This invention is directed to a reversible reciprocating positive displacement pump that may be incorporated for example in an energy storage system wherein fluid is pumped into previously fracked wells. The hydraulic fracture will elastically expand and store the fluid. To create energy, the fluid pressure in the well is relieved and the fluid will be directed into the reversible pump to drive a generator to produce electricity. The device may be characterized as a bi-directional injector generator (INGEN)
Currently, reversible turbines are used for traditional pumped storage systems. These units however operate at a low pressure (100-600 psi). As such, multi-stage injection would be required, resulting in prohibitively low conversion efficiency. These units are very large and thus occupy a large footprint on location.
This invention is directed to a bi-directional injector-generator (INGEN) that is uniquely suited for geomechanical pumped storage (GPS) operating pressures, achieving 95% mechanical efficiency (each way), and is a homologous design series can be scaled across 0.5-10 MW. This INGEN will serve the same function as reversible turbines in traditional pumped storage facilities: consuming electricity to pump water during charging, and generating electricity from water pressure during discharge.
The need for this INGEN arises out of the fact that GPS's operating pressure of 700-2,000+psi are well outside of the operating envelop of rotodynamic solutions (i.e., reversible turbines) that are used in traditional pumped storage facilities. Rotodynamic solutions at GPS's higher operating pressures would result in significant capex burden (separate pump and turbine), as well as RTE losses (due to pump multi-staging, which compounds pumping losses).
The INGEN is a positive-displacement machine which is better suited for the higher operating pressures. Specifically, the INGEN is built upon a plunger pump platform, with the liquid-handling end of the plunger pump modified to operate a novel bi-directional valve train. During charging, the INGEN operates like a normal plunger pump. During discharge, the INGEN operates like a reciprocating generator.
For a detailed description of the preferred embodiments of the invention, reference will now be made to the accompanying drawings in which:
Referring to
The fluid end 50 of the injector generator includes a housing 16. A second reciprocating piston 17 is connected to cylinder 13 via a connecting rod 21.
In the injecting mode of
Rotary valves 18 and 19 control the inlet and outlet and are connected to drive shaft 12 via a timing mechanism, for example belts or chains.
As shown in
Valve