are thus substantially reduced. • SOS AUTO Pumps are designed to survive very harsh well and fluid conditions. They can pump solvents (MEK, Butylacetate, Acetone, Toluene, etc.), fuels (gasoline, diesel, jet fuels, etc) and leachates with wide ranges of pH and dissolved contaminants. They have operated continuously in harsh winter conditions. They have also pumped boiling water and diesel fuel at steam - injection sites. SOS AUTO Pumps are designed to allow the fluids being pumped to pass up through the air valves without damage. This happens when air is turned off to the pumps, which is a common occurrence on remediation sites, Bleeder -dependent pumps often will not restart after such a shutdown. • SOS AUTO Pumps require only three hoses - air input, air exhaust and fluid discnarge. Usually only two of these hoses need exit the well - Air Input and Fluid Discharge. When compared to bleeder, bubbler, or timer -controlled pumps, this results in less initial costs and maintenance. • Only fluids enter the discharge hose. Since the AUTO Pumps are not timer dependent, air is not blown out of the fluid discharge. This is a common fault of timer -driven systems. This smooth, consistent operation keeps air use, emulsification, oxygen -driven deposits and the chance of electrostatic build- up, at a minimum. • SOS AUTO Pumps are lightweight and can be serviced easily by semi -skilled workers. Thus, they can be moved from well -to -well and site -to -site easily. SOS AUTO Pumps can be added to a system by teeing them to a continuous compressed air line. There is no need to mount additional controls, sensors, filters or regulators. • Since the controls are inside the pump and the pump is submerged in the well, there is far less chance for freezing weather to effect the pumps. • SOS AUTO Pumps typically use only high-grade, industrial, color coded hoses with no -mix, locking sleeve quick connect fittings. The end result is a user friendly system that can be snapped together by a novice. 3.50' MAX a FLUID INTAKE WITH SCREEN FLUID DISCHARGE AIR INLET — MINIMUM DEPTH NEEDED TO ACTIVATE PUMP NQTE1 ALL CONNECTIONS AVAILABLE WITH QUICK CONNECT FITTINGS, CLEAN ENVIRONMENT ENGINEERS, INC. EQUIPMENT FOR FUEL SPILL REMEDIATIDN AND GROUNDWATER CLEAN-UP 5835 DO'YLE STREET, SUITE 102 EMERYVILLE. CA 94608 mesas b # �24 (ROD) 537-1767 FAX tali► 6'i�a- MI93 NY RAMP STANDARD BOTTOM LOADING AP-4 AUTO PUMP SERIES DA Mercoid° Luzinj A Division at DWYER INSTRUMENTS Customers tell us that this is the best pres- sure switch made. Our most popular, Model DA combines extremely high sensitivity and repeatability with easily adjustable set and reset points through non -interactive external adjustments. Visible calibrated dial for set points and on/off indicator to indicate switch actuation are included. Choose either high current snap -switch or hermetically sealed contact mercury switch. FEATURES • Equipped with Iwo external adjustments. One sets high pressure operating point, the other sets reset point. Deadband, or the difference between set and reset points is adjustable over the lull scare. • Visible calibrated dial. • Visible operation, on/off indication. • SPOT snap -action or sealed mercury switches. • Minimum deadband obtainable at any point in range. • Pressure Ranges vacuum to 8000 psig. • U.L. and C.S.A. listed. p STAIN STEELµ; g; c Bourdon Tuhe Pressure Switches Visible setpoinl, adjustable tleadhand, pressure ranges In 8000 PSI, PHYSICAL DATA Max. temperature: 180T.. For higher temperature mt;dta applications, a remote connection or siphon (pigtail) should be used. Pressure connection: /" NPT (vz" an ranges 15S & 16S), Housing: pressed sleet with transparent cover. Wiring connections: 3 screw type. Wetted parts: same as Bourdon tube material. Weight: 4 lb. (std); 6lb. (wea rrool):6 lb. (exp-proof). Max. Press.: Max, adjustment operating range. Suggested Specification Pressure switch shall be Mercoid Series DA operated by a (brass) (type 316 stainless steel) (type 403 stainless steel) Bourdon tube actu- ating a (mercury switch) (snap -switch). Switch shall have deadband adjustable up to a max- imum of 100% of switch range. Switch shall have calibrated dial and two pointers indicat- ing set and reset points. Switch shall have vis- ible onioff indication. Set points shall be adjustable without removing switch cover or - shutting down process. ERCURYSWITCH—SPOT 120V., 2A @ 240V, AC1 OC.'. ; OA-31,153-2 A DA- A- OA-31. DA-31-1 7 8 � 8.1 2tiE i9 DA-41�153' a. 6 psi(a:'A-41 153x24E .fc 1p"sib »`' at4 t;OA-41 1639E ,t ,i DA-41-153-21E 7S t) 1,11 ' tT .: =jar;) tDA-41 15 -22E" . t7(?pig l,\A-41-153 0 rasitl "'l ' OA-41 15'3-13E .' 5 t&3 p ag 1 "* , z , SO psig 1 t ra h i?A- STAI N i S 60 ��O pstg ..... 