A portable pump system for use over a wellbore, the system having a utility trailer with a trailer bed and two wheels, a reel around which is wound a length of flexible pipe, an array of solar panels, a submersible pump, front outrigggers extending laterally from opposite sides of a front end of the trailer bed, and rear outriggers extending laterally from opposite sides of a rear end of the trailer bed. The reel is situated at a rear end of the trailer bed. The array of solar panels is situated in the front half of the trailer bed. The submersible pump is attached to a distal end of the flexible pipe. The array of solar panels is configured to supply power to the submersible pump. The reel is mechanically coupled to a sprocket system situated on top of the trailer bed and adjacent to the reel.

A prefabricated former for an underground pump station comprises: a floor former; a plurality of vertical support elements; a side wall secured to and surrounding the plurality of vertical support elements, the side wall having an inner layer and an outer layer defining a cavity therebetween, and an opening at an upper end of the side wall in communication with the cavity for receiving concrete, the side wall extending both above and below the floor former for defining a space above the floor former and a space below the floor former, and an opening being provided between the cavity and the space below the floor former enabling concrete to flow through the cavity and into the space below the floor former; when set, the concrete forming a unitary wall and base.

A prefabricated former for an underground pump station comprises: a floor former; a plurality of vertical support elements; a side wall secured to and surrounding the plurality of vertical support elements, the side wall having an inner layer and an outer layer defining a cavity therebetween, and an opening at an upper end of the side wall in communication with the cavity for receiving concrete, the side wall extending both above and below the floor former for defining a space above the floor former and a space below the floor former, and an opening being provided between the cavity and the space below the floor former enabling concrete to flow through the cavity and into the space below the floor former; when set, the concrete forming a unitary wall and base.

Disclosed is a non-powered seawater pumping apparatus for reducing seawater intrusion in a land in which an aquifer with a seawater-fresh water boundary surface is formed, the apparatus including a pumping pipe having opposite open end portions, a first end portion of the opposite open end portions being positioned below a sea level and a second end portion being positioned below a seawater-fresh water boundary surface in the land, and a well disposed to surround a lateral surface of a land-buried portion of the pumping pipe, which is buried in the land, so as to space away the land-buried portion of the pipe from the land, wherein seawater is filled in the pumping pipe, and the well includes a screen having a plurality of through holes formed along a circumference of the well at a lower end portion of the well.

A system and method for operating a low-yield well. The method starts with a pressure transducer telling a control box that a storage tank is low on water. The controller then activates the well pump, the water then flows up a pipe past a pressure transducer showing the back pressure, through a regulator and into the storage tank. The controller is constantly monitoring the tank level and the back-pressure level to indicate when to turn off the well to either stop from over filling the storage tank, or over pumping the well. The controller makes adjustments dependent on the back pressure (which indicates the level of water left in the well) and determines how long to withdraw water and how long to wait until the water can be withdrawn again. The system prevents pumping the well dry, and keeps the pump and well in good operating condition.

A system and method for operating a low-yield well. The method starts with a pressure transducer telling a control box that a storage tank is low on water. The controller then activates the well pump, the water then flows up a pipe past a pressure transducer showing the back pressure, through a regulator and into the storage tank. The controller is constantly monitoring the tank level and the back-pressure level to indicate when to turn off the well to either stop from over filling the storage tank, or over pumping the well. The controller makes adjustments dependent on the back pressure (which indicates the level of water left in the well) and determines how long to withdraw water and how long to wait until the water can be withdrawn again. The system prevents pumping the well dry, and keeps the pump and well in good operating condition.

A method of designing an optimized seawater pumping apparatus, using a computer in a system in which a seawater pumping apparatus including a pumping pipe and a well disposed to surround a lateral surface of a land-buried portion of the pumping pipe is installed to reduce seawater intrusion in a land in which an aquifer with a seawater-fresh water boundary surface is formed, includes applying an optimization algorithm to initial condition data of the aquifer to generate n decision variable sets of the seawater pumping apparatus, applying an underground water flow model to each of the n decision variable sets to generate n prediction results of change in the seawater-fresh water boundary surface, calculating a performance evaluation value of each of the n prediction results, and selecting a decision variable set having a maximum performance evaluation value, where n is an integer and equal to or greater than 2.

A well pump system can include piping having an end positioned proximate to an entrance end of a borehole (e.g., a water well), and piping having an end positioned proximate to an opposing end of the borehole. A connector can couple the piping together, where the connector has ports for aligning the piping to form a longitudinal passage. The well pump system may further include a valve in the piping that can open and close the longitudinal passage with an actuator to be actuated from the entrance end of the borehole. A pump may be coupled to the piping, and a rod can be used to operate the pump. An end of the rod can be positioned between the opposing end of the borehole and the valve and connected to a second rod inserted through the longitudinal passage when the valve is open to operate the pump.

An odor venting water pump system uses an air pump to agitate well water within a well enclosure in order to separate unpleasant smelling gases from the well water. A water pump is positioned at the bottom of a well enclosure and surrounded by well water received into the well enclosure from the surrounding ground water supply. An air tube is connected to an air pump and a terminal end of the air tube is positioned at the lower end of a venting pipe which has an inlet to accept well water. The pumped air agitates the water within the venting pipe and pushes the air/water mixture upwards through the venting pipe to an outlet, where the water returns to the main water supply while the odious gases are free to exit the well enclosure through an air vent at the upper end of the well enclosure.

An odor venting water pump system uses an air pump to agitate well water within a well enclosure in order to separate unpleasant smelling gases from the well water. A water pump is positioned at the bottom of a well enclosure and surrounded by well water received into the well enclosure from the surrounding ground water supply. An air tube is connected to an air pump and a terminal end of the air tube is positioned at the lower end of a venting pipe which has an inlet to accept well water. The pumped air agitates the water within the venting pipe and pushes the air/water mixture upwards through the venting pipe to an outlet, where the water returns to the main water supply while the odious gases are free to exit the well enclosure through an air vent at the upper end of the well enclosure.