Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
WQ0033455_O&M report_20081023
WASTEWATER SYSTEMS INC. ON-SITE DRIP Management Systems RECEIVED/ BENR { DWO AQUIFER PROTECTION SECTION QCT 2 3 2008 ROSE HILL SUBDIVISION System Operations Manual @ Waste Wates Systems Inc. P.O. Box 1023 Ellijay, GA 30540 Phone 706-276-3139 Fax 706-276-6535 PC system Operations Manual Waste Water Systems Inc. SECTION ONE SYSTEM TERMINOLOGY 4 SECTION TWO SYSTEM OVERVIEW 10 SECTION THREE CONTROL OVERVIEW 13 3.1 Controller Inputs 13 3.2 Controller Outputs 15 SECTION FOUR SYSTEM STARTUP SCREEN 17 SECTION FIVE SYSTEM SCREEN 18 5.1 Overview 18 5.2 Status Window 19 5.3 System Unlock/Lock 22 5.4 Normal Cycle 24 5.5 Backwash Cycle 24 5.6 Field Flush Cycle 24 5.7 System Failure 26 SECTION SIX SYSTEM STATUS SCREEN 27 SECTION SEVEN SYSTEM LOG SCREEN 28 SECTION EIGHT DATA LOG SCREEN 29 SECTION NINE MONTHLY LOG SCREE 31 SECTION TEN FLOAT SWITCH SCREEN 32 10.1 Low Water Float 32 10.2 Dose Enable Float 32 10.3 High Water Float 33 Waste Water Systems Inc. _2_ PC system Operations Manual Waste Water Systems Inc. SECTION ELEVEN MAIN SCREEN 34 11.1 Number of Zones 34 11.2 Dosing Technique 35 11.3 Backwash by Flow 35 11.4 Next Zone 35 11.5 Dosing Routine 35 11.6 Elapsed Time Dosing 35 11.7 Real Time Dosing 36 11.8 Dose Number and Start Time 37 11.9 Pumps 38 11.10 Setup Values 39 11.11 Zone Dose Values 42 11.12 Zone Flush Counters 43 11.13 Auxiliary Shutdown 44 11.14 Factory Defaults 44 SECTION TWELVE DOSING SCREEN 45 SECTION THIRTEEN ZONE STATUS SCREEN 46 SECTION FOURTEEN MAINTENANCE SCREEN 47 SECTION FIFTEEN HELP SCREEN 48 SECTION SIXTEEN DAILY / MONTHLY LOG 49 SECTION SEVENTEEN VIEW I/O SCREEN 54 SECTION EIGHTTEEN OPERATIONAL FLOWCHARTS 55 SECTION NINETEEN TROUBLESHOOTING 56 FLOWCHARTS SECTION TWENTY SCHEMATICS 57 Waste Water Systems Inc. - 3 - PC system Operations Manual Waste Water Systems Inc. 1. System Terminology Below are some brief explanations and some definitions of words and/or phrases that will be found throughout this manual. Reading this section first will greatly help in the use of this manual. AUTOMATIC When the system is running in the fully automated mode and there is no operator assistance required. AUTOMATIC FLOW When effluent is pumped by the system under program control. Due to the system timers or the dose now button. AUXILARY SHUTDOWN When the system is shutdown by an external device connected to the auxiliary shutdown input. AUXILARY SHUTDOWN When the auxiliary shutdown input is overridden by BYPASS the operator. BACKWASH Cleaning of the system filters one at a time starting with filter one. Can be manual or automatic. BACKWASH BY FLOW When the total automatic flow through the system equals the backwash by flow count the system will initiate an automatic backwash cycle and reset the count. DAILY LOG A flow log created by the system, which is saved every night at approximately midnight. This log is not reset able by the operator. DATA LOG A flow log that continues to run until reset by the operator. The system must be unlocked to reset this log. DEBOUNCE Delay time used to ensure that system inputs do not bounce on and of. DELTA PRESSURE May also be called DP or DIFFERENTIAL PRESSURE. Monitors the pressure across the filter battery. Used to backwash the filters. Waste Water Systems Inc. -4- PC system Operations Manual Waste Water Systems Inc. DESIGN DEFAULTS Original system parameters designed by the job engineer for the specific site conditions. DOSE ENABLE The middle float switch in the dosing vessel used to ensure there is enough effluent to complete a dose. The system will not start in automatic if this switch is not on (closed). The Volume required for the setting of this switch must allow for the largest zone dose plus a zone flush cycle. DOSE ON FAIL A setting selectable by the operator, which allows the system to keep running even if the system detects a flow failure. However the zone that fails will be disabled until reset by the operator. DOSE VALUES The gallons that are to be pumped to each zone per dosing cycle. DOSING CYLE A complete dose to a zone, which was started and finished automatically by the controller. DOSING ROUTINE The routine in which the system is operated either real time dosing (RTD) or elapsed time dosing (ETD). DOSING TECHNIQUE The manner in which the zone are dosed either one at a time (single zone dosing) or two at a time (dual zone dosing). DOSING VESSEL My also be called the DOSING TANK. It contains the treated effluent to be pumped. DPMPS Dual pumps. DRIP ZONE Either one or two drip zone sections that are dosed by the controller depending on the dosing technique. DRIP ZONE SECTION A section of drip tubing controlled by one control valve. DUAL ZONE two drip zone sections that are seen by the controller as one drip zone (A and B) for dosing, but are flushed separately. Waste Water Systems Inc. - 5 - R� DWELL ELAPSED COUNT TIME PC system Operations Manual Waste Water Systems Inc. The length of time that a function is performed, usually show in seconds. The length of time the filter battery is pressurized between washing each individual filter. Time in minutes since the last zone dose was initiated when the system is in elapsed time dosing. This is a down counter that initiates a dose and then resets when it reaches zero. ELAPSED TIME Interval in minutes between zone dose when elapsed time dosing is used. EVENT LOG Log generated by the system showing internal system status used by the manufacturer for troubleshooting. FAIL INITIAL Set when the system fails its initial check on the start of a dosing cycle. This shuts down the system even in the DOSE ON FAIL. FAIL MODE OPERATION Mode of operation the system is presently running in, either STOP ON FAIL (default) or DOSE ON FAIL. FAIL PUMP X This will either be A or B pump when the system detects a pump did not turn on. The system will automatically switch to the pump, which is not failed. If both pumps fail the system will shutdown and show a system failure. FILTER BATTERY The assembly, which holds the filters including the upper and lower manifolds and the backwash valves. FLOW FAILURE When a GPM reading exceeds the upper or lower limits determined by the Set points failure (default is 50 %). This will cause the system to shutdown in the STOP ON FAIL mode. FLOAT SWITCH A normally open switch used in the dosing vessel to send the system the effluent level. Waste Water Systems Inc. -6- -_i PC system Operations Manual Waste Water Systems Inc. FLOW ANALYSIS When the system compares the current gallons per minute reading to the setup value in the controller to determine flow conditions. FLOW METER Meter on the system to monitor flow and to send a signal to the controller for acquiring flow information. FLOW WARNING May be called FLOW WARNING. When a GPM reading exceeds the upper or lower limits determined by the Set points warning (default is 20 %). A flow warning will not cause the system to shut down in either mode of operation. GPM Gallons per minute. INITIAL TEST Test performed while the system is pressurizing before a stable GPM reading can be taken to monitor for overflow conditions. LOCK When the system is in the lock condition system parameters cannot be changed. LOW WATER The lower float switch in the dosing vessel used to protect the system and the pumps from running dry. The system will not start in automatic if this switch is not on (closed). MANUAL FLOW Effluent, which is, ran through the system by manually engaging the system pumps. This flow is not recorded or logged on the system controller but will be on the flow meter. MASTER VALVE Control valve on the system that is normally open and only closes when the system is in a backwash cycle. MONTHLY LOG Log generated by the system comprising of all of the daily logs for the present month. This log is not reset able by the operator. NEXT ZONE ## This will display the next zone to start a dosing cycle either automatically or by pressing dose now. This will only be present ELAPSED TIME DOSING. Waste Water Systems Inc. _7_ 1 1 PC system Operations Manual Waste Water Systems Inc. NO FLOW FAILURE Occurs during automatic operation when the system detects no flow through the flow meter for more than 30 seconds. NORMALLY CLOSED A device, which when in a non -energized state (electrically, hydraulically or pneumatically) is in a closed position. NORMALLY OPEN A device, which when in a non -energized state (electrically, hydraulically or pneumatically) is in an open position. PRESSURIZING The beginning of each dosing cycle when the system is filling up the lines in order to measure the gem's. Normally done with both pumps. PRIMPNG PUMP Small pump used to fill the suction lines before the start of a dosing cycle. Not always used on the system. REAL TIME An exact time of the day, hours and minutes, that a dosing cycle is set to occur in REAL TIME DOSING (RTD). SETPOINTS Points at which the system is set to give flow warnings and flow failures, can be set from 1 to 99 percent. SETUP VALUES Calculated zone GPM values used as a baseline in flow analysis to determine flow warnings and flow failures. SINGLE ZONE One -drip zone sections that is seen by the controller as one drip zone. STOP ON FAIL A setting selectable by the operator, which causes the system to shut down if the system detects a flow failure. The system must then be reset by the operator. SYSTEM FAILURE Any failure, which causes the system to shut down until, reset by the operator. Waste Water Systems Inc. -8- PC system Operations Manual Waste Water Systems Inc. SYSTEM LOG A log kept by the system to keep track of operator events such as resetting errors, turning zones on or off, float switch status, pump status. TOTAL FLOW Total combined flow of all zones during automatic operation. UNLOCK When the system is in the UNLOCK position most of the system parameters can be changed. XSDP FAILURE The system has detected that the differential pressure backwash has been initiated 10 times during one dosing cycle. This indicates a problem and causes a system failure. ZONE DOSE A cycle in which the system starts in automatic and is pumping effluent to a drip zone. ZONE FLUSH Automatic flushing of a drip zone section by creating turbulent flow in the drip tubing. ZONE FLUSH INTERVAL The interval in days that each drip zone will be flushed. Each zone will be set to flush every 16 days. If the zone s inactive for more than 16 days it will flush the next time it doses. ZONE FAILURE GPM measurement for that zone exceeds the upper or lower limits. ZONE RETURN VALVE Normally open valve used in the field flush operation. ZONE VALVE Normally closed valve used to control each drip zone section. Waste Water Systems Inc. -9- PC system Operations Manual Waste Water Systems Inc. The "Pert -Rite" system is a computer managed, drip disposal system. Computer management allows extremely accurate flow control and operator friendliness. By using pressure compensating dripper tube, even and controlled wastewater dispersal is achieved over the entire disposal area. This overview of the "Perc- Rite" system will present general system capabilities, as well as the site-specific options that are available. Combining state of