750 lg r !a , DA-21 Options: Weather -resistant housing: add "W" after "DA" and change"31' to'"33°", e.c OAH-31.153-2. Additional features available on special order, including other electrical diaphragm seats and F.M. listing. For severe vibration, a special Delrin Bushed Moveme Dwyer Instwmenls, Inc.,°P©, Box'37'3/Michigan Ciry, Indiana 463577Phrtre 219 573-80001Fax 219 B72,9057 • U.K. ere (0734 SNAP ACTION S iinlmum. , Band ' Hg. Vac, 4psi 16 pt 16 psig ig 28 psig 52 psfg fps 500 psii H—SPOT 5A @ 120t2:4t# VAC del Number DA-7 OA- A A-7 DA-7031-153- A-7031-153- A-7031.153.9 ° OA-704'1-15326E OA-7041-153-24E OA-7041-153.e DA•7©41-153-21 E DA-7041.153-22E A 7041 153.11 E DA-704 E A-7021.153.15E A-7021-13-16S pAW 33-153-2. Explosion -proof housing: add"H" attngs and circuits, tower minimum differentials, spe t is available er "DA" e.g. I housings, Australia Pb 7 4 799 Broad, general usage .. LS-800 Series Rugged construction and exceptional flexibility for the large majority of liquid level sensing applications. Up to 120" long...one to six level stations with SPST or SPDT switches. Choice of mountings, floats, materials and wiring...wide range of standard options. Models' for use in water, oils, chemicals and corrosive Iiquids...in pressures to 750 psi. Five standard models... Types 1 though 5 available with up to 6 level stations per unit, in wiring groups 1,11, 1l1 or V. Units can be mounted with up to ± 30°inclination. See "Wiring Data" on page 18. Many LS-800 Series units are UL recognized; and are CSA listed, File No. 30200. General Specifications Pressure. Rating Operittn Temperature 2,3,4. Brass` 316 SS 50 psi . psi" 750 psi,.•. psi 0 °4.70°. 7 psi, Standard Model Types ... See "Actuation Levels Unit Spec Mountin atenat h Floats = P/N Float Stops•" Switches 'A'"NPT PLUG MOUNTING - STEM Mounted 'fro tanks 4.4 inside of &' 14569 psi, ,I psi Data" an page 18. h,NPTFOR CONDUIT 0A ,'DD% (TYPICAL( 1" 'NPT PLU MOUNTING Standard Frosts . . 1 Y' • (44 5mml l Yir' DIA (30 'Irnm) P/N 26032, Buna N Sp. gr, - 55 P/N 10558 Buns N Sp, gr. - 55 Other Wetted Material — Hysol P/N 14569, SS Sp. gr. - .65 For units 72" or less LO (overall lengthy N'PT FOR Ci»IOUIT DR J ROX (TYPICAL( 1" NPT PLUG. MOUNTING Plug -mounted from outside of tank. 24rr1m1 :`w;•)1i20 t30 26032 10558„�14 0 as Untts'— BeryIlihom"CopperaGrlp Rings, Units - S.S. ARMCO PH•157MdGri0'Rin •SPS1 20/100 VA SPDT, 20 VA.See Electrical Data P/N 15666, SS gr, -.62 For types or 4 units over 72" L0 (overall length) r. S'i' NPT FOR CONDUIT OR J-80x (TYPICAL( 3'-950+FLANG MOUNTING. FLOAT Flange -mounted from outside of tank, °950 Arbon Stl. 15 SS 16 Stainless Stes `120" (3048mm) 58. 145 i9.15S6 "Level switch units with 50 VA and/or 100 VA switches are not UL recognized. "LS-800 Series units requiring 316 SS float slops must be special ordered with 316 SS colaars instead of grip rin Note: Units aver 72" overall length are supplied only with collars. 14 SPECIAL APPLICATION Single Station Level Switches Slosh -guard shields s in your liquids. ch from floating debris Notes: 1', Sw'itch actuation point is approximately half the distance from end of stem to mounting, or at the halfway point of float travel fin liquid with specific gravity of 1, or as otherwise specified). Units are installed vertically with cable upward. 3. CAUT,9ON: Elastomer seals in the sensor and cable are subject to deterioration. and ,aging, and therefore need to be checked regularly. Life expectancy of the seals varies with application. S P% {8 P J v � 13 th) rr—� Small and lightweight, these switches are extremely stable in Sr rttG nonstatic, highly contarnin.ated liquids. Slosh shielding minimizes effects of turbulence and motion, and helps prevent interference by foreign material.. • Float is protected from debris by a tough 'Lucite shield. • Mounts at any level inside tank for Hi, Lo or intermediate liquid level indication in water and oils.. • Mounting brackets attach to wall, bracing, sounding tube or any other convenient surface. Detects levels as low as 1343" in liquids with specific gravities of 1w0, Specifications: Stem Material: 304 Stainless Steel Float Material: Bona-N Other Wetted Materials: Copper -Nickel, Beryl, Copper Operating Temperature: 0° to 140°F Pressure Rating: ISO psi max. Lead Wires: 1812 cable, t ft. L., Neoprene with waterproof ctfnnection 11IIIIEXPRESS SERVICE Switch Rating SPST, 20 VA, N. SPST, 20 VA, N.C. SPST, 50 VA, N.0, SPST, 50 VA, N°.C. ra o nixed„ F Catalog. Num A43765" A4376 A433S0 7 Rugged miniature switch, featuring a Lexan slosh -guard and stainless steel float, is ideal for turbulent liquids in shallow tanks. Specifications: Float, Retaining Clip and Stem Material 316 Stainless Steel Cover: 304 Stainless Steel Slosh Shield Material: Lexan Lead Wires: Polymeric jacket #22 AWG., 24" to 26" Extended Operating Temperature: 0°F. to 140°F, Pressure Rating: T00 psi Max. 6.14---4•-rge-50}57c0,r/ /vt, $er,z r¢ 6F,a mt r.e 1" Ta. wJ" 8 1 �¢ p 4 — 57- ? G 7 A.X. ?,7 —3873 r, STAINLESS STEEL (FLOAT .ASSEMBLY Switch Notes: 1Switch operatio 2. See electrical da This switch minimizes the effects of turbulent liquids with moving debris. It features rugged construction but is small and lightweight. The slosh -guard made of Lexan provides high impact resistance. The compact, stainless steel float stands up to harsh environments. • Mounts at any level inside a tank for high,, low or "intermediate level indication. • Specific gravity of float is .62, Elec Volts 0-50 120 240 foal Rating —Resistive Max. Current ---Amps N.O. or N.C., is selectable byy inv on Page A-1, DC Catalog Number n tilt unit ste A-12 ELECTRIC, UN1T:HEATE.S .1D ACCESSORIES Teriilinalog, lata Section 4eat Beduin Steaathad tuba wypa boating attrnPnfs withalurninum nns for faster heat dissipation. Widely spaced t prevent dirt crag. ging, Corrosion and shock resistant. 