A hydrodynamic electrification system that generates electricity from water moving from a high side to a low side and around a structure that divides the low side from the high side generally includes a water transport system that directs the water from the high side presenting a hydraulic head, over the structure, and to the low side. The system includes a power extraction system having a wheel that receives the water from said water transport system and a mounting system having a high side anchor that connects near an intake to the water transport system at the high side and having a low side anchor that connects to the power extraction system at the low side.

A hydrodynamic electrification system that generates electricity from water moving from a high side to a low side and around a structure that divides the low side from the high side generally includes a water transport system that directs the water from the high side presenting a hydraulic head, over the structure, and to the low side. The system includes a power extraction system having a wheel that receives the water from said water transport system and a mounting system having a high side anchor that connects near an intake to the water transport system at the high side and having a low side anchor that connects to the power extraction system at the low side.

Siphon assembly and method of use thereof to drain water from a pool cover. The siphon assembly includes a pad of fibrous threads surrounded by air spaces. An intake member embedded in the pad includes multiple inlets and one outlet. A hose is engaged with the intake member. When the pad is submerged in the water, a siphoning action set up in the hose sucks water through the pad’s air spaces, into the intake member’s inlets, through the outlet, and into the hose’s bore. The fibrous threads prevent debris in the water from reaching the inlets and clogging them. Water is sucked into the pad’s interior from multiple directions and providing at least one pad surface is not exposed to air or blocked by debris, the siphon assembly will continue to drain water therethrough until all of the inlets of the intake member are exposed to air.

Siphon assembly and method of use thereof to drain water from a pool cover. The siphon assembly includes a pad of fibrous threads surrounded by air spaces. An intake member embedded in the pad includes multiple inlets and one outlet. A hose is engaged with the intake member. When the pad is submerged in the water, a siphoning action set up in the hose sucks water through the pad’s air spaces, into the intake member’s inlets, through the outlet, and into the hose’s bore. The fibrous threads prevent debris in the water from reaching the inlets and clogging them. Water is sucked into the pad’s interior from multiple directions and providing at least one pad surface is not exposed to air or blocked by debris, the siphon assembly will continue to drain water therethrough until all of the inlets of the intake member are exposed to air.

A solar powered sediment capture system is disclosed for collecting sediment at environment sites such as lakes and rivers. A mechanical pump directs water from a containment basin to an upper tank and an antistatic pressure tank, both which are elevated. Gravity flow from the upper tank generates vacuum to establish a syphon for drawing a flowable sediment slurry from an environmental borrow site to a filter. Effluent from the filter passes down to the containment basin, which has water level at a lower elevation than that of the borrow site. Anti-static and driller conduits permit gravity flow from the anti-static tank to suspend the sediment and to maintain the slurry at the syphon inlet in a flowable state.

A siphon float system comprises a siphon pipe with which the intake is supported by its connection to a float with a batch reactor wherein the float maintains a constant siphon intake depth below the fluid surface of the batch reactor. One or more valves prevent reverse flow within the siphon pipe and control flow as desired based upon fluid levels within a batch reactor. One or more siphons connect to an outfall control structure designed to permanently keep the siphon pipe full of fluid and able to actively siphon fluid as desired.

A siphon float system comprises a siphon pipe with which the intake is supported by its connection to a float with a batch reactor wherein the float maintains a constant siphon intake depth below the fluid surface of the batch reactor. One or more valves prevent reverse flow within the siphon pipe and control flow as desired based upon fluid levels within a batch reactor. One or more siphons connect to an outfall control structure designed to permanently keep the siphon pipe full of fluid and able to actively siphon fluid as desired.

A method of vertically transporting emulsion explosive includes, using a pump, pumping a predetermined volume of emulsion explosive, from an emulsion explosive reservoir, into a vertically extending pipe, wherein pumping is effected airtightly at least between the pump and a downstream end of a volume of emulsion explosive that has been pumped into the vertically extending pipe for at least a part of the travel of emulsion explosive of the predetermined volume of emulsion explosive down the vertical pipe.

A method of vertically transporting emulsion explosive includes, using a pump, pumping a predetermined volume of emulsion explosive, from an emulsion explosive reservoir, into a vertically extending pipe, wherein pumping is effected airtightly at least between the pump and a downstream end of a volume of emulsion explosive that has been pumped into the vertically extending pipe for at least a part of the travel of emulsion explosive of the predetermined volume of emulsion explosive down the vertical pipe.

A hydrodynamic electrification system that generates electricity from water moving from a high side to a low side and around a structure that divides the low side from the high side generally includes a water transport system that directs the water from the high side presenting a hydraulic head, over the structure, and to the low side. The system includes a power extraction system having a wheel that receives the water from said water transport system and a mounting system having a high side anchor that connects near an intake to the water transport system at the high side and having a low side anchor that connects to the power extraction system at the low side.