- BELOW GROUND CANTEX LIFT STATION AS BUILT DRAWING MANUAL
- BELOW GROUND CANTEX LIFT STATION AS BUILT DRAWING SOFTWARE
Two types of pumps are available for this application, grinder pumps and solids handling pumps.Ī properly designed wet well is essential for efficient and trouble-free operation of the pump or lift station. The submersible type lift station can be utilized on low flow, low head type installations. Key elements of pump or lift stations include a wastewater treatment receiving well (wet-well), equipped with lift pumps and piping with valves, a junction box, and an equipment control panel with alarm system. Often called a lift station, these units are commonly built as a factory assembled package system. For instance, it may be more economical to utilize a sewage pump station to pump or lift the sewage over a ridge and let it flow by gravity to a sewage treatment plant, or to elevate sewage to pass through a sewage treatment system by gravity. PCS provides lift stations in steel, fiberglass and poured in place concrete packages (concrete is by others) and up to 5 horsepower and 4" discharge ONLY.Ī wastewater pump station may be used as a matter of economics or to overcome inadequate hydraulic head when it is obvious that no other solution is practical. Using traditional SCADA for the complex process control and large input/output needs that frequently occur in-plant makes sense but that level of complexity is probably unnecessarily complicated for simple lift stations and master pump stations.Sewage / Wastewater lift stations, also called pump stations, are used for pumping wastewater or sewage from a lower to higher elevation, particularly where the elevation of the source is not sufficient for gravity flow and/or when the use of gravity conveyance will result in excessive excavation and higher construction costs. This allows management to maintain CMOM audit trails without resorting to soggy or illegible paper sheets kept at each station.
BELOW GROUND CANTEX LIFT STATION AS BUILT DRAWING MANUAL
Remote manual control of pumps or gates is also possible.įrom its inception, Mission has used electronic keys to track who is checking in and out of field sites. The MyDro 850 and the M800 RTUs will detect a high wet well level, send users an alarm and automatically call upstream lift stations to shut down or divert their pumps until the high level clears. RTU-to-RTU Automatic Control of Upstream Lift Stations While users can connect a pulse or analog flow meter to a MyDro 850 or the M800 and have it report and graph instantaneous or integrated flow, the volumetric method is nearly as accurate, and much easier to implement. The flow calculation is made even more accurate by estimating inflows during the cycle. Either the analog level reading or fixed heights are used in the algorithm. With a one-time entry of the sump surface area, the Mission system is able to calculate the volume of liquid that is pumped each pump cycle. More accurate flow calculations are available with Mydro 850 and M800 RTUs via the volumetric flow calculation method. The MyDro 150 and the M110 estimate flow by multiplying runtimes by the gallons per minute (GPM) rating of each pump.
BELOW GROUND CANTEX LIFT STATION AS BUILT DRAWING SOFTWARE
Save time by letting Mission software catch pumps that aren’t running in their normal variance parameters, and automatically alert plant management in a separate notification list. The Mission system can alert users of pump anomalies before they turn into expensive alarm conditions.
Both systems will also track and report simultaneous runtimes in duplex lift stations as well as automatically notify users if a pump exceeds an adjustable hourly starts threshold.Īutomated Pump Problem Analysis of Daily Runtimes MyDro 150 and the M110 will collect up to three pump runtimes and starts, while the MyDro 850 and the M800 will take up to eight. Graphs of Daily/Hourly Pump Runtimes and StartsĪutomatically collect, post, graph, and chart runtimes and starts. This additional information allows additional flow reporting as described below.
Additional insight of the master lift stations is available with real-time pump state changes on up to 8 pumps. The M800 or MyDro 850 RTU is appropriate at master lift or pump stations, where real-time level information (every two minutes or 5% change) or other analog trending is desired.
The other DIs are available for items like phase fault, seal fail, or hatch door. Another DI is used for high-level float monitoring and alarming purposes. Two digital inputs (DIs) are typically used to monitor pump runtimes and starts. The M110 and MyDro M150 are appropriate for monitoring most duplex lift stations. Lift Station Mission RTUs are Engineered for Lift Stations