24V contactors on all models except 3 and 5 KW, 208 and 240V units, which have contactors with line voltage holding coils, Select proper duty controls below. Pull -through desn draws air across heating element for more uniform air distrstsution. firmed steet o-tone gray finish. as Haile, Air.. tiart."t t9 2028©240 Y» it 350 12 Ft ., 480 0 12 208 208/240 480 8 081 4O1 480. 208 2O8 240 24-14 21-12 e, 48-28 42-24 12 12 0 12 O t8 14 O 18 14 O 18 14 usl-raced lnadtis are field comvcrtible." (t)11 Ft 18F" „8 , 18 Automatic raaet ((Haar thermal cut-out shuts off power to ele- ment (f overheating occurs. Fan delay feature eliminates cold drafts; elements heat up before fan cuts in, fan continues to distribute heat after elements shut off. Quiet, dynamitelly balanced fans; totally enclosed, permanently lubricated fan motors, with automatic -reset thermal protection, and vibration isolators. Motors are same voltage, as heaters. (ndlyld'u"allyy adjustable louvers for directing air flow; choice of optional dlfi'1lsersfor heat concentration and coverage when units are used in vertical position; see listing below. Versatile units can be mounted vertically or horizontally in fac- tories, warehouses, garages, stores, shipping rooms, p©vier sta- tions, and airc'raft hangers, as primary, supplementary, spot or dual -system heating. Completely self-contained; easy to install. Rugged construction for long life; minimum maintenance. Mount on wall, calling or building support members. All units have recessed fasteners for suspension mounting using5f18-18 threaded rods (not supplied). Optional wall/ceiling mounting brackets listed below, further "simplify mounting, Meats UL, NEC and OSHA requirements: QMARK brand. 14eater controlled by thermostat, order from below. 37 21« fig 7 37 21°. I9• :7 26 49 2.3 19 2ti 49 21�1 19 20 52 20 338 ' 52 20 ; �35 52 d, wllhcut options 214+". 19 121'. 21 3 19 123l. 21�i'a 19 125Y. 13.t3t1 a 213.9St 25.0 93-00 213.98 25,0 2Cl.d}0 ' 296.11 25.0 05- 1 G-2E580 401.00..250.9it 25.0 05 21A1U 2E581 401.00 250.98 25.0 0541 2E582 564,00 321.85 29.0 tt.r ra ara411a4 :,.p U;�1,01J,arlh.:..• n,« gCdA4iik tt.i it fdnit'litilfAltSeyi zyntairfi3 `ttt U TI-15-8 U 11-15-2 Ult-154 583 `" 622.00 31i33,35 40.0 584' 821.00- 347,96 40,0 585;:: 709.00 403.24 40.0 2E58B 670.00 ' 374.00 `40.0 2E547 670.00 374.00 40.0 2E588 751,00 ; 416.95 40.0 07 1328.tit-:9Et.7 08 i12500 ,x,609,7 09..1213.470 73.2 Downbtow: Louver Diffusers permit flulit-in SPST Thernmstat for all heaters' �' model -Temp range: 4f)-65'F. Voltage: 24, straight line air flow. Rectangular cover- above except3 Si 5KW, 208-240V, 3-PH,' White-ttodgers brand (1E30-329), age- Can be- turned, in either direction. Temp range: 40-85-F. Voltage:. 12.0-240,•. No. 2E466, Shpg,vvf. 0.4 fibs. List°...$43.69. Q Mark brand (MLD-S. 'ML©-M) - QMark brand (MT-1). - t Each, , : , 13ownblow Radial Diffusers increase Iloor coverage» Adjustable fins, in . vertical mode, direct downward in tight pattern; at 45' angle; give up to 25% greater floor coverage, at ° relatively • lbw mounting heights. QMark brand (MRD-$, MRD-M). . Flt KW 7.5,510 144 2296 I HOLE ALE PRICE '---GRA/NGER '' No. 2E569. Shpg. wt. 0.6 lbs. L1st .4470.'00. Wall -Mount SPIT Thermostat for 5KW through 15KW, 208-240V, 3-Ph. models. Temp range:-30-110°F. Voltage: 120-240. 'Dayton bind. _ - No. 2E207- 5hpg. wt. 1.0 lbs. List .$135_08. Each,, .... .... ...............$67.54 Htell-Mount DPST Thermostat for SKW, 208-240V, 1-Ph. models, Tamp range: 40- 90'F, Voltage: 120-240. Payton brand. „ ? _$21.85 PDT He Recovary Thermostat. Controls fan only ttl move stratified warm air, Use In addition to built•in or wall -mount then mostats *hated above, Temp range: 30-, 410O`F. Voltage: 120.240,'Dayten brand:' Nit 1r206 Shpgw�. 1,0 lbs. List ..$.83.13. ..... . ...... . ... .$43.76 Mounting' Brickets "1o'r horizontal -,blow mennting(only), on wail or ceiling. Heater mount adjustable to allow control of air direction. QMark brand.,,.. it, Osas.. Slack . ., x• Olt, Na. List Etch w1t.` No. 2E660. Shpg. wt. 2-4 lbs. List ..$9500 1$85,00550.15 3.4...,1 Each:..... - „ • -$69,17 4 -d. n•t". 1t .lip 56. 5 S.t 94ail Mount SPST Then -most Uso .'t.' palark Stock With Ma4at " "No. t,.Ltst, .Etch Eta. 3, 6 KW '.... $ B i 6K665 t5000 532.74 41 7.5, 10 KW i M&-10 65561 MAX) 37.54 1.0 t5 KW (Hitt-2ti .65567 ' 74.00 40,53 5,5 • 3 it p • pi • 8 b • T • P rr • E • M 9 • m cl • 7 • H • 5. Q 111 cen talc Res surf floe or yid( inst erat and Par schl buil (E2; 331- 33: 33 33r 46a 46 46 46 t`)1 ('t i No 4E2 4E2 4E2 2E5 2E5 2E5 2E5 2E5 2E5 2E5 2E5 3E3 3E3 3E3 1008 Gauge Ashcrofl's new Indusbeel Duality Type 1008 stniniess sleet gauge is designed to perform well even in applications where vibration, pulsation and mechan- ical shock are constael factors. 9008 contain the' unique, spring sus- pended movement which adds to dura- bility and increased gauge life. The movement is suspended between the Bourdon tube and socket reducing the load on precision moving parts. This spring suspension helps the gauge resist mechanical ,,hock and vibration Sprung suspension provides tong life through. reduced gear wear, with long term sleblbty and greater reliability. The helical Etourden tube used: in ranges 1,000 psi and over has high pressure capatiti'ty with i'ow internal volume, and Is designed for high cycle life. Ali ranges are designed for maxi- mum life under pulsating service cwndllaons. 