the art computer controls with pressure compensating drip tubing provides an unmatched level of flow control. The "Perc-Rite" unit measures the effluent flow to the fraction of a gallon if required. It is this flow measurement, which is monitored by the computer that ensures each absorption area receives the design flow of effluent. Once the effluent is measured and leaves the unit, the pressure compensating drip tubing will disperse it evenly over the entire area. The "Perc-Rite" unit is controlled via a state of the art controller and three float switches located in the dosing vessel. The system is dosed on time, and the designed flow is distributed evenly over a twenty-four hour period. The system float switches are only to allow the system to monitor the level of the dosing vessel. The system can be run by either elapsed time or real time in either event when it is time to start a dosing cycle the system checks to see that there are no system failures, and also checks the status of the float switches to verify there is enough effluent in the dosing vessel to complete a dosing and a flush cycle. If any of the checks fail the system remains idle until the next time to start. If all checks are o.k. The system will start a dose to the current zone selected, and check the status of the zone to see if it is time to flush the zone. If no flush is required the system will pump the programmed dose to the zone while monitoring flow, if necessary the system will backwash the filters during this process. After the completion of the dose the system will shut down by closing the field valve(s) but may continue to run a pump for a preset time to ensure the proper closure of the field valve(s). This time is set by the factory at system startup if needed. The process is repeated on the next start time. If it is time to flush the field the system will complete a field flush cycle on the zone and then complete the normal dosing cycle. u The filtration package provided with the "Perc-Rite" unit is unmatched. The Spin - Klin filters are matched with automatic backwashing to protect the drip tubing from clogging by particles from the dosing vessel. The backwashing of the filters Waste Water Systems Inc. -10- PC system Operations Manual Waste Water Systems Inc. can be initiated in two ways. First, backwashing can be initiated by total flow 4L discharged through the system. The number of gallons, which will start a backwash cycle, can be customized to meet any sites needs. The second backwash triggering mechanism is a differential pressure switch. This switch acts as a fail- ' safe to ensure proper effluent filtration. The switch will measure differential pressure across the filter bank. When the pressure differential reaches a preset point the controller is told to start a backwash cycle regardless of flow through the system. This feature guarantees proper effluent filtration and flow even during periods of less than desirable pretreatment conditions. When the backwash cycle is triggered, the master valve closes allowing maximum pressure for backwashing. Then one filter valve changes states, thus taking the filter offline and blocking the flow of unfiltered effluent to the filter. Effluent is then filtered through the remaining filters and fed in reverse through the offline filter, thus causing the filter to spin clean and discharge the remains out the backwash line. After a short delay the process will be completed on each remaining filter. The whole process can be completed in about 25 seconds per filter with no reserve backwash water required. Automatic drip field flushing is another feature unique to the "Pere -Rite" system. ` This flushing allows the tubing to be scoured free of any buildup that might hinder performance. By cleaning the tubing, pipe, and manifolds, emitter clogging is eliminated. Thus the drip tubing will continue to deliver precise and accurate doses to the absorption area. The dripper lines are automatically set to flush after every 16 days of system operation. If any fields are not in operation they will still be set to flush after 16 days and they will flush the next time they are dosed. This function is activated by the controller which opens the field flush valve, thus in the flushed effluent to be returned to the retreatment tank. The duration allow P g of this cycle is approximately five minutes per drip zone section. The flushing action creates a high effluent velocity, which produces a cleaning action over the inside walls of the drip tubing and emitters. The "Pere -Rite" effluent disposal system integrates data logging and on-site monitoring with the operation of the system to produce unmatched system control, operator friendliness, and environmental safety. The data regarding flows can be opened into a spreadsheet to aid in recording. The operator will be able to download the days flows, as well as monthly flows from as far back as three months for daily flows, and 30 months for monthly flows. This aids large systems in complying with rules that require an accurate record of daily flows. Remote monitoring of the system is accomplished by the installation of remote monitoring software installed on the "Pere -Rite" system computer, which allows the manufacturer to remotely control the system from anywhere a phone line is present. Operators may also wish to purchase and install the software on home or Waste Water Systems Inc. -11- PC system Operations Manua ` Waste Water Systems Inc. .-; office PC's to allow remote access for retrieval log files or to check the status of u the system. In addition to simply monitoring these functions the unit can also control itself based on the data received. For example, if a line is broken and a zone is flowing freely, the unit will record the flow variance. If the flow variance is significant enough, not only will the condition be recorded, but the zone can be automatically taken off line to prevent further environmental contamination. The overall system will continue to run to allow for wastewater disposal in the unaffected zones while awaiting repair of the affected zone. The monitoring also records the zone, time, and date for each variance. This is an Invaluable aid in maintenance and troubleshooting. Along with the capability to enable or disable zones via the controller, the system can also incorporate moisture sensors in the disposal fields to prevent over saturation to any individual field. If it is not important to control the fields individually, but the overall disposal area must be monitored the system has an auxiliary input which may be attached to external devices such as a rain gauge. This input will stop the system from disposing of effluent until the event has cleared. Waste Water Systems Inc. - 12 - t'rpnp PC system Operations Manua Waste Water Systems Inc. #Er%% 11EW 3. CLIDNTROL UV KV Through extensive research, testing, and application Waste Water Systems Inc. has developed an automatic control system for drip distribution of effluent. Based on specific operational procedures the system gallons per day (GPD) is pumped from the dosing vessel at specific time intervals, through the filter unit, and distributed (dosed) to the drip zones at the designed loading rate of the soil. During the dose, insufficient and/or excess flow rates are tested. The control system performs preventative maintenance on the filter distribution unit and the drip distribution zones at their appropriate intervals. The control enclosure requires a dedicated 120vac power source to operate this does not include the power to operate any pump motors. The power to operate the pump motors will be determined by engineer specifications for each particular site. The control enclosure will some or all of the items below depending on the unit ordered. 1. Fuse Disconnects or Circuit Breakers. 2. Motor Starters and Overloads. 3. Phase loss monitors (if needed). 4. 2 - 24vac control transformers. 5. PC based controller with required I/O. 6. I/O termination blocks. 7. 5/12 vdc power supply. 8. External pump run lamps. 9. Hand -Off -Auto switch for each pump. 10. Emergency Stop switch. 11. External power on lamp. To understand how the system functions, the operator must know the function of T` each input and output of the controller. The following is a guide and a brief explanation of each. 3.1 Controller Inputs: (when illuminated the input is on). Flow Count - Proportion input from the system flow meter, one pulse equals one gallon. Auto - Operator selected with the front door switch. When Pump A set to Auto the controller automatically controls pump A. Waste Water Systems Inc. -13- wa PC system Operations Manual Waste Water Systems Inc. Auto - Operator selected with the front door switch. When Pump B set to Auto the controller automatically controls pump B. Delta - Input from the differential pressure gauge. When Pressure enabled it tells the controller to backwash the filters. Motor - Indicates to the controller that pump A is energized. Starter A This is used for pump redundancy. Motor - Indicates to the controller that pump B is energized. Starter B This is used for pump redundancy. System - Resets system failures when the front panel button Reset is depressed. Aux - Input for an auxiliary shutdown device. When on Shutdown automatic system operations are halted unless bypassed. Low Water - Lowest float switch in the dosing vessel. Pump cutoff safety switch, no automatic pump operations r are capable when this switch is disabled (off). However the H -O -A switches will still operate the pumps, but the operator is responsible for the level of effluent in the dosing vessel. Dose Enable - Middle float switch in the dosing vessel. Guarantees -.a proper dose volume in the dosing vessel at the start of a dose cycle. High Water - Highest float switch in the dosing vessel. This is a warning switch and is only reset when the condition clears. Irrigation - Only present when zone sensors are being used. Enable When on they tell the controller the zone is enabled. Zone 1-16 All inputs are DC Voltage Waste Water Systems Inc. -14- Alarm - When on, the system has a failure and the alarm PC system Operations Manual Waste Water Systems Inc. 3.2 Controller Outputs: (when illuminated the output is on). Pump A - When on, Pump A is on. Pump B - When on, Pump B is on. Priming - When on, the Priming Pump is running. Pump Filter 1-6 - When on, the filter is backwashing. All WWSI When on, this indicates the system is in a failure systems have at least 2 filters. Master - When on, the master valve is closed and the system Valve is in a backwash cycle. Zone - When on, the zone return valve is open and the Return system is in a field flush cycle. Pressure - When on, the pressure reducing valve is deactivated Reducing and the system is in a field flush cycle. Valve Alarm - When on, the system has a failure and the alarm All Field Valve outputs are 24vac and are isolated from the field valves via an isolation relay. Waste Water Systems Inc. - 15 - output is on, which can be connected to an external indicator. This may also indicate a communication problem between the I/O devices. Power - When on, Indicates the controller is functioning Avail. Properly. High Water - When on, this indicates the dosing vessel has a high water condition. Sys Fail - When on, this indicates the system is in a failure condition and will not run until reset by the operator. Zone 1-16 - When any one of these outputs are on this indicates the zone valve for that particular zone is open. All Field Valve outputs are 24vac and are isolated from the field valves via an isolation relay. Waste Water Systems Inc. - 15 - PC system Operations Manual Waste Water Systems Inc. f' To enable the system to operate in the automatic mode the following conditions must apply. a. Power must be supplied to the controller b. The float switches must be connected to the controller. C. The pumps must have power supplied and at least 4 one pump must be in the AUTO position on the front panel. d. All field valves must be connected to the controller. Once all of these conditions are true the system does not need any intervention from the operator to function, unless a failure of the system or an error occurs. c g -j �N Waste Water Systems Inc. -16- E PC system Operations Manual Waste Water Systems Inc. 4. SYSTEM' (Figure 1) 4.1 Each time the system is powered up the startup screen (figure 1) will appear. On the startup screen you will find some general information about the manufacturer of the system and the serial number of your system. This information may also be found on the manufacturers label inside the panel door. The serial number will may be needed to acquire support from the manufacturer. By pressing the System Window on the bottom of the screen the startup screen will close and the system screen (figure 2) will open. Waste Water Systems Inc. -17- PC system Operations Manual Waste Water Systems Inc. k. .6 - - -,I 5.1 The system screen (figure 2) is capable of showing all of the above information, The information being displayed will be determined by the status of the system therefore not all of the above information will be present at all times. Below is a brief explanation of the SYSTEM screen. 1. The WWSI button opens the startup screen (figure 1). 2. The Sys Status button opens the system status screen (figure 10), which is used for displaying and troubleshooting system warnings and failures. 3. The SEs Loi button opens the system log screen (figure 11), which displays system run and error information for that can be used for troubleshooting or monitoring system operation. Waste Water Systems Inc. -18- 9 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. Waste Water Systems Inc. The Data Loi button opens the data log screen (figure 12), which displays flow information for each individual zone as well as a total flow for all zones. This screen is a running total and is reset able by the user when the system is unlocked. The Floats button opens the float switch screen (figure 14), which displays the status of the systems three -float switches. Then Sensors button opens the zone status screen (figure 30), which displays the status of each zone (on/off) The Help button opens the main help screen (figure 31) were you could get information about the other screens. The Main button is only displayed when the system is unlocked. When pressed it opens the main screen (figure 15), which displays or grants access to the operating parameters for the system. The Dose Now button is also only displayed when the system is unlocked, when pressed it starts the next automatic dosing cycle. The Stop button places the system in maintenance mode and all automatic operations are halted until the Start button is pressed. (The start button only appears after the stop button is pressed) The Unlock — Lock button allows the system to be unlocked (figure 4) (with a password) or locked. Pumps A & B, shows the status of the pumps PRIMING is displayed when a priming pump is being used. The Filter battery displays the status of the filters and the Model Number of the system. The arrows on the filters will only be displayed when the filter is backwashing. The Delta Pressure gauge will display a red flashing dot in the center when the filters start getting dirty which will tell the system its time to backwash. Pressing the Flow meter opens the dosing screen (figure 29), which displays the dosing and flow information for each individual zone. The Master Valve is a normally open valve, which closes when the filters are being backwashed. The center of the valve body turns green when the valve is closed. The Zone Dosing window (figure 2a) only opens during a dosing cycle, here you can watch the dose volume counter and see the system taking GPM readings for comparison with the setup values. Waste Water Systems Inc. -19- f 'LAM ,h Na Qk PC system Operations Manual Waste Water Systems Inc. (Figure 2a) 19. The Field Valves are always displayed (one for single zone dosing and two for dual zone dosing) with the current zone number above valve A, and if a zone flush is in progress the ZF TIMER will be displayed below valve B. 20. The Status Window (figure 2b) displays real time information about the system as described below. 21. The View I/O button opens the I/O screen (figure 39), which displays all of the inputs and outputs and their current state. (due to communications speed the flow meter input may not display the correct state.) 5.2 (Figure 2b) Waste Water Systems Inc. _20_ A' PC system Operations Manual Waste Water Systems Inc. a. PC 16 - software version number. (always displayed) b. Current Time. (always displayed) C. Current Date. (always displayed) d. Day of the Week. (always displayed) e. NEXT ZONE ## - next zone to dose. (only displayed in ETD) f. Auxilary Shutdown — only displayed when the aux shutdown input is being used and is activated. g. System Failure — only displayed when the system has a failure that causes a shutdown. (must be manually reset) h. High Water Alarm — only displayed when the systems high water float switch is activated, and automatically resets when the condition clears. i. 1 7 — only displayed when the system has a high or low flow warning. j. PRIMING ## secs. - only displayed when the priming pump is running. k. DPMPS ## secs. — only displayed during the dual pump pressurization time. 1. Zone Flush >< - only displayed during a zone flush cycle. M. ZONE DOSE — only displayed during a zone dose cycle. n. Pressurizing #### - only displayed during system pressurization. o. Measuring GPM — only displayed when the system is taking a gallons per minute measurement for comparison. P. INITIAL TEST — only displayed during a dosing cycle before the first GPM measurement. q. Filter Backwash — only displayed during a filter backwash cycle. r. BW FLOW - #### - only displayed during a dosing cycle. S. DOSE ENABLE — only displayed when the dose enable float switch (normally open) is in the closed (on) position. t. LOW WATER — only displayed when the low water float switch (normally open) is in the closed (on) position. U. STOP ON FAIL / DOSE ON FAIL — one of the two will always be displayed depending on the current operating mode (STOP ON FAIL is the default mode). LJ Waste Water Systems Inc. -21 - zA PC system Operations Manual Waste Water Systems Inc. `l` 1r, U G JJ 5.3 On the initial startup the system will appear as in (figure 3) in the locked mode. In this state the system will function as programmed by the manufacturer and most of the system parameters will be visible to anyone by pressing the appropriate buttons on the screen, although nothing can be changed. Pressing the WWSI button will return you to the system startup screen. (figure 1) By pressing the Unlock button a question box will appear. (figure 4) (Figure 4) If the NO button is pressed the question box will disappear and the system will stay in the locked mode as in (figure 3). Waste Water Systems Inc. - 22 - PC system Operations Manual Waste Water Systems Inc. If the YES button is pressed you will be prompted to put in a password which is set by the manufacturer. After the correct password is entered the system will be unlocked and appear as in (figure 5). k- ,S- -,? In the Unlock mode the Main and the Dose Now buttons will appear. In this mode the system will still function as in the locked mode with the exception that selecting the appropriate buttons can now change most of the system parameters. Pressing the Lock button on this screen will relock the system. Waste Water Systems Inc. _23_ PC system Operations Manual kr figure o) 5.4 During a normal dosing cycle the system screen will appear as in (figure 6). From this screen you can see that both pumps are running and the system is dosing to Zone 8. You may also press on the flow meter to open the dosing screen (figure 29) to view more flow information for each particular zone. 5.5 During a Backwash cycle the system screen will appear as in (figure 7). From this screen you can see that the master valve (normally open) is closed and the system is backwashing filter 1 with pump B. 5.6 During a Field Flush Cycle the system screen will appear as in (figure 8). From this screen you can see that the system is flushing zone 1B with both pumps. During normal operation when setup for dual zone dosing the system opens two field valves (A and B) at one time, but during zone flushing each zone is flushed individually. From this screen you may also view the ZF Timer counting down. The flushing cycle takes place before the dosing cycle starts therefore at the end of the flushing cycle the system will run the dosing cycle for the zone that has just completed flushing. Waste Water Systems Inc. -24- PC system Operations Manual Waste Water Systems Inc. -25- i PC system Operations Manual Waste Water Systems Inc. 5.7 During a normal dosing cycle (figure 6) when the system has a failure the system screen will appear as in (figure 9). Failures will always appear in red but only when the System Failure appears in the status window (figure 2b) dose the system shut down until reset by an operator. To view the type of failure press the &s Status button to open the system status screen (figure 10). This screen will tell what failed and the reason for the failure, -: and the failure may also be reset from this screen if the system is E unlocked. ki, ar,Ulu �7) Waste Water Systems Inc. -26- t PC system Operations Manual Waste Water Systems Inc. (Figure 10) 6.1 The system status screen (figure 10) shows the system failure and system warning information as well as the status of the auxiliary shutdown input. Information only appears on this screen when there is a warning or a failure therefore some of the information in (figure 10) may not always be present, and the Reset Errors button only appears when the system is unlocked. From this screen (figure 10) we can see pump failures, XSDP failures, Initial check failures, and high / low warnings and failures for each individual zone and No Flow conditions. Pressing the Return button returns you to the system screen. (figures 4 & 5) Waste Water Systems Inc. -27- PC system Operations Manual Waste Water Systems Inc. i (Figure 11) 7.1 The system log screen (figure 11) shows the system run and error information with time and date stamps. This screen is very helpful in watching the system over a long period of time because not only dose it show errors, but it also displays float switch status and zone information such as which zones have been turned off or on. As in (figure 11) we see at 10:12:30 on 12/12/01 zone 1 was turned off at the CPU. Pressing the Return button returns you to the system screen (figures 4 & 5) If the power is removed from the system this log is reset but a backup is also saved under C:\my documents\syslog. The files are continuously backed up. The filenames will be the date for each particular file. (Ex: Rd011211.alm (year month day)) The files can be opened in just about any word processing program. Waste Water Systems Inc. -28- PC system Operations Manual Waste Water Systems Inc. DATA LOG INFORMATION Flow to Zone 1 = ############# gallons. Flow to Zone 2 = ############# gallons. Clear Flow to Zone 3 = ############# gallons. Flow to Zone 4 = ############# gallons. Flow to Zone 5 = ############# gallons. Flow to Zone 6 = ############# gallons. Flow to Zone 7 = ############# gallons. Flow to Zone 8 = ############# gallons. Flow to Zone 9 = ############# gallons: Flow to Zone 10 = ############# gallons. Flow to Zone 11 = ############# gallons. , Flow to Zone 12 = ############# gallons. Flow to Zane 13 = ############# gallons. Flow to Zone 14 = ############# gallons. Flow to Zone 15 = ############# gallons. Flow to Zone 16 = ############# gallons. Pump A roan time = ####.