Thank you "hj" for your reccomendations, as they were helpful. But perhaps I am wrong in this assumption! Just curious if anyone has ever installed a system like this before. To clarify my question: I am under the impression that a sewage ejector system in our utility room will not be able to clear the 2" waste line that will run 150' up hill to the municipal line because pumps can't push air behind the sewage in order to clear the line. And as "hj" kindly pointed out, my situation involves bring our sewage up an incline to the junction of the municipal main line, so this will be a pressurized system, NOT gravity fed. And your responses don't make sense, as of course insulating lines that aren't below frost line inhibits freezing! There are numerous engineering reports explainging that frost comes from above and insulating sides and topes of lines will use the Earth's natural heat source to help keep lines from freezing. But let's not pretend that someone must be "all-knowing" to be competent for an upcoming project.That would just be egotistical. To address "Dlarivee," you don't need to chuckle in regard to my do it yourself attitude, as I am more than capable of handling the scope of this project. If you have insight into this sort of sewage ejection system, please pass on some of your valuable knowledge and it will be greatly appreciated. So if you are only going to caution me to hire a professional for design/implementation.than don't waste your time posting. I thought I could get a head start by picking the brain of some skilled professionals on this forum. I will be hiring a master plumber and electrician on a part time basis for guidance/help as needed on this project. Let me be clear.I am a skilled tradesman that has built many houses from foundation to finish and have good plumbing/electrical skills. I fear that people are not focusing on the questions, and instead focusing on cautioning me to not get in over my head. Replaces failing 2 hp centrifugal grinder pumps or other 1 hp SPD pumps.I appreciate the comments. Indoor Station: Grinder Pump Designed for Basement InstallationĮ/One's IH091 (aka Indoor Unit) simplex grinder pump system is designed for installation in the basement or mechanical room of the home.Į/One's Upgrade pump is designed for drop-in replacement of a pump in an existing low pressure sewer system. Several tank heights are available to accommodate capacity and site requirements.ġ pump | Fiberglass tank | Various diameters/depths available The fiberglass tank allows for a variable height for the inlet. The Gatorgrinder is an economical simplex grinder pump station popular for warm climates. Gatorgrinder: Fiberglass, Open-Wetwell Tank Simplex, duplex, triplex (3 pumps) and quadplex (4 pumps) stations are available. W-Series stations are open-wetwell tanks with the pump(s) on a stand and tanks are available in PE or fiberglass. The W-Series is E/One's most flexible line of grinder pump stations. W-Series: Open Wetwell Grinder Pump Stations Tank capacities range from 70 to 500 gallons. Simplex and duplex grinder pump stations are available. Station heights are available to accommodate shallow to very deep burial requirements for cold climates. The D-Series tank design features a dry accessway pumps are mounted on a transition that separates the wetwell of the tank. D-Series: Grinder Pump Stations with a Dry Accessway Tanks are available in HDPE, PE, FRP or fiberglass. E/One grinder pump systems are available in many designs and tank capacities - from 70 gallons for single-family residential homes to 500 gallons for light commercial applications.
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