1008 es available In felmm or 100mrn dial sizes, stem or suAace mounted, with a atainlass stead case and polished stainless steel crimped ring. A standard polycarbonafe window is oilseed with temperature compensating design. The gauge utilizes a u-clamp far pant mounting. Type 1008A hes a. bronze tube and brass a ticket with soft soldered pres- sure containing joints The gauge has an IRTV' seal on the lower connection and an "O" ring Seel on the heck con- nection. Vacuum through 600 psi ranges are available. Type 10085 has a stainless steel tube end socket with welded pressure con- taining ezii'nte. In eddl`tion, the socket is welder; to the rase.. This ,pink protects against corrosion and provides s perme- rent case seal for liquid ell eepifcatens. Flanges evadable from vacuum to 15,000 gel. Alf liquid -tilled pressure gauges (300 pa and over) e/9 supplied with a throttle device es standard Throttle Devices — Ail liquid filled 1008 gauges, 300 psi and above, are suppfied with a throttle device in the gauge socket. I1 requested, these devices will be supplied on dry gauges or on liquid fined units below 3M psi. Accuracy; 3.2.3% ANSI Grade B Ai gonna made In USA. The 1008AL (bronze socket) Is equipped with a push In brass throttle ping with a 0.0.13" diameter orifice. 5038SLlstainless Steel. sockeit) is equipped with the Ashcroh annular ori- fice device with an (niece equivetent to. 0.013' by 2e6' length. This device will attenuate up to 7096 of excess pulsation Product Selection Information All gouge components should be selected considering media and operat- ing condilons.lo. prevent mis-aPpti- cationI. Improper applicalion can Cause gauge failure and possible person0r%. injury or property damage, The Inform a- ' ton contained In this catalog Is offered as a guide to ess'Iel in reeking the proper selection of a pressure gauge. Addl- Hoist Worm -aeon is available from Dresser instrument Division Consult ANSI 040.1 for guidance In gauge selection. ... Gauges should be swlected with a lull scale pressure range of approximately twice the normal operating pressure - The maximum operating pressure should not exceed approximately 75% re the lull scale range: Failure to select a gauge range wiIhin these criteria may ultimately result in fatigue of the Sour" don hose. 1006 BACK ON dr xz srax , 63 ww T"y, 33 xH 'y N The temperature to which a gauge will be sublected should not exceed 150' F. Accuracy will 'be affected by approxi- mately 02 psi per 10'1T. A pressure relief plug is suppled In eft cases to rcdteve case pressure buildup in the event a slow leek develops in the pres- sure element Proper selection of the 0001don systeQi+ and socket material le dependent upon the process fluid to which the system wilt be subjected, If 'a standard material Is not suite0le, the use of a diaphragm seal may be oecesaery. Gauges cleaned for gaseous oxygen or ether strong oxidizing agents cannot tins supplied with glycerine or silicone liquid fill. Consult factory 0 dkquld filling is requited on strong oxidizing meth& CT XI1C'VARIATION co ss Ordering Example Below 63 1 ?8S Tu Case Size 22 A A ©ACKC a 1 a is I sa �._ ,..: :N 1ONS IFI } ARE tit L DIAMETER HOLES ON H OCaIKTEA BOLT an* ,0. 1006 SACK CONNE. 5 PANEL E How To Order and Case Dimensions aid Fact canTat 02 to NOT to NOT 2 1 NPT H v"NPT (s(wer 01111) 1008A LOWER CONNECT OWER CO C 011 L Varlallons 0-15 Standard Ringrs Old .._ .. ©/28e0 /84"F -4pt125"F The t3�kolaP"tonlMountingFlange ttTn11 M0unlin0 Flanoa 3511E 3521 3513G 35I5F 2 SECTION DESCRIPTION The Model 575 Submersible Level Trans- mitter is a solid state instrument designed for direct submergence into many types of liquid for quick, accurate and reliable level measurement. The transmitter indicates the level of liquid by continuously measuring hydrostatic pressure via its sensing element, an ion implanted silicon chip consisting of a full Wheatstone bridge circuit used with a 316L stainless steel diaphragm to seal the element from corrosive fluids. FUNCTIONAL SPECIFICATIONS PRESSURE RANGE: 0-6 psi/0-0.4 bar 0-15 psiAll bar 0-30 psi/0-2 bar 0-60 psi/0-4 bar 0-100 psi/0-7 bar 0-150 psi/0-10 bar 0-200 psi/0-14 bar 0-300 psi/0-20 bar OUTPUT: 4-20 mADC limited to 30 mADC POWER SUPPLY: 12 to 40 VDC with reverse polarity protection LOOP RESISTANCE: 1400 ohms max @ 40 Volts (See Figure 1 -13) TEMPERATURE RANGES: Maximum Operating; -40' to 80*C (-40' to 176'F) Compensated: -29* to 50*C (-20* to 122T) Storage: -40' to 80*C (-40' to 176*F) OVERRANGE: 200% upper range limit • All the electronics are mounted in a sub- mersible 316 stainless steel housing pro- tected by a removeable, snubnosed threaded sensing port. The electrical connection is a 3 wire, 20 gauge shielded waterproof cable which is vented at the surface end to reference atmo- spheric pressure. An optional cable support is also available. The cable support pro- vides extra stability for longer lengths of ca- ble or for use with agitated liquids. (0-13.8 ft. water/0.4.2 m. water) (0-34.6 ft. water/0-10.5 m. water) (0-69.2 ft, water/0-21,1 m. water) (0-138.4 ft. water/0-42.2 m. water) (0-230.7 ft, water/0-70.3 m. water) (0-346.0 ft, water/0-105.4 m. water) (0-461.3 ft. water/0-140.6 m. water) (0-692.0 ft. water/0-210.9 m. water) LOOP RESISTAN 16 20 2.4 Z6 a 36 SUPPLY VOLTAGE QVDC) FIGURE 1-B PERFORMANCE SPECIFICATIONS @ 25°C (77°F) ACCURACY: t0.25%FS (Including Linearity, Hysteresis and Repeatabili(y. B.S.L.) TEMPERATURE EFFECTS: Typical t 1% output change for t25'C temperature change within compensated range. POWER SUPPLY EFFECT: t0.005% FS per Volt. OVERRANGE EFFECT: t 0.15%FS at 200% of maximum range. STABILITY: 10.59'0 of Upper Range Limit for six months. 