# minutes Pump B run time = ####.# minutes Total Filter Backwashes = ########## . Filter Backwashes initiated by DP = ########## . Filter Backwashes initiated by FLOW = ########## Filter Backwashes initiated MANUALLY = ########## . Total ZONE FLUSHES = ########## TOTAL AUTOMATIC FLOW= ################ gallons. (Figure 12) 8.1 The data log screen keeps a running total of the system flow information. The data log screen can be cleared and/or printed (if a printer is installed) by pressing the Clear or Save buttons. When the system is locked the Clear and Save buttons will not be present. The system also keeps daily and monthly flow totals, which are not affected by clearing the data, log screen. Pressing the Save button the data log screen will appear as in figure 12a. Inserting a disk into drive A and pressing the Save button will save the current data log information to the disk which may be opened by most word processing programs. Pressing the Return button closes the save window without saving. Waste Water Systems Inc. -29- PC system Operations Manual Waste Water Systems Inc. DATA LOG INFORMATION Flow to Zone 1 = ############# gallons. Flow to Zone 2 = ############# gallons. Clear Flow to Zone 3 = ############# gallons. Flow to Zane 4 = ############# gallons. Flow to Zone 5 = ############# gallons. Flow to Zone 6 = ############# gallons. Flow to Zone 7 = ############# gallons. Flow to Zone 8 = ############# gallons. Flow to Zone 9 = ############# gallons yrs dr4ate Flow toZone 10 =############# gallons ">nS@tt �nA �� #henacs have ##ra Flow to Zone 11 = ########### gallons Flow to Zone 12 = ############# gallons �r ees x Rei 1 cncet Flow to Zone 13 = ############# gallons l b ar k Flow to Zone lel = ############# gallons � ik s t Flow to Zone 15 = ############# gallons `< Flow to Zone 16 = ############# gallons Pump A run time = ####.# minutes „p � Pump B run time = ####.# minutes Total Filter Backwashes = ########## Filter Backwashes initiated by DP = ########## . Falter Backwashes initiated by FLOW = ########## . Filter Backwashes initiated MANUALLY = ########## . Total ZONE FLUSHES = ########## . TOTAL AUTOMATIC FLOW= ################ gallons. (Figure 12a) Pressing the Monthly button the monthly log screen (figure 13) will appear. Pressing the View Button will allow you to access the historic log files explained in section 16. Pressing the Return Button returns you to the system screen. (figures 4 & 5) Waste Water Systems Inc. -30- PC system Operations Manual Waste Water Systems Inc. K AOL 9. M NTH L%Y-' LO" G SCREEN (Figure 13) 9.1 To open the monthly log screen you must first open the data log screen. The monthly log screen shows the system flow information for the current month and resets itself at midnight on the first of every month. Pressing the Return button returns you to the data log screen. (figure 12) Waste Water Systems Inc. -31 - fits PC system Operations Manual Waste Water Systems Inc. 10. FLOAT SWITCH SCREEN 5 (Figure 14) £ The floats screen (figure 14) shows the status of the systems three normally open float switches. Pressing the Return button returns you to the system screen (figures 4 & 5) 10.1 The Low Water float switch is on the bottom and is used as a pump safety switch to ensure the pumps do not run dry. The system will never start in automatic if the low water float is not on (closed), and if the low water switch opens during a cycle the system will stop the cycle. When the switch in on (closed) it will be green on the float switch screen. There is a sixty second delay (debounce) from the time the float switch closes till the float switch turns green on the float switch screen to prevent the float from bouncing on and off. You can watch this time count down in the center of the switch on the float switch screen. When the system is unlocked the operator may change this delay time. 10.2 The Dose Enable float is in the middle and is used to ensure there is enough effluent in the dosing vessel to complete a Field Flush and a Dosing Cycle to the largest zone. The system will not start a dose cycle in automatic if the dose enable switch is not on (closed) however unlike the low water float, the system will continue to run if the dose enable float opens during a cycle. The dose enable float switch functions the same on the float switch screen as the low water float. Waste Water Systems Inc. - 32 - 0— PC system Operations Manual Waste Water Systems Inc. 10.3 The High Water float switch is on the top and is used to alert the operator of a high water condition in the dosing vessel. Unlike the low water and dose enable floats the high water float switch is red on the float switch screen. Also unlike the low water and dose enable floats the system will continue to run weather the high water float is on or off, it is just used as a visual indicator for the operator. The high water float functions the same on the float switch screen as the low water and dose enable floats. Waste Water Systems Inc. - 33 - PC system Operations (Manual Waste Water Systems Inc. 1I . MAIN SOR EEN (Figure 15) The Main screen (figure 15) is only accessible when the system is unlocked, most of the system parameters can be accessed and/or changed from this screen. Pressing the Return button returns you to the system screen. (figures 4 & 5) 11.1 Number of Zones shows how many zones the system is setup for and to the right it shows the maximum number of zones capable when running one at a time. PC 16 means 16 zones, PC 24 means 24 zones, and PC 32 means 32 zones. These maximum numbers are divided by two if the dosing technique is dual (2) because in dual zone dosing mode 2 field valves equal one zone. Pressing on the zones number and entering a new number can change the number of zones. Be Careful if you enter 9 and you only have eight field valves the system may try to run zone 9 and will cause a system failure. Waste Water Systems Inc. - 34- r ( PC system Operations Manual E Waste Water Systems Inc. 11.2 Dosing Technique is set for one or two, one being single zone dosing (one field valve at a time) and two being dual zone dosing (two field valves at a time). Pressing on the dosing technique number and entering a new number can change the dosing technique. The system will only allow a one or two. 11.3 Backwash by Flow shows the number of gallons to flow through the meter in automatic before the system backwashes the filters. This number can be fairly high because the differential pressure gauge will always start a backwash if the filters get dirty. Pressing backwash by flow gallons and entering a new number can change this number. After entering the new number the filters screen (figure 16) will appear so the filter dwell and duration times can be changed. The duration is the time each individual filter washes and the dwell is the time between each filter. The filter screen will be different according to the number of filters on each system. Pressing the time to change and entering a new time can change the times (although the factory defaults are usually sufficient). Pressing the Return button will close the filters window. (Figure 16) 11.4 Next Zone shows the next zone to run when a dosing cycle starts as long as that particular zone is not failed or turned off. Pressing on the Next Zone number and entering a new number can change this. Next Zone will not be displayed in when the system is in RTD. 11.5 Select Dosing Routine allows you to select either ETD (elapsed time u dosing (Ex every 60 minutes)) or RTD (real time dosing (EX 1300 (1:00 p.m.))). Pressing either ETD or RTD will open the dosing routine window one of two ways depending on which mode the system is already in. 11.6 The ETD dosing window (figure 17) allows you to change to real time dosing by pressing the ETD button and selecting RTD. From this window you may also change the elapsed time interval by pressing the elapsed dose time button and entering a new dosing time. Pressing the Return button will close the ETD dosing window. Waste Water Systems Inc. -35- PC system Operations Manual Waste Water Systems Inc. Select Dosing Routine ETEi Recut t? e Elapsed Dose Time mirlutes between Dose startirig. (Figure 17) 1. Pressing the Elapsed Dose Time button will allow you to change the elapsed time interval 2. Pressing the Manual Set button will open the elapsed time counter (figure 18). Once open you may change the count by pressing it and entering a new count. Pressing the Return button will close the elapsed time counter. (Figure 18) 11.7 The RTD dosing window (figure 19) allows you to change to elapsed time dosing by pressing the RTD button and selecting ETD. From this window you may also change the real time settings by pressing zone dose times e'. button to open the dose number and start times screen (figure 20). Pressing the Return button will close the RTD dosing window. Select Dosing Routine Zone Dose Times Dose startingtimolsl 24hour format. r (Figure 19) Waste Water Systems Inc. -36- rig y J L w '4 twas PC system Operations Manual Waste Water Systems Inc. 11.8 The dose number and start time screen (figure 20) allows you to set up to 32 individual start times every 24 hours, and you can select the zone that starts at that time. From this screen you may change any of these settings by pressing the setting to be changed and entering a new one. You may also add or remove start times by pressing the Set button and entering the number of start times required every 24 hours from 1 to 32. Pressing the Return button will close the dose number and start time screen. (Figure 20) Waste Water Systems Inc. -37- 0 PC system Operations Manual Waste Water Systems Inc. to 11.9 Pumps button allows you to enable or disable pumps and to set various pump run times. The pumps window (figure 21) shows the system setup to run dual pumps for 60 seconds to pressurize the system at the beginning of each dosing cycle. It also shows the priming pump as being disabled. To change the dual pumps time press the seconds button and enter a new time. To disable dual pumps press the dual pumps button and select disable. Pressing the Return button will close the pumps window. (Figure 21) 1. To enable the priming pump press the priming pump button and select enable. The priming timer will appear on the pumps window (figure 22). To set the priming time press the seconds button and enter a new time. Pressing the Return button will close the pumps window. (Figure 22) Waste Water Systems Inc. -38- PC system Operations Manual Waste Water Systems Inc. 11.10 Zone Setup Values allows you to view and change the setup values, warning parameters, and fail parameters for the system. Pressing the zone setup values button will open the GPM window (figure 23). (Figure 23) You must always press the Set button after making changes on this screen for the changes to take effect. 