EP - Engineered Pump Systems Ltd.
Engineered Pump Systems Ltd. was incorporated in 1982, with the primary markets being municipal, industrial and building trades. Sales and support staff total 12 people. Average sales, 4.0 million.
Engineered Pump Systems Ltd. specializes in the supply and manufacture of water and wastewater conveyance, treatment and disposal products (submersible pumps, air blowers, rotating screens, valves, controls, etc.). Equipment can be supplied in complete factory built packages or as components for on site installations.
Engineered Pump Systems Ltd. has built a reputation as a trusted provider of knowledge and quality products, backed up by over a decade of excellent customer service.
Company Details
Year Established:
1982
Total Sales ($CDN):
$1,000,000 - $5,000,000
Number of Employees:
15
Company Information
Earle Masse
Title:
Manager
Area of Responsibility:
Management Executive
Telephone:
(604) 552-7900
Fax:
(604) 552-7901
Email:
Click Here
Earl Masse
Title:
Manager
Telephone:
(604) 552-7900
Fax:
(604) 552-7901
Email:
Click Here
Products
Pump, Sewage Type, Power
Sewage Treatment Systems, Nes
Pump, Industrial Type Nes, Parts Of
Pipe Fittings Nes
Water Treatment Systems, Nes, Industrial
Environmental Products And Services
Engineered Pump 'e-z Out Coupling' With 'lift-out' Slide Rail System.
Designed for most submersible sump and sewage pumps with vertical style design nozzles, the E-Z Out Coupling provides easy service access of submersible pumps that are installed in confined spaces.
New Lift-Out slide rail systems have been designed for most vertical discharge type submersible pumps under 5 HP with 31, 50 and 76 mm NPT discharge nozzles. These provide easy service access for submersible sewage, sump and grinder pumps from wet pit sump applications. The system prevents the need for, as well as the risk of a confined entry to remove pumps and unbolt flanges or unions when servicing pumps.
Designer's liability is reduced by providing reasonable care in the design of submersible pump installations. Pumps are removable from above ground for inspection and service.
The system is equipped with cast iron base elbows and positive machine fits (with O ring seals) which provide a reliable leak free seal.
Guide rails direct the pump to and from the base elbow. Systems are supplied complete with 10 ft. of lifting chain, upper rail support and pump lifting bail.
Engineered Pump Pressure Sewer Collection.
The Engineered Pump Pressure Sewer Collection system provides practical and efficient collection of sewerage in difficult to service locations, while eliminating the need for on-site disposal systems (which often use only primary levels of treatment and may allow the discharge of pollutants back to the ground water table). The cost of pressure sewers can be as low as 50% of that of gravity sewers.
The concept of pressure sewerage collection systems has been extensively investigated over the past 20 or more years throughout Canada and the USA. Within the last decade several installations have gone into use in the Province of B.C. with generally excellent results.
The concept utilizes the submersible sewage or effluent type of pump. It provides an economical, reliable, and proven method in which sewage is pumped under minimal pressure through small diameter forcemains. The force mains are generally installed in shallow trenches which follow the contour of the land just below the frost line.
A pressure sewer system is sometimes described as a water distribution system in reverse: a water system will have one inlet pressurization point and a number of end user connections, while a pressure sewer system will normally have a pressurized inlet point at each end user connection and one discharge outlet at a connecting gravity sewer, treatment plant or other approved discharge point.
The pressure sewer concept eliminates most problems commonly encountered in bringing gravity sewers to: hilly terrains, high water table areas, sandy areas, rocky areas, water front properties and other difficult soil and terrain combinations. Pressure sewerage collection systems have been utilized in servicing residential, recreational development, industrial and marine type collection systems.
There are two primary types of pressure sewage collection systems: raw sewage collection and sewage effluent collection (STEP). The raw sewage collection system can utilize a submersible sewage grinder pump or non-clog type sewage pump. This alternative pumps all the sewage waste from the connection. The sewage effluent collection system, commonly known as septic tank effluent pumping STEP , utilizes a septic tank ahead of the pump, reducing the amount of solids and grease that enters the pressure system. The major difference between the two types is how the solids are handled.
One of the advantages of pressure sewers over gravity is the ability to use small diameter plastic pipes for service lines and force mains. Consequently, there is a major cost advantage in the piping collection system for pressure sewers versus gravity.
Labour, equipment and construction requirements necessary to handle a large diameter gravity sewer pipe are substantially higher than the small PVC pipes utilized in pressure sewer collection. Furthermore, infiltration, a common problem with gravity sewers, is virtually eliminated due to the design of a sealed system throughout. Thus plants can be designed to handle basin sewage flows without allowance for hard-to-predict infiltration flows, making the sewage treatment more efficient, consistent and economical.
Another advantage of pressure sewers is the ability to eliminate manholes.
Small diameter pressure sewer service lines and pressure mains can be bored under roads with minimum difficulty (assuming no rock), since precise slope alignments are not critical. Small force mains can be installed across bridges without the use of pump stations. Pipes can be insulated to help prevent freezing in colder regions.
The concept of low pressure sewage collection is a tool provided for land development and government alike to do their part in effective wastewater management of sensitive lands. The growing use of pressure sewers as viable alternatives to conventional gravity sewers should continue to expand into the 21st century.
Engineered Pump Lagoon Aeration Systems.
Efficient high quality sewage treatment process utilizing subsurface static tube aerators with centrifugal air blowers; for systems from 75 m3/day to 20,000 m3/day with treatment efficiencies up to 98%.
The Engineered Pump aerated lagoon systems are an efficient trouble free method of treating domestic sewage and industrial wastes. Designed to suit most waste treatment applications with flows above 75 m3/day, the lagoon systems can be built anywhere land is available for construction of the holding ponds.
Aeration lagoons involve containment ponds lined to hold sewage for up to 30 days. Ponds can vary in depth from 2.4 m to 5 m, with side slopes generally 3:1 or better, depending on structural capabilities. Aeration equipment is strategically located on the pond floor to provide mixing aeration sufficient for BOD reduction and solids suspension.
Air is supplied to each aerator through small diameter polyethene lateral air lines The air lines are anchored to line sinker hooks, installed every 2.4 m on the pond floor, and are fed air from a main air supply header installed on the pond berm. The air header is connected to the air blowers, generally installed in a housing centrally located on the site.
With no mechanical or moving parts installed in the waste treatment pond, this system has a major advantage over most other treatment systems. Furthermore, little operator attention is necessary to run and maintain the system. Because of the large holding volume, the lagoon system is not sensitive to biological upset due to accidental spills or high inflows. Contaminants are mixed with the lagoon contents and generally absorbed by the system.
Effluent quality is generally constant through most conditions.
Services