40 SECTION 1 t:.. �� ' ... { Ms...:....�. :.d.a r.w ��:..� SPECIFICATIONS PHYSICAL SPECIFICATIONS MATERIAL OF CONSTRUCTION: Cable jacket - P©lye3 ylene. Diaphragm - Type 316L Stainless Steel. Cover - Type 316 Stainless Steel. Nut/Washer - Type 316 Stainless Steel. Cable Grommet - Neoprene. Cover ""O" Ring - Buna-N. ELECTRICAL CONNECTION: Attached 3 wire, 20 gauge shielded cable. CABLE CONNECTION COLOR CODE: RED (+) excitation, BLACK (-) excitation" GREEN (case ground). See Figure 1-C. WEIGHT: 1 pound (454 g). MEDIA COMPATIBILITY: Process Media: Any media compatible It Polyethylene, Neoprene, Bursa-N, Type 316 Stainless Stec!. CASE GROUND FIGU E I-C MODEL 575 CABLE CONNECTION RED CABLE SHIELD BLACK GREEN Model Pictured: 1321-P Included with basic unit pictured: • Sump tank and trays • TEFC blower re Demister pad Water inlet spray nozzle «7 Water level sight tube • Gaskets t' Latches • Gravity discharge and internal piping The full range of options are available to meet your project's specifications. t FRONT VIEW 'Use these drawings as a guideline only,. Systems are built to your prolect`s spec'tica¢lons. RIGHT SIDE VIEW -P 1-12gpm 1 28" 70" 56" 150 200 P 1-12gpm 2 28" 70" 69" 150 240 1331-P 1-12gpm 3 28" 70" 82" 150 280 1341-P 1-12gpm 4 28" 70" 94" 150 320 1300-P AERATION TRAY OUTLET TO ©OWNCOMER Trays TCE Three Trays TCE TOP VIEW hs represent approxoval e es. Use 4 to ray'" modeling program to calculate expected performance. DYNAPAK TER SEPARATORS 'enxoval of Both Dispersed Oils & Settleable Solids THE ART OF 01 ATER SEPARATION of the plates. Solids entering the pack encounters 60 degree angle of inclination which optimum for solids settling. e solids slide down the plates fheringboth mass and velocity as they the bottom of the pall, and drop into .idge collection chamber. IDGE COLLECTION \MBER: sludge collection chamber is located ily beneath the Dyna•Pak and pro- j ample volume for the settled stodge. Sides of the chamber are sloped at 45 ;es to insure easy and cornplete re- tl of the sludge, REMOVAL: separated oil accumulates at the sur- of the separation chamber where ite aces the water, as the oil Layer in - 'es, oil automatically spills aver an stable oil skimming weir into an intc- oll reservoir where it can either flow by ity or be pumped automatically to )te storage tanks. LUENT CHAMBER: leaving the Dy na-Pak flows he oil reservoir and up over the .ad- blc effluent weir, Which maintains the d level throughout the separator. As clean water passes over the effluent it enters the effluent or clean water mbcr where it can dthr.r flow by ernvin° pumped tiugornaticn!fy, HYDRO-FLO TECHNOLOGIES, INC, MASTERING THE ART OF OIL/WATER SEPARkT 0, "DP" SERIES A-36 CARBON STEEL CONSTRUCTION COAL---7CING TYPE S CORRUGATED PLATE OIL,WATER SEPARATOR HYDRO-FLO TECHNOLOGIES Dyna-Pak oiliwater separators provide maximum efficiency and higher capacities In a compact, cost effective package ...Overall effluent oil content has been rep-ortecl to be up to 60% lower for parallel plate 4.ystetns, with a higher proportion of stnall oil droplets recovered" .D.-misim mud OP.1,r4stion of Oil/tar Soparatorm 41'1 Publication 421. Fob 11,0 HYDRO-FLO uses the latest desipt criteria as deaned by theAmerican Petrolewn , API publication #421, Feb. 1g90 ,The Design & Operation of 0iI/Water Separators. Gallons per minute, specific gravity of the aqueous phase, specific gravity of the phase, oil droplot removal rate, viscosity of the wautaotator, wairte*.ater tamp,,,rotUrn, arose sectional velocity, etc... All of these factors have an impact on the operation of your separanioh system. Don't specify or buy an improperly designed separator. Call HYDRO-FLO today ,and have a separation system designed for your unique application • 'HYDRO-nauses different tnedia sizes to best solve your separation problem What i the makeup of-your.wastowatar? Does it consist of low quantities of suspended ',solids and large ,guantities of highly viscous oil? Dioas it consist of high quantities of heavy suspended solids and low quantitiesof light viscous oils? At HYDRO-FLO we select tha media based on ,ycur-situation Our media will give you the best possible maintainahility 'without sacrificing performance/ HYDRO-FLO incorporates the features you relues-t. In addition to our atandard features (Influent,diffiision chamber with non -clog diffuser. Integral sludge collection chamber, Rotary pips oil skimmmr. Effluent cham.ber with sheen baffle, Eto..) HYDRO-FLO has ,incorporated many featuret recommended by our customers,' Heavy duty vapor tight lids with purging capability up to 12" or water pressure and 6" of vaouurt. heavy duty rotary unions with zerk fittings have been incorporated into our rotary pipe skimmer, 12 dft Coal Tar Epoky interior coating dver an 5.511C-5F10 (near white metal