1. From the GPM window (figure 23) you can change the setup value for each individual zone (the setup value is the number the system uses to compare the GPM readings to that it takes during a dosing cycle). To change the setup value press the GPM next to the zone you wish to change and enter a new value. Pressing the Return button will close the GPM window. 2. The set points warning is the percentage above and below the setup value the system can flow before a System Warning appears. The default setting is 20 but it may be set from 1 to 99 by pressing the and opening the warning window (figure 24). Waste Water Systems Inc. -39- PC system Operations Manual Waste Water Systems Inc. (Figure 24) 3. To change the warning point, press the number box and enter a new number. Pressing the Return button will close the warning window. 4. The set points failure is the percentage above and below the setup value the system can flow before a System Failure appears. The default setting is 50 but it may be set from 1 to 99 by pressing the FAILURE and opening the failure window (figure 25). (Figure 25) 5. To change the failure point, press the number box and enter a new number. Pressing the Return button will close the failure window. 6. From this window you may also change the Fail Mode Operation by pressing the current mode and selecting either STOP ON FAIL or DOSE ON FAIL. Waste Water Systems Inc. -40- PC system Operations Manual Waste Water Systems Inc. Stop on fail causes the system to stop dosing each time a zone fails until reset by an operator. Dose on fail stops the failed zone from running until reset by an operator but allows the system to continue running the other zones. (NOT RECCOMMENDED) In the GPM window you may also change the Fail Mode Operation by pressing the current mode and selecting either STOP ON FAIL or DOSE ON FAIL. Any time a change is made in the GPM window the Set button must be pressed to allow the system to recalculate the new parameters. Whenever the Set or the min/max buttons are pressed the setpoints window (figure 26) will open. Pressing the Return button will close the set points window. (Figure 26) Waste Water Systems Inc. -41 - PC system Operations Manual Waste Water Systems Inc. 11.11 The Zone Dose Values window allows you to view and change the dose volumes and the pressurization times for each individual zone Pressing the zone dose values button will open the dose volume window (figure 27). Pressing the Return button will close the dose volume window. 11.12 From the dose volume window (figure 27) you can change the dose volume for an individual zone by pressing the gals next to the zone to be changed and entering a new value. You may also change the pressure time in this window by pressing the secs next to the zone to be changed and entering a new value. (Figure 27) -, Waste Water Systems Inc. 01 -42- E r - PC system Operations Manual Waste Water Systems Inc. 11.12 The Zone Flush Counters window allows you to view the days since the last zone flush. Pressing the zone flush counters button will open the zone flush window (figure 28). Pressing the Return button will close the zone flush window. The zones are set to flush every 16 days therefore every time a count reaches 16 that particular zone will be set to flush the next time it is called to run. After a zone is set to flush it will remain set until it runs therefore if a zone is disabled for more than 16 days it will flush the first time it is restarted and then continue to flush every 16 days. You may also manually set a zone to flush by pressing the zone number and selecting turn on. The number will turn red and that zone will be set to flush the next time it is called to run. To disable the manual setting press the red zone number and select turn off. (Figure 28) Waste Water Systems Inc. —43— F `9 ;A �k raj lk" PC system Operations Manual Waste Water Systems Inc. 11.13 The system is equipped with one normally open input, which may be used by the operator to connect a rain gauge or other external device to stop the system from running until the event has cleared. By pressing the auxiliary shutdown Brpass button the operator can bypass the input signal from this device so the system will keep running. 11.14 The original factory defaults Set button will return the system to its original factory setting which were determined by the job engineer according to the site conditions. Waste Water Systems Inc. -44- PC system Operations Manual Waste Water Systems Inc. (Figure 29) 12.1 By pressing the flow meter on the system screen (figures 4 & 5) you will open the dosing screen (figure 29). The dosing screen allows you to view the dose volume, last GPM, and setup value for each individual zone. This screen also allows you to view the real time flow information as a zone is running. Pressing the Return button will return you to the system screen (figures 4 & 5). If the system is unlocked you may change the flow or dose information by pressing the information you wish to change and then entering the new information. The GPM and setup information may not be changed from this screen they are here for information and troubleshooting only. Waste Water Systems Inc. -45 - PC system Operations Manual Waste Water Systems Inc. jqW 0 - - M w6i, R1 I 1 0 IR (Figure 30) 13.1 By pressing the Sensors button on the system screen (figures 4 & 5) you will open the zone status screen (figure 30). The zone status screen allows the operator to see the condition of the zone (on or off). Pressing the Return button will return you to the system screen (figures 4 & 5). J If the system is unlocked you may enable and/or disable zones by pressing on the green or red dot under the zone number. A green dot under the zone ' number means the zone is enabled. A red dot under the zone number means the zone has been disabled. -'-' If you have zone sensors connected to the system they may also disable the zones. If the Zone # is blue the zone is enabled. If the Zone # is red as r' in Zone 16 (figure 30) the zone is disabled by the sensor. If either the dot under the zone number or the Zone # are red the zone will be disabled. Waste Water Systems Inc. -46- PC system Operations Manual Waste Water Systems Inc. (Figure 31) 14.1 By pressing the Stop button on the system screen (figures 4 & 5) you will open the maintenance screen (figure 31). The maintenance screen lets everyone know there is some type of maintenance being performed on the system do not start the pumps. Whenever the system maintenance screen is on all -automatic system operations are halted. Pressing the Start button will remove the system from maintenance mode and return you to the system screen (figures 4 & 5). Waste Water Systems Inc. -47- PC system Operations Manual Waste Water Systems Inc. By pressing the Help button on the system screen (figures 4 & 5) you will open the PDF version of this manual. Closing the PDF file will return you to the system screen (figures 4-& 5). Waste Water Systems Inc. -48- PC system Operations Manual Waste Water Systems Inc. 16. DAILY /IR A imurNTHLY LOGS Along with the reset able Data Log Screen (figure 12) the system also logs daily and monthly flow information to the computers hard drive at 8:00 a.m. for retrieval by the operator. The system stores 90 days of daily logs and 30 months of monthly logs. On the 3lst and 91St day the newest file will over write the oldest log file. 16.1 To retrieve a log file press the Data Log button on the system screen (figure 2). When the data log screen opens (figure 12) press the View button. When this button is pressed the system will open a word processing program that will be used to open and view the log file (figure 33). (Figure 33) 1. When the program is open press the file open button and the open box will appear as in (figure 34). Waste Water Systems Inc. -49- �7 I : r �AA f'N�l iso i ISS pwm I L.4 PC system Operations Manual Waste Water Systems Inc. (Figure 34) 2. When the open box appears (figure 34) select either the daily or the monthly folder and press the open button. 3. After the open button has been pressed, from the Files of Type drop down box select All Documents as in (figure 35). 96 daily I e. 12i222L- Word for Windows ('.doe) Windows Write ('. wri) Rich Text Format ('.rtf) Text Documents ('Axt) Text Documents - MS-DOS Format ('Jxt) (Figure 35) Waste Water Systems Inc. - 50- k" 5A 6 Word for Windows doc) A R 12i222L- Word for Windows ('.doe) Windows Write ('. wri) Rich Text Format ('.rtf) Text Documents ('Axt) Text Documents - MS-DOS Format ('Jxt) (Figure 35) Waste Water Systems Inc. - 50- PC system Operations Manual Waste Water Systems Inc. 4. After the All Documents [*.*] has been selected a list of daily or monthly files will appear in open box (figure 34). 5. From the list of files select the file to be viewed as in (figure 36). The files are saved by date and will look as follows, - (Rd020330) the first two letters (Rd) stand for remote daily so this would be a daily file. A monthly file would begin with the first two letters of (Rm). The rest of the file name is read as follows (yymmdd), therefore (Rd020330) would be remote daily (Rd), 2002 (02), March (03), 30' (30). Since the computer logs at 8:00 a.m. this example would be the daily log file for March 29Th at 8:00 a.m. to March 30ffi 8:00 a.m. (Figure 36) 6. After you have selected the file to be opened press the open button and the screen will appear as in (figure 37). Waste Water Systems Inc. -51- r PC system Operations Manual Waste Water Systems Inc. Date A Time Zone 1 Gallons Daily Zone 2 Gallons Daily Zone 3 Gallons Daily Zone 4 Gallons Daily Zone 5 Gallons Daily Total Flow Daily Total Backwashes Daily Total DP Backwashes Daily Total Flow Backwashes Daily Total Zone Flushes Daily Pump ,A Run Time Daily Pump'B Run Time Daily 2002/30103 07:59:55 3000 3000 3000 2000 2000 13000 5 0 5 1 60.6 73.0 (Figure 37) 7. The processor sends the data to the computer in a serial format first sending the definitions of the data and then sending the actual data therefore a little interpretation is required to understand the data, (figure 38) displays how the data is read. 8. Closing the word processing program will return you to the data log screen (figure 12). Waste Water Systems Inc. -52- PC system Operations Manual r Waste Water Systems Inc. (Figure 38) The sending of the daily and monthly log files are initiated via a trigger from the computer, therefore if the computer is turned off or in the maintenance mode (figure 31) the log files cannot be written and will be lost for that day. PC system Operations Manual Waste Water Systems Inc. (Figure 39) 17.1 By pressing the View I/O button the 1/0 screen will appear showing the current status of the input and outputs. Only one of the output boards labeled RACK 3 will be visible determined by the dosing technique. (The flow meter input may not function due to the communication speed between the cpu and the controller.) Waste Water Systems Inc. - 54- X40 PC system Operations Manual Waste Water Systems Inc. 8 "'PERATIONAL . U0 i k""ol Waste Water Systems Inc. -55- Turn on power for pumps and controller Turn on YES ? breakers in power light '�> - controller s emergen> \ Turn on the Pull touch YES ____< emergency stop button screen stop button depressed ? computer Contact authorizedin", personnel to ensure G<screoestartup as - - ---- "'FDouble scl�icklthe LAS tem icon power is connected in fig system s: the start{ Press the System S' �--YES-�Scn the appear Window button as in fig. Check the es the syste� Contact communication using es appear as Wastewater or the troubleshooting in fig. 5 6� Systems Inc. chart switches are in auto and place the H - O -A switches in The system is now ready and will run as programmed the syste UNLOCK window present ,I as in fig. 3 N Ukw Return to the YES system window as in fig. 3 M Is the Unlock Check the button present Press the Unlock password button Y S i System already unlocked o you wish 17unlock the YES- Enter the O system password NO System remains Is the Lock the syste locked button present LOCK window present as in fig. 5 !rtti I .;,., N I A System unlocked Return to the anyone can system window as access and ._, YES in fig. 5 change data Is the Lock button present YES Press the Lock System locked against unauthorized button changes N System already locked should reset any errors return the screen to the stem window as in fig.5 A the systerii,, window present 'a§ in fig. 3 orX Return to the system window Press the Sys Loo button 'appear as in fig. 11 with system run an error Press the Return button to return to the system window ,19 the system-, window present min fig. 3 ofO Return to the system window Press the Data Loco button Do you wish U clear the data log i Pressing the clear button has no effect on the daily or monthly logs. Is the Clear YE -S- press the Clear utton present button to reset all fields to zero The system is locked. Unlock the Fbon ss the Return system to clear to return to system window The data log screen is a running totalizer that is reset able by the operator. This is not the same as the daily he data log and monthly logs which are will appear as not resetable. in fig. 12 with system flow Do you wish U clear the data log i Pressing the clear button has no effect on the daily or monthly logs. Is the Clear YE -S- press the Clear utton present button to reset all fields to zero The system is locked. Unlock the Fbon ss the Return system to clear to return to system window MOM YES tN �Iiki Return to the system windowPress the Data Loc button The data log screen is a running totalizer that is reset able by the operator. This is not the same as the daily he data log and monthly logs which are will appear as not resetable. in fig. 12 with system flow nformation. k i [Press the Monthly button The monthly flow screen is the current monthly flow information for the present month. It will automatically reset on the first of every r month, and is not user I resetable. -ti Y V Press the Return button to return to ---a the data log window tea, Press the Return button to return to the system window 'psi_ —Mom t — ..................... ....-- --YES is Return to the 10. system window [P:ressheFloatstton The low water and dose enable floats will appear green when they are on and &mation. the high water will appear red. h Debounce time is the time the float must be continuously made before the controller recognizes them as on to prevent the D ou wi to float from causing the input rbutton s the Return change the to bounce on and off. to return to debounce stem window imes YES -' Touch the float to Touch the float to be changed. be changed. a I oes the da The system is input screen Y€S..... YES locked appear Enter a new value in seconds. � ire o you wish change another float Nj �O rbutton s the Return to return to stem window A the systdh, window present 's in fig. 3 o�,F Return to the o the Dos The system is system window - Now and Main©— locked. �ttnnc an Press the Main button /The main screen MH appear as in fig. 15 all of the system parameters can be accessed from this \ screen Press the Return button to return to the system window As the main\ screen present �,@s in fig. 1 j Go to the main Press the # in the screen center oft e dosing technique In single zone dosing valves = 8 zones. In dual zone dosing 8 valves = 4 zones. Enter a 1 for single or a 2 for dual. Press the Return button to return to the system window This is the number of gallons between filter backwashes This is the amount of time each filter washes and the rest time between filters +vxq tf:B� >=a s the main screen present —...__..................Y.ES.___.__ !: <_ sin fig. 15 N I rc Go to the main Press the # in the screen center of the backwash by flow box. number rEnter between ashes } Press the Return hange filte button to return to—N9 wash and dwell ' the main window times I YES wash times Press the Return flowchar button to return to t to the system window change .a Lrz i This is the number of gallons between filter backwashes This is the amount of time each filter washes and the rest time between filters As the main\ screen present '-,as in fig. 1 j Go to the main Run the view/ screenk—� change backwash by flow flowchart Fhe filter dwel duration window appears as in �, fig. 16 Tess the duration or dwell time next to the filter to be Enter a new value in seconds. Change Duration is the time the filter washes, dwell is the time between filter washes. Press the Return button to return to the main window Press the Return button to return to the system window Go to the main Press the number s en in the center of the I nextzonebox. Enter number for the next zone Press the Return button to return to the system window When dosing by real time the next zone box will not be visible. s the main screen present YES n Ig. 1 5 as! %.S Go to the main Press the number s en in the center of the I nextzonebox. Enter number for the next zone Press the Return button to return to the system window When dosing by real time the next zone box will not be visible. As the main\ screen present ,,as in fig. 15/ Go to the main screen Press the ETD/ RTD button in the select dosing Press the elapsed dose time button Enter a new dose interval Press the Return button to return to Press the Return button to return to Dose interval is the time in minutes between dose starts BE As the main\ screen present ,,@s in fig. 15/ Go to the main Press the ETD/ screen RTD button in the select dosing ' The dosing routine box will appear asin fig. 17 Press the select dosing routine button Select ETD or RTD Press the Return button to return to Press the Return button to return to ETD — elapsed time dosing sets the system to run every XX minutes. RTD — real time dosing sets the system to run at exact real times As the main\ screen present ,,@s in fig. I §Z Go to the main Press the ETD/ screen RTD button in the select dosing routine box Press the manual set button /The minutes until dose start window will appear asin \ fig. 18 Press the minutes in the minutes until the dose start box tz,' From here you can manually configure the next dose to start by changing the minutes until the next start Press the Return Enter the number button to return to of next dose start the select dosing Press the Return button to return to Press the Return button to return to '-i Press the Return, Press the Rs button to return to V"iew/C"hange button to return to the select dosing Real is Dosing 1h.e-Trialin. wi.n.42 routine window. ...... . ... As the main`- < ' screen open as,> yes in fig. 15 button to return to the system windowlt Run the View Main ------- Press the ETQ/ i RTO button in the Screen flowchart select dosing routine box 1 M— ff—A-ewl r) the s�-'t change dosing _4 -no- easing routi routine flowchart --,box appear and select RM "'Ip fig, 19 Press the zone dose times button Here you can select the time you want a dose to start Here you can select which zone to start at a particular time. -a new zone €ceSelect the zone to number Pis chance, Change yes other zone ,,'' no The Dose number and start times window will appear as in fig. 20 : r a new start I- -,' Change '- anotherstart ' time " number yes amber of '>Prege-I doses Z yes 'w- ss the --- 6-4— 4ed the start time to be Changed Enter a new Press the Return, Press the Rs button to return to button to return to the select dosing 1h.e-Trialin. wi.n.42 routine window. ...... . ... Press the Return button to return to the system windowlt Enter a new the mai,, <screed open as > ","Jnfigi. 15 yes Run the View Main Press the Pumps Screen flowchart button in the pumps box The Pumps box will appear as in fig. 21 or 22 Press the Dual Pumps Time yes button and enter the time the dual disable dual 1, PUMPS " pump time PUMP Prthe ,ChancPrimi=Ti" < yes priming r button an enter time the time the priming pump Press the Return button to return to the main window , Press the Return Ltbutton,,to, return to he system window th Press the Dual 1, umRs button and 1 select enable or Press the Priming PtnMI! button and select enable or disable Run tate View Main Press the Zone Screen flowchart Setug Values button The Gallons Per View/Change Minute window wiflthe Run tate View Main Press the Zone Screen flowchart Setug Values button The Gallons Per Minute window wiflthe Press t GPM for appear as in fig. 23 the zone to be changed i Enter the new yes GPM L Change i (( Press the set na-✓l *„another Zone ,r' button The setup parameters window Press the E$, Et_I will appear as in fig, button to return' 26 1 the Gallons pe You cons press the minimax button at any time to view the setup parameters button to return tc Press the Return button to return to :he system window screen open as `:es f fail mods f%` yes Press the FAIL --p-1 Select either Close "-,,operation in fig. 15 MODE on Fail or Stop on -' p �FRittl Fail. a e �ijnute windowJ Press the Return wilI appear as in fig. t Run the mew Blain no �l Stop on Fail is the factory the Gallons per , Press the Barre ; Screen flowchart button Setrgfues I the setup parameters button f N5 h The Gallons'per Press the Return �. t Minute window will l appear as in fig. 23 button to return to the sustern window the main window mer?. `3* J ll�a r a in g :...:.... t willpp F the n�fmber 25 bss under the FAH URIE —' /'-The Warning box -ess the number ; ( will appear as in fig. box under the 24 mange i ne,;, Press the Return set points �>button to return to ~Pres #allure rf