blast) for improved corrosion resistance. Flat mounting pada(instead of channel bases) for more even distribution of tank loads aad ease of final grouting, , are just a few or the features added at tbe regueet of oUr customers. If you have opooial needa', please let us know so that we can incorpomata these features into your separation package. HYDRO-FLO manufactures the Finest separator available today. wo ,...ic.m. comparisons if our equipment to any other available today, HYDRO-FLO heats the competition hands down. Our quality of duoign and manufacture, our many amandard faaturulo, our fast delivery, otc:.. All of this means that HYDRO-FLO lc the hest value for your oil/ter sicoparation dollar. Tryus once and find out why others are settching fro their current supplier to HYDRO-FLO. FilDRO-FLO, the supplier of choice. The reasons for choosing HYDRO-FLO are many and diverse, Of these, our professional approech in the sizing and application of our equipment, our competitive pricing, our speedy dolivery and our ability to handle the many oustom'feeturas required for these types of projects are juet o few of the reasons mentioned by our many satisfied ademomeno.' AA) "tidit..1',4".ort r C.A.11 F1ui u actu ing Offlc 125 W. Fay Avenue • Addison, IL 60 0 • Phone 708-543-8012 • Fax 708-54 -0470 Corporate Office • 1605 \Vct York Lane • Wheaton, IL 60187 • Phone 70$-260-9538 • Fax 708-260-9539 e • 44. WATER Our world's rnost precious commodity. Hydro -Flo is" helping to make a cleaner tomorrow. Our water resources are among the most valuable assets we have. They are irreplaceable, and essential to our economy, and our lives. Threatening the purity of this water are the millions of gallons of oily waste which are generated daily in this country, The sources are the many industries whose processes involve contact between oil and water. This tremendous volume is an environmental problem in itself (one gallon of oil contami- nates one million gallons of ground water). Adding to the problem is the difficulty in treating oily wastewater. • At Hydro -Flo, our dedication to quality has prOduced the Dyna-Fakcoalescing oil/water separator, a product second to none, in the separation of dispersed oil:and settleable solids. Whether your appliCation calls for a standard product or a custom design, Hy- dro -Flo is able to provide a cost-effective separation system consistent with your needs. Our extcnstvc product line also includes a host of standirObiiiionS to choose from as well as pre iidrcitr treatment packages Capable of breakiligivert the most stubborn ait %,yitte r };'dsis-FlO sliEid Our products because we desi'irigAida'iidiest them to the most exactihg-sPec-ifi-Cationi fouod*in rh arc Ft 'Qr our ideal. esentative :fOr..additioual information . c.ii°,assistanCe:.in;Siziri&i3uipment for yOur ftiCular aPfiiiAti3Oii;Oiir;Sale.S office is ;iNxeriulr dd-i soni 1111,. • ti vOrf.1.11.1 „ at 2,543-0470 87,260"9539, ":" POLYPROPYLENE & 316 SS. T" LINE STRAINERS Nam 3/4" AND 1" POLY "T" STRAINERS PART NO. flESCRIPTIQ LSTO?S15 Poly "T"Slrainer r T075-30 5 3/4" Poly 'I"Strarnr 30 Mos1 S Poly "T" Strarnor 50 Meth Sreen Poly LSTC7SIOO V4' Poly "T" Slraner 100Mesh Scroen LST100i6 1* Po y 1" Stratnor 16 Mft Screen T100-30 ir Poly "T" Strainer —30 Mesh STl0050 1Poly "T" Strainer — 50 Msh Screen ST10030 1' Poly 'T" lo0ioo r PT Strainer i00Met1s STIIB 15 h Screen '14' and 1' "T" strainer) 51130 30 h Screen 3/1" and 1' "T" strainer) Mesh Screen 3/4" and 1' tra(ner) 0 Mesh Screen 04"and 1' Sc and 1" 'I"strai TO75- 1/4' Poly Strainer Head and Bowl ST075-H Poly "T" Strainer Head ST100-11 LST100B Poly "T" Strainer Head and Bowl *Poly "7" Strainer Head Poly "T" Strainer o lts 'A"and V) T100G Poly "T"Slrainer sk (Fits Poly "T" Strainer Gasket — \Mon° (Fits 3/4' and 'A" TIiRU 11/2" FEATURES • Heavy-duty glass reinforced polypropylene, • Clean -out plug. • 304 stainless steel reinforced screens. • EPDM gaskets. 150 P.S.1, at 70°F. 2" "T" STRAINERS SCAIPT T200-04S. ! 2"T" Strainer (316 S.S. head -poly bowl) — 4 Mesh Screen LST200-06S3 2' "T" Strainer (316 S,S. head-poty bowl) — 6 M.esh Screen S 2' "T"Siralner (316 .5, head -poly bowl) —Mesh Srrenn e n _head -poly bawl) — 10 2 L T OSS 2' "T" Strainer OSS 2' "T" Strainer 6 S.S, head -poly bowl) — .5, head -poly bowl) — LST20653 6Mesh Screen 2"T" Strainer) LST2OBSS 8 Mesh Screen (Fits 2' "T"Slrainer) ST210 0 Fits 2"7" iner) rcrenn Screen 11/4" AND 1'/2" POLY "T" STRAINERS 11 LST23OSS ST2SOSS LST2SOSS 6 Me Fits 2" 5721005S 100 MesO Screen (Flts T '7 Strainer) 5T200410.55 1.5T20O-FISS LST200-6 LST200-GV 2 er 316 S.S. Head and Poly 2' "T" Strainer 316 5,S, Head 2"T" Strainer Poly Bowl 2' "T" Strainer Gasket — Viton PART NO. DESCRIPTION LST125-16 1 V." Poly "T" Strainer — 16 Mesh Screen LS7125.30 LST125.50 1 V,.• Poly "T" Strainer — 30 Mesh Screen 1 Vi* Poly "T"5 BO Mesh Screen 1Vt• Poly "T" Strainer 100 Mesh Screen ty " "Simmn LST150-30 11/2' Poly "T" Strainer — 30 Mesir 1Va Poly "T" Strainer — 50 Mesh Scren V:" Poly "-r- Strainer — BO Mesh Screen 1112- Poly "T" Strainer — 100 Mesh Screen . h Soumen (Fits IV.' and 11/2 "T" strainer)_ (Fits 1V,' and 1 Vz' "T" strainer) Sorcen(Fits 1V4" and 1'h" "T" strainer) n (Fits 11/4' and 11/2"T' strainer) LS1151Ug 100 Mesh Screen (Fits 11'/.1" and 11/2" '7" strainer). 