i the Gallons per , and 13resstne�eetrrrr� ; cumber button to return to f fail mods f%` yes Press the FAIL --p-1 Select either Close "-,,operation anew the Gallons per MODE on Fail or Stop on -' p �FRittl Fail. a e �ijnute windowJ Press the Return wilI appear as in fig. t button to return to i no �l Stop on Fail is the factory the Gallons per default an is recommended Press the Set Minute window button / The setup '; parameters window tl Press the Return wilI appear as in fig. t button to return to i 26 I the Gallons per You con press the minimax �; i Minute window button at any time to view _ the setup parameters Press the Return �. � Press the Return button to return to button to return to the sustern window the main window eenopenas>,--- In fig, 15 yes Run the View Main Press the -Zp-n_q Screen flowchart Dose Valtpes button The Gallons per Dose window will appear as in fig, 27 Press the DOSE for the zone to be changed Enter the new yes DOSE value Change Press the Return button to return to the main window Press the Re um button to return to ;he system window "R F View/u'-"'hange- Dose Values Press the DOSE for the zone to be changed Enter the new yes DOSE value Change Press the Return button to return to the main window Press the Re um button to return to ;he system window open as > a. 15 -' yes Run the View Main I Press the Pumps Screen flowchart button in the pumps box The Pumps box will appear as in fig, 21 or 22 Press the Dual Pumas Time btifton and enter the time the dual Press the Priming Tin'te 4 yes button and enter the time the priming pump runs. Press the Dual disable dualyesl'-.PumRsbutton an Pumps ZX I select enable or time I- Enable or,, l Press the isable priming yeses PLIming P PUMP Z button and select enable or disable no, Change priming pump >-4 time Press the Return button to return to the main window Press the Return button to return to :he system window .en open as n fig. 151, yes Wn the View Main Press the ne Screen flowchart Flush Counters button The Intervals between ZONE FLUSH window will appear as in fig. 28. 1 11. -yes cycle? Press the Value for the zone to be changed Enter the new I Yes; Value, ... . . .... . Change ,,a nother Zone,.> Press the Return button to return to the main window Press the Return button to return to the system vvindov Press the Zone number to be activated. Press the turn on yes button activate yes t no If Return to the I_ _ ---- system window the FLOWMETER p Vo, --. hange Dosing ✓ --k total and only displays flow dosing serer when the zone Is running.. ,the mill appear as in fig. t ._ 29 showing the Return to the I_ _ ---- system window the FLOWMETER p The current flow is a running ✓ --k total and only displays flow dosing serer when the zone Is running.. ,the mill appear as in fig. t ._ 29 showing the current flour, dorsa volume last GP and setup value, The system must b unlocked to change any information in this screen. To unlock the system go to the r Do-foU wishto Unlocklock Vowchart. rchance the'` current flow tY� m Press the flow Aon for the zone Eater a new flour value l Dress the Return E button to retum to the system window vindow present"> — I ,,,as in fig, 5i yes Return to the system window The Zone Status screen will appear as in fig. 30 showing the condition of the " zones (on/off) Press the dot inderthe zone be changed vim. Press on or off Change ther zone ?a-> Press the HVLqLn- button to return to the system window i The system must be unlocked to change the current condition of any zone. Turning off a zone will cause the dosing cycle to be yes skipped each time that zone is to run. gas in f. 6 Return to the system window yes Press the m buttion Maintenance in Progress Press the%-aft— button to return to the system vAndow4 WWII Mz:l 1W 11LAV Mode Ae in MaInteftanCe! mode operationsaer {s'the system, window presentMonthly Logs '` akin fig. 3 or yes l tel;processipg Return to the ? system window Press the Hata -"-� r.. tton i iso button Using the look in j - .- The data log screen is a Press the open running totalizer that is reset drop down list able by the operator. This is. opened as in P % ` �, log not the same as the daily e data screen will appear as in fig. and monthly togs which are l 11 92 with a running not reset able. - �� total ofthe systerrz *: flow lnfor€natlon ! monthly folder. —� — The system must be ,;`he data for the , unlocked for the view button �_= to be present. day or month that setas selected will (, i the list of files select the file tel;processipg A word -"-� f The open box Using the look in j i program will be Press the open lam{ will appear as drop down list opened as in P % ` folder on the in fig. 34 open the daily or i r �; fig. 33 /r rvlridowstQolbar. *: monthly folder. —� ,;`he data for the --From �_= day or month that setas selected will (, i the list of files select the file Using the Files of type select All yes \appear as'in fig. j to be opened as in Documents r.'j as ? 37 jj fig. 38 ,nd press the button. in fig. 35 The file names are translated -you as follows. D6 wish to, open another `4> Rd =daily Rm = monthly file ? file name Rd02O330 would be a daily log file for 2002 - march - 30"' no Rd02 - 03 - 30 s. Press the close ;X] j button on the word z processor. To return to the data log screen. Press the Return mutton to return to F i the system window PC system Operations Manual Waste Water Systems Inc. 19. LESHOOTING 9 Waste Water Systems Inc. - 56 - setup mss 4's the last orrect / , 0 Use rite Viewl /'"'`� Changs setup Use the View] values chart to i Reset Errors chart enter the: correct to determine the setup value, zone which has the zone in failed love flow. zone flush to on question. Use the View/ �;' for the zone in , Change Dosing question. Screen Chart to view the last GPM This may indicate i the failed zone . - ran, And ensure the setup value is orthatthe zone correct, setup mss 4's the last orrect / , 0 Use rite Viewl /'"'`� Changs setup the sysi values chart to i <- single zo enter the: correct dosing setup value, f Go to the troubleshooting Isthelast i Possibly only one r field valves chart y /equal to t of the two valves es and check the field i opened --flow of only tf e valves for the recti tolled zone. ii ji -- Using the Backwash chart backwash the filters. f Using the Dose Now chart Dose I!j the zone in question. its time to do a I manual filter ' yes maintenance or a waste treatment S _goblet. j I Also check for proper operation of the differential 1 pressure gauge using the XSDP Chart problem yes Go to the no flow flowchart Before starting !this chart ensure the appropriate fuse and our modulles are working Icorrectly. If manual filter maintenance was recently performed check to ensure the filters were installed Using the Viewl � Change Zone % f Using the Dose f` Mush Counters f hdci chart nose l r Olid this correct° chart turn the / / the zone in `' the problem ? > p s zone flush to on question. �;' for the zone in , question. This may indicate i yes: a filtering ,problem l orthatthe zone 1 system need to field Hirsh more often, Enabling or increasing the with no valves dual pump time may also correct this probi am open turn one of the pump H -O -A switches to H (hand) Before stp-rting 'this r;np,,rt ensure This could indicate the appropriate Repair me main Zine the <, minutes does a broken line in the zone in question, fuse and output and reset errors. the flow stop -5 Walk the zone to modules are inspect for leaks, working no i correctly and all yes itches are in sm This could indicate a broken main line, their correct Was the main <,fine broken -7 Walk the Mainline I to insoect for i *owe' f leaks, The vent tube should bleed no and you should here water rush through the valve as it /-,With the pump opens and then the water should stop when you return running go to each field valve Zi� all valvds" the override to auto j / and turn the ,`open and then'- yeses override to open and then back to auto ? Use the troubleshooting valves flowchart to check the valve in question. The valve that did not vent when opened and did not close when returned to auto is stuck in the open position Use the View] Reset Errors chart to determine the pump which has failed. Check the pump power to the control panel Turn the H -o -A The inputs for the pump switch for the starters are on rack I slots 5 pump that has & 6 failed to H (hand) Use the 24 VAC voltage voltage Are both control Tect to the panel? yes >� -,pumps d,, ps faile yes to, chart to ensure the control. voltage is Does the pumpyes light for the, good turn on? pump n o no .... ...... yes no ON" 0I00 Reset the overload , overloads > yes OP that is tripped and 'tripped ? reset the error. Check the pump I blocks for the MTR 1 pump wiring. starter& output blocks 'hegreext light on the Replace the phase 1�-,�pha loss no r;, loss monitor and z . monitor ole reset the error. Turn the H -o -A The inputs for the pump switch for the starters are on rack I slots 5 pump that has & 6 failed to H (hand) Replace the output 1 this fix th6-,, o4 yes < blocks and ensure Are fuses problem I they are in auto. Reset the errors I and ensurerbid this fix i Kl- everything is in yes problem Auto Replace the fuses and ensure the blocks are in auto. The pump outputs are P/ots the ihpvt rack 2 slots 0 Does the pumpyes light for the, &I turn on? pump lilurninate?' yes no no I -- Check the Replace the input fuses in the Check the pump I blocks for the MTR 1 pump wiring. starter& output blocks Replace the output 1 this fix th6-,, o4 yes < blocks and ensure Are fuses problem I they are in auto. Reset the errors I and ensurerbid this fix i Kl- everything is in yes problem Auto Replace the fuses and ensure the blocks are in auto. VWh the pumps off the differential pressure gauge needle should be to the far left. Replace the differential pressure gauge. .11 The input forthe DP !son Reset the system rack I slot 4. Errors. iance was OP lnp'Ut".,-no1W Replacethe DP /I'ithe light off ?r ensure the input block Y§S This could indicate its time to do a As t DP input', manual filter light off ? maintenance ora waste treatment problem .11 Reset the system fitter nual 6 Errors. iance was performed ensure the Replace the DP Gauge Check the wiring to the DP Gauge Yes No Flow Failure Rack 3 any used slot.. Rack i slot 0 Manually open one Turn one of the of the field valves ,Noes the flo' zIs the flow � Turn on other pump I -I -Q-A by turn the switch . meter indicate yew meter input f yew pump switches to hand. on the output block flow ? ,. mashing r;r` to on. , Manually opera a Replace the flow different field meter input, valve: Go to the troubleshooting 24 ,, Go to the , VAC field volta a troubleshooting / 9 ` €3oes the fl field valves chart Is the Pieter chart and cheek a meter irtriicate , yes. - - no- •, far a signal I flow? ! and check the Input flashinglr' valve for the zone ~ r' with no flow. k.= yes r _ no yes t Coes the -flow Checkthe Check to E meter indicate to flowmeter { see if there Proceed to the Iflow? is pressure check field valves on Rheflowchartsystem l/ i = _._._.J ..:.._.