25-H3 'A' Poly "T" Strainer Head and Bowl T125-H 1 'A' Poly "T' Strainer Head ' 11/2' Poly "I' Strainer Head and Bowl STIS LST150-6 1V2* Poly 'T" Strainer Head Poly 'I" Strainer Bowl (Fits 1'/4' and 1 V?" ) LST150-G Poly "T" Strainer Gasket (Fits 11/4" and 11/2' ) L57150-GV Poly "T" Strainer Gasket — Vito(Fits 114' n ) 2" FEATURES • 316 stainless steel head with glass reinforced polypropylene bowl. • Clean -out plug. • 316 stainless steel reinforced screens. • Viton'" gaskets. • 150 P.S.1, at 70°F —1'/2" 2" BOWL REMOVES EASILY FOR CLEANING SCREENS! 15 v0 r p u rks u mps P, CD. Boa e31 C1ec.alur, Illinois 8252 Phones 217/4129Q591 1750 RPM CAPACITIES TO 45 GPM HEADS TO 30 FEET 1a 214 C'APACITr —G.P, 7 0 RPM $�ER�E$ GNA6-1'/4 Base Mounted Centrifugal Pumps 3500 RPM. CAPACITIES TO 100 GPM HEADS TO 120 FEET —"Toe L J Q © 40 r GN .".500 RPN 0 CAP ACITY — G.P.M. 0 100 48 PERFORMANCE CURVES END SUCTION CENTRIFUGAL PUMPS DIMENSIONS SERIES GNA5.1 GNA6.11 - CENTRIFUGAL PUMP ONLY Pump GNAS-11/4 GNA6.11/4 CP 4 3/4 1O3s, ° 51/4 DD 3a, 4N* 45' a 93/1i 913h4 UCTI0N 13/ 5/e 1,14" DISCHARGE DO NOT USE FOR CONSTRUCTION PUR• POSES. CERTIFIED DIMENSION DRAW INGS AVAILABLE ON REQUEST. 471. 41 I/tf y 3% 3 3/ Suct. Disc 52 1nstaiiation In selecting an installation site one should, consider readability, mainte- nance, and installation. The Niagara Series MT, meter must be mounted horizontally with the register on top. In order to have accurate measure• ment, the meter must have a straight undisturbed pipe with length of 5 pipe diameters upstream and 3 pipe diameters downstream. If this is not possible, straightening vanes may have to be used. The Series MTX must be placed in a pipeline free of scale, sediment, and debris. If there is excessive sediment in the pipeline, protect the meter by putting a strai meter. upstream of the Evacuate air from the meter before operating. Slowly open valve to let. water into the meter. Gradually increase the flow rate to drive out the air. If the meter is not filled slowly, the surge of water can damage the measuring elements. Register Removal Model i23 (See Illustration I) 1. Remove sealing wire (I).. 2. Tap out clamping pins (2) from. the register cover with a rod. 3. Take off register cover (3) and register (4). The register cannot be disassembled further. It is her - Model 123 with Totalization" rrtetically sealed and must be replaced as a unit if damaged. Model 414 (See Illustration 2) 1. Remove sealing wire (I). 2. Remove strain relief nut (2) and draw out washer and binding nut. 3. Remove sealing screws (3) and lift off register cover (4). 4. Remove screw (5) and take off reed switch (6), • 5. Remove scaling wire (7). 6. Lift sealing segment (8) out of ring. Turn working clamp ring by 90 degrees to the left or the right and lift off. 7. The register (10) cannot be disassembled further, It is her- metically sealed and must be replaced as a unit if damaged. 9 A Miller In rstries Company Model 420 (Sec Illustration 3) 1. Remove strain relief nut (1) and draw out washer and binding nut. 2. Remove sealing screws (2) and lift off register cover (3). 3, Pull reed switch or infrared transmitter (4) out of the register. 4. Remove sealing wire (5). 5. Pull sealing segment (6) out of ring. 6. Tum working clamp ring (7) and register (8) 90 degrees to the left or the right and lift off, 7. The register cannot be disas- sembled further. It is hermetically sealed and must be replaced as a unit if damaged. Model 433 (See Illustration 4) 1. 'Remove sealing wire (1). 2. Take off reed switch (3) by removing cap screw (2). 3. 'Remove sealing wire (4) on sealing segment (5). 4. Lift out sealing segment (5). 5. Tum working clamp ring (6) wit register (7) 90 degrees to the left or the right and lift off. The register cannot be disassembled further. It is hermetically sealed and must be replaced as a unit if damaged. Measuring Chamber Disassembly 1. Remove sealing wire (I 1) on Models 414, 420. and 433. 2. Turn upper case (12), with spanner wrench, counter -clockwise and remove. 3. Measuring chamber (13) will fall out of the body by tilting it. if the measuring chamber is stuck, it can be removed by protecting one of the threaded connections with a cap nut and striking the protected end on a piece of wood. Caution should be used to protect the measuring chamber from damage. 4. If the measuring unit is wor damaged it must be rcplac unit. 5. The filter (14) can be pushed out. Clean and check for damages. Replace if necessary. RReassemble. a Model 123 (See Illustration 1) 1. Reassembly of the meter can be done by following the reverse order of the disassembly instruc- tions. Check parts for wear and make sure they are clean. 2_ Place 0 ring on treasuring chamber and insert chamber in meter. The measuring chamber must be flush with the bottom case of the meter. 3. To achieve a good seal, the 0 ring (15) in the upper cast should be slightly lubricated. 4. Replace sealing wire (1). Model 414 (See Illustration 2) 1. Reassembly can be done by following the reverse order of disassembly instructions. Check parts for wear and make sure they are clean. 2. Before putting register cover (4) on, working clatnp ring (9) and sealing segment (8) have to be sealed with a sealing wire. 3„ Reed switch (6) must be mounted in the slot above the magnet on the register. Replace screw. 4. Place 0 ring on measuring chamber and insert chamber in meter. Measuring chamber (1.3) must be flush with the bottom case of the meter. 5. To achieve a good seal, the 0 ring (15) in the upper case (12) should be slightly lubricated. Tvlodel 420 (See. Illustration 3) 1. Reassembly of the meter can be done by following the reverse order of the disassembly instruc- tions. Check 0 rings and parts for wear and make sure they are clean. 2. Place 0 ring on measuring chamber and insert chamber in rater. The measuring chamber (13) must be flush with the bottom case of the meter, 3. Place transmitter i slot. X0.1 - Infrared Transmitter Xl - Reed Switch For I Pulse Per 10 Gallons X l o - Reed Switch For 1 Pulse Per 100 Galions 4. Before putting register cover (3) on, working clamp ring (7) and sealing segment (6) have to be sealed with sealing wire. 5. When inserting register in cover, match slot above multiplier on register with tab inside cover. 6. To achieve a good seal, the 0 ring (15) in the upper case should be slightly lubricated„ the correct Model 433 (See Illustration 4) 1. Reassembly can be done by following the reverse order of the disassembly instructions. Check parts for wear and make sure they are clean, 2. The working clamp ring (13) and sealing segment (2) have to be sealed with a sealing wire. 3. Place 0 ring on measuring chamber and insert chamber in meter. The measuring chamber (13) must be flush with the bottom case of the teeter. 4. To achieve a good seal, the o ring (15) in the upper case (12) should be slightly lubricated. Calibration The meter Is calibrated at the factory. If the measuring chambet is replaced, calibration instructions 'wi11 be included vti'ith the replacement kit. Pace 2 Specifications Pressure: 225 psi Accuracy: ± l % Registration: US Gallons. Other units of measure available (consult factory). Mode .123 Size 3/4" 1 °" 2" Flow Rate Cold Temperature Hot Model 414 Size Flow Rate Temperature 1-20 gprn 120 F 250F 3/4" 2-50 gpm 120 F 250 F gpm 120 F 250 F ,'2" 4-130 gpm 120 F 1-20 gpr 250 F 2-50 gpm 250 F 3-85 gpm 250 F 250 F 2" 4-130 gpm 250 F Gallons per Contact Model 420 Size Rate Temperature ons per contact 840 Switch Full Scale Freq. HZ with 360 .Pulses fode1433 Cold Hot Cold Heat 3/4" 1-20 ©pm 120 F 250 F 10or 100 Size 20.63 38.57 3/4" 2-50 gpm 120 F 250 F 16.66 10 10 gpm 120 F 250 F War 100 14.16 4-130 gpm 120 F 250 lOor 100 66 1" 1 1/2" 2" ow Rate 1-20 ep 2-50 gpm Temperature Gallons per contact 120 F 1 Wetted Material Of Construet1ori Body: High Strength Brass Measuring Element: 120 F - Polystymene L 250E-Noryl Impeller: 120 F - Polystaene. 250 F - Noryl 0 Ring Seals: EPDM 20 F p 4-130 gpm 120 F 10 120 F 10 Model 1.3 (Illustration I) 14 Model 420 (Illustration 3) . Replacement Parts • Measuring chamber complete • Register assembly Note: Part numbers For above heals are listed in the parts price book. IrsY COMPANY 150 Ventura Blvd. P.O. Box. 4545 Spartanburg, SC 293°5 A 177111ei' industries Company • 0103)574•8960 1-R00-845-2102(cxccpSin SC) Fax R03-578.7308 Heoxy Iigo d produce one upgndcd u of technicaV. impr©ccmem. 1luscr hfe Company rescrcei the right to ehangc tpecifrcau wiIhcur nmire, Hussy hSe»unmcnt Company is an equal opponunity employer, 6 191E ltersea BSc asunne nt Contpany- rL31 n,ghns reserved. 14 Model 414 (Illustration 2) Horsey Rcprese Model 433 (Illustration 4) Form N M 2I1 3M,0791 HEAVY DUTY SQUARE MANHtLES MODEL 105 Heavy Duty Square Manhole made of 16 gauge galvanized sheet metal featuring our exclusive welded overlapping corners for added strength, Cover is 3/e" thick diamond plate steel painted black with special rust preventive paint. All sizes over 30 square come with 4" wide reinforcing channel welded to the underside of the cover. 42", 48" and 52" provided with recessed handle. Standard sizes listed here. Other sizes and depths made to order. PART NO. 105-12 x 75 105-12 x 12 105-12 x 24 105-16 x 16 105-20 x 20 105-24 x 24 105-30 x 30 105-36 x 36 105-42 x 42 105-48 x 48 105-52 x 52 SIZES: 12"x12"x71/2" 12"x12"x10" 12" x 24" x 10" 16"x16"x10" x 20" x 10" 24"x24"x10" 30"x30"x10" 36"x36"xiO" 42"x42"x10" 48" x 48" x 10" 52" x 52" x 10" HEAVY DUTY WATERTIGHT SQUARE MANHOLES MODEL 105WT 1'/A" wide Steel Angle Iron frame with 16 gauge galvanized sheet metal sides featuring our exclusive welded overlapping corners for added strength. Cover is'/8" diamond plate steel painted black with special rust preventive paint and includes 4 stainless steel bolts and BUNA-N gasket for watertight integrity. Sizes over 30" square supplied with 4"wide channel welded to the underside of the cover. All sizes come furnished with watertight handle. Standard sizes are listed here. Other sizes and depths made to order. 105L PART NO. 105-20x26V1/T 105-24 x 24 WT 105-30 x 30 W'T 105-36x36WT 165-42 x 42 W'T 105-48 x 48 WT 105-52 x 52WT SIZES: 20"x2©" 24"x24" 3©"x30" 36"x36" 42"x42" 48" x 48" 52"x52" 10" high liner for above manholes. (Specify size.) 1O5LA Above manholes can be supplied with stainless steel bolts in cover for limited access. (Specify size_) �m 105DA Above rnanholesadditional can be supplied with one opening in cover for double access. (Specify size.) 105TA Above manholes can be supplied with two additional openings in cover for triply: access. (Specify size.) 16