___ t In the field {� a manualiy open a i This could indicate field value. a suction problem, Is system II Turn roaster valve check pumps and n° ''-,,pressurized ? Ye � to open. suction lines \\ Turn one of the Turn off pump and Xro s the flo`ux pump H -p A off /`V+Iere Filters ` open a filter cower no-- ., meter indicate > plugged ? , ' I to check for ✓ 4 switches to hand t flow ? plugging. f Y. Y65 Manually clean the Go to the filter rings, troubleshooting field valves chart j and check the __ . master valve. PC system Operations Manual Waste Water Systems Inc. 20. SCHEMATICS 6jd Waste Water Systems Inc. 57- 6: vavti k4t:� v v v v v v v e' v ti m e 00 +I2vAn Elu&ir MMEMMMM s m e SCP30 S 5 -DN PUMP A & B 120 VAC DISCONNECTS DISCONNECTS CONTACTOR A www 3 FM Culler - Hanne CEIAN3Ta T1 .t T3 III OO 8 8 e e B 2?1 4/i2 6R3 OVERLOAD A CONTACTOR B 1 `5 2 L3 cu i EM .ne CE 5•N3Ta Tel T2 T3 ® OO B A 2lT3 4/T2 6 OVERLOAD B 120V POWER DISTRIBUTION BLOCKS wnd ° 0®0 m e 00 +I2vAn • 0 0 0 moo N ❑ L A s m e SCP30 S 5 -DN 0 0 ,+12 VDC POWER °I °� SUPPLY C E e7�\ v IN IN e m 24 VAC CONTROL P.O. BOX 1023 TRANSFORMER „ T -e rcl, RJ to"• 56NAL TRANSFORMER ELLIJAY, GA. 30540 (oDP-241-8- CLPSS a EC0134 10 9 8 7 6 m 6 SV S ❑ L 24 VAC ISOLATION TRANSFORMER SCP30 s12 -DN m_n +5 VDC POWER ipNAL iRANSFpRNER _ y _ SUPPLY DP -241-8- g - ,— ELASS )✓ EC013, Ci E K\ o IN N e m .:nnn c.c...........c..c.cl ec...c.e.e....,e.e. .,...,...,...e ......c DISTRIBUTION BLOCKSE EE RACK 1 ao e0000o(D m me Nmm"m°mmmmmm"m mmmmmmm o 0 o HH. 6 „ on 2 u 14 IS �o� 120 VAC CPU POWER lol CONTROLLER RACK 2 004 O ° 4000 ao ' °mmIT. mmmmmmmmmID0MM0mmmmMTIMQ9 1E �b� O�❑ � � o o° O 0 0 0° o° �0 0 0° a o o �° �° O pRnm RACK 3 444 ❑ !44go do'mmmmmm'mm"mmmmmmGIM mam�mmmmm"mmm x e ]o to 0 0 o MINNg o 0 0 0 0 0 0 o F11— SPUN t::t1 RL �A[� 0[6[E[9[[[ E L: I I,.,I L...I C_el=©I I IL I Ia,l I I I i I I,I 1. I3;1 L^Izl L I:I I, I L I'I ial 11:-1 I I i! I a. noo sono nUn000000 0 ons oco000000000000000000 . '':�CCC'0 �� 8C0CCCC�C� i i l l r l l i Davi IEa I.NI 191 IN 11-111 11,11 Iu I I I I i l l t I I I 1•;IwM fr"'i- I� 11 11 r-1 rl 1._I LI I� Irl I -I I:::,I0 all Systems, Inc. (706) 276-3139 Fax (706) 276-6535 PC PANEL LAYOUT 1 of 1 Waste Water 4 REV -0 v Rose Hill P.O. BOX 1023 „ T -e rcl, RJ to"• DATE: 09/22/07 ELLIJAY, GA. 30540 Systems, Inc. (706) 276-3139 Fax (706) 276-6535 PUMP A PUMP B 120V 20 A POWER POWER from panel A B C A B C 120V from UPS G G G G G G G (D G (D D30 WMS3D30 415V 10000 D30 WMS3 415V 10000 ABBABB I S261 D 4 -230/40( ' 7 Nt 40 A 1 S 261 D 4 -230/40C Nt 40A G G G G G G G G .7 PUMP A & B 120 VAC DISCONNECTS DISCONNECTS 8000008 B INCOMING POWER CONNECTIONS 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 DAT I E: 09/22/07 22/07 ELLIJAY, GA. 30540 Fax (706) 276-6535 :m m O N mED p z F9 Fo F - 0D 0--. N� n C ED N 70 D D Z D �,s+J fTl �td w ED Fil IT p ((VVllllll u D o a p e� es ME N e� n :m m O N mED p z F9 Fo F - 0D 0--. N� n C ED N 70 D D Z D �,s+J fTl �td w ED Fil IT p ((VVllllll u D o a p e� es ME N e� e1 ea es 11 es �CD n O Z D z a� n b7 � RJ RJ 4 + —1 < 0 — o 70 �o v � z z� �oy dp z Zn RJ �l M TI o o m � pO Co z pp om�o�A N -o p—� r ti TJ z 00000000000 n ZJ 3 n v o 0 3 D v o 0 3 T A O� > A �� �0 0000 oa a o 00 (/��� o m CO1A O A p BBOBOOOOmOB C13 z z z OP z OP o M z N 1 m.z n Ne -m WO e•Z Cil � <•m s\� N vd am WE::] �qs o zD n F- 70 -,a N C 7❑ z D v + 0 z �+ F -G CD �< n -D < n O M p 70 M tess4 120vaa DISTRIBUTION 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 DATE: 09/22/07 „ "Perc`Rite'� ,. _ .. ,. ELLIJAY, GA. 30540 Fax (706) 276-6535 J 24voc DISTRIBUTION 1 of 1 Waste Water Systems, Inc. 24 VAC CONTROL TRANSFORMER REV -0 ,u SIGNAL TRANSFORMER "PeresRite" Rose Hill DATE: 09/22/06 P.O. BOX 1023 (706) 276-3139 O DP -241-8-24 CLASS B EC0134 O ELLIJAY, GA. 30540 Fax (706) 276-6535 10 9 8 7 6 0 0 0 24 VAC ISOLATION TRANSFORMER Im >r DISTRIBUTION BLOCKS 11-30 ih 11 12 14 LS 16 tit! tit! tif wq 111tNINST .� 12ti� k.,.� uiTimO m.�m /22 VYY ❑pus E 2 4 6 2 10 2 14E 4 16 IB 20 22 24 26211 a :� f� El"N°O mmmmmmmmmmmmmmmmmmmmmmmmmmmC ❑❑ ❑ Q O•• O•••• 0 0 0• O O O O C r> ���❑ 0 0 0 0 0 0° 0 0 0 0 0 0 0 5 6 1 a 9 Ll 11 12 13 14 15 RACK2 TERMINAL BLOCKS aooi0000000aiaraoraiai000riaioi00000000ioaoa000iaoaiaiaoioia000iaioioa0000i �Mw=M=== =��1� ",.• unn nn on on oo uo oo on on no no no oo nouou Afflu - jjj_jjj RACK HIM FIELD ISOLATION RELAYS r4 - r20 24voc DISTRIBUTION 1 of 1 Waste Water Systems, Inc. REV -0 "PeresRite" Rose Hill DATE: 09/22/06 P.O. BOX 1023 (706) 276-3139 ELLIJAY, GA. 30540 Fax (706) 276-6535 15 e m 45 m of or �g m of ,9 a 19 A z N[oaoo oe� r �[eeom ae, ro ;[vaso ooh N D= n�oan man zz oiao =om�0 -om�0 ryy � oo �0 x om�0 w aoo�0 P om �O moo WO mom �O ooh Nom�O c om WO :om�0 aom�0 (>oan can zz o,ao -om& »om�0 N aom�0 om WO moo�0 dom�0 �om�0 a o O :o O a� non O O �� 7 Hma �o ,dye HOa om : ,4 �p zrS b k (� b O C I `�a iu ONN �➢i 0 0 00 €❑o 3 am 32 " m 33 g3 31 o m 31 iinun 22 O1a0 O0N y -•^, py Q �yC��Cyyy,,� 31 om 3s 31 o m 3 O Biu 15 e m 45 m of or �g m of ,9 a 19 A z N[oaoo oe� r �[eeom ae, ro ;[vaso ooh N D= n�oan man zz oiao =om�0 -om�0 ryy � oo �0 x om�0 w aoo�0 P om �O moo WO mom �O ooh Nom�O c om WO :om�0 aom�0 (>oan can zz o,ao -om& »om�0 N aom�0 om WO moo�0 dom�0 �om�0 a o O :o O a� non O O �� 7 Hma �o ,dye HOa om : ,4 �p zrS b k (� b O C 12vdc DISTRIBUTION .., 1 of 1 Waste Water Systems, Inc. REV -0 4 Rose Hill P.O. BOX 1023 (706) 276-3139 "Perc`Rite" DATE: 09/22/07 _ ELLIJAY, GA. 30540 Fox (706) 276-6535 iu 12vdc DISTRIBUTION .., 1 of 1 Waste Water Systems, Inc. REV -0 4 Rose Hill P.O. BOX 1023 (706) 276-3139 "Perc`Rite" DATE: 09/22/07 _ ELLIJAY, GA. 30540 Fox (706) 276-6535 p%:;tea !!>' �aaw 22 01do O�W em e` x e - Lo r � e e- u� e e m a� en O O e: w 4- O � N e'a O w byezi mem mm An r� �m Ny '1,'C syn ee- N y0y� �Or1 O c'9� 6 Coo e a o� e m O Oi i ,p, z _�a000 ooh e; ea O g: ±Coo o of eN vy eN N QO—Q N Ee ` , °_ v, m e m o— - - �o mm o„no � so c o oo o ro � OOO m � DOD N K € o € oIL o� - ��0 goo goo �d g3 s 4 s O CA smaw 22 DIMO�2 maw 22 01d0 v 4 n 07 pO e. - om O e. y OZ wO ea om O eP o Z 7y ooO em ooO em n om �O ee N °mO eo W H 00 O eN a 00 O eN O -F FiO ea om �O e. om0 ea OO �O es m 00 pO I 6,6 m OO H em om O eo e om O eza - omO eN e o`oO eN c omFo ero oo O eN N = eP oo 0 eP X00 ar$Q em ^,O Oem omO e; o O e N oo#Oe co Oeig no—n m n n N 5vdc DISTRIBUTION 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 DATE: 09/22/07 ELLIJAY, GA. 30540 Fox (706) 276-6535 r� W a a w COMMUNICATIN WIRING 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 "Perc`Rite'� DATE: 09/22/07 ELLIJAY, GA. 30540 Fax (706) 276-6535 ONnb uoo v on ci ED + OlNX ® o < < (>3b n f o� ® a a 0 0?JI --E=I- N 33 9O �z td D C D ey " fTl a N J VI o� H919dt D 22 ❑ldo � �� �❑� N c M o e T e W y.; O U1 �0 e N O e UI N cn � e ® e C � O V W W N ry � e m O e �0 — W ' e A O e f �- e �N ., ffi e W 1 O _ J o e Y �. s e o o El. ° ,•,,=s e . �. 3. o e O . N Q, e . N. N 000 O 0] O W N i e . A. n 000 O O1 Q N O N n N � 3 W 000 O O] e O N m _ o e 0. N � X 0000 00] eo N e' J A 000 O O] e < L Oe N J n "0 � (Do o -Q O W FLOWMETER W LOW WATER ID DOSE ENABLE HIGH WATER W DELTA PRESSURE Ln MTR STARTER A —40 MTR STARTER B AUTO PUMP A AUTO PUMP B SYSTEM RESET W AUXILLARY SHUTDOWN V CONTROLLER RACK 1 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 "Perc!Rite'DATE: 09/22/07 _ ELLIJAY, GA. 30540 Fax (706) 276-6535 - <_ 1 OWN u Rm xa one C1 C7 a a A 0 z _ %Q�1NX O o a _ti l F O o 3> u N El C7 o�- D Z 3 -i M Z tl O r D N An tJ � A u frl a Vl � O Z H9I9di7D 22 old❑ A�D O� O Q gbh O ST TER N e a PUMP A cJ ovEREonn ^ "' Oe fwxn e > —T. e N I�C_J�zON PUMP B ew N 1 Q� O • ST TER C PRIMING PUMP ,.."A O ;ate O e - _ l 1 W em Lo FILTER 1 O �5 =d O e L, -y N Q w FILTER 2 cl O �5 O e r e N AFE I I FILTER 3 • e FILTER 4 e�_ 3 N � FILTER 5 t":iJe .J. 3 Co Q" gqm O I h e mFdp FILTER 6 FIR 'a' e � w L Q MASTER VALVE N A e N PRESS. REDUCE Q �e O Q W. N N ZONE RETURN RELAY Q W � �T O N z IpOONr N ..Jn NACD] NZ ZONE RETURN VALVEe L QO� o L -J e 7 57 0 01 2N :M n .TO `O OO Lx CONTROLLER RACK 2 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 DATE: 09/22/07 "PeresR,ite'� _ „ ,. ELLIJAY, GA. 30540 Fax (706) 276-6535 Fru I ONna ..wW xa od c o A Olwx FFFFT7 ® On3a o o 011a1 n'v a P fll tj Z 3 Z 3 D r- 1> Dtj t7 fTi u O E UI N No H91Hdb0 IT V1 � rD D o O e N ' z 3^ _., , " ZONE 1 / lA ~ O a; O e ZONE 2/ iB Ln" - t�= E) ZONE 3 / 2A W O e e ZONE 4 / 2B Ix+ O e m _ 0 ZONE 5 / 3A cn O mO O~ ZONE 6 / 3B go e ZONE 7 / 4A vI � �_ ZONE 8 / 4B TIT eJ m O g= O - O 10 N z ZONE 9 / 5A O "N e o e _ ZONE 10 / 5B 0 0 aT e eN R , ZONE 11 / 6A O s yr - e N e N - ZONE 12 / 6B O ;az O - _ f N N ZONE 13 / 7A E) ZONE 14 / 7B • N z - O �'§ O w w ZONE 15 / 8A 01W eI ZONE 16 / 8B (Do O CONTROLLER RACK 3 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 "Pere` Rite' DATE: 09/22/07 „� �., � „ ,, ELLIJAY, GA. 30540 Fax (706) 276-6535 -4y S " I Jafaw M01_ ofI- DPA ZT+ J,34-aw Mol_ Oa- DPA ZT- uagaw Mo1j wou_. 4-ndui aslnd a6nn6 dQ o4. 36nb6 dQ wOJJ aa!Aap UMOp�-nu!S 'xnb oq- aa!Aap UMOp�.rngS'xnn woJJ 1 = T J a 4-11,4 o 1, �---- "-., d uaq-11,4 04- w C Jaa-1!J Oa - , 0ME 00, 1nJ0,naU anA -bd ' 1 11®1M00M-11 L -d 9 ua4-1!,4 04-4 aA1nA Jaq-Snw 04- IIm100M1M--11 8A1)oA 6upnpau aunssa Ad oq- 4- 01.4 UaVOM M01 wOU J N b2 1 E00 St - gC sgndu! Uo_4 1nuq-nau " 1 IIm1000M-11 1 = DOE (S) 47 = 1 1f ID001®11 o 49 -1 EM-MEME1m11 0ME 00, 1nJ0,naU anA -bd ' 1 11®1M00M-11 1 = DOE (S) 47 = 1 IIm100E o 49 -1 1 0ME 00, 1nJ0,naU anA -bd ' 1 IImiD001m11 IIm10001'11 IIm100M1M--11 4- 01.4 UaVOM M01 wOU J N b2 1 E00 on ~ WME4 " 1 IIm1000M-11 1 ' - 0001-111 )-D01.� algnua asop w0jj UV2 1 ' - 0001-11 UNIT CONNECTIONS 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 Terc`Rite"DATE: 09/22/07 .r. • _.. „ ,, ELLIJAY, GA. 30540 Fax (706) 276-6535 SUOwwOD Lpq-!MS q"001j (S) 47 0 48 o 49 47 o � 00, 1nJ0,naU anA -bd 4- 01.4 UaVOM M01 wOU J N b2 on ~ WME4 e,9 )-D01.� algnua asop w0jj UV2 M x �n N 5 - 1,'001 OM l�11wOU ED a n On E(+ t (-±-)r x UNIT CONNECTIONS 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 Terc`Rite"DATE: 09/22/07 .r. • _.. „ ,, ELLIJAY, GA. 30540 Fax (706) 276-6535 48 (S) 0 0 48 49 (S) o � 49 UNIT CONNECTIONS 1 of 1 Waste Water Systems, Inc. REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 Terc`Rite"DATE: 09/22/07 .r. • _.. „ ,, ELLIJAY, GA. 30540 Fax (706) 276-6535 sanjron pjai o4- Inugnau oron t72 ® 50 OO a OO 50 ta. anlron uun�.a.A auoz eq- q-nd}no onn bz ® n0 anlron roti/ti auoz o� �ndono oron t72® u, O anlnn ql/Z auoz oq- :�ndgno onn �2 ® -0 anlron roZ/E auoz oq, end}no oron t8 ® s0 -4ED ED an)ron q2/b auoz o4- ql-nd4-no znn t,2 ® 0 anIron rob/S auoz OQ- �-ndq-no iron t724— 72®JN a0 r ------------- q8/9auoz o nd no oron Z -4 -%an1ron s0 c E anjron rot,// auoz oo, 4ndq-no aron tZ/ a0 EI) (1) y anIron clt/8 auoz o} :�ndq-no oron {,Z N 10 LA anlron 'OS/6 auoz 00, 4-ndol-no Dron t24 > w 'O ED �CE anJron qS/01 auoz off. ql-nd-�no Dnn b8 / �, 10 A I anlron roc)/ll auoz oq, �,ndj-no oron t24 ;0 anlron a,c)/21 auoz o� �nd�no iron �z 4— ED F7 o` ® N O an)ron roL/8l auoz o� �nd�no oron {,8® a0 anlron q/ -bj auoz o} q ndT rno oron 78' t724— a0 f.= anlron ro8/Sl auoz oq end}no oron {,8 ®P. o '0 ED wl,ji anIron q8/c)l auoz o�- �-nd�,no iron ED Ep NPI FIELD VALVE CONNECTIONS 1 of 1 Waste Water Systems, Inc. d REV -0 Rose Hill P.O. BOX 1023 (706) 276-3139 „ "Perc�R,ite'� _ „ DATE: 09/22/07 „ ,. ELLIJAY, GP,. 30540 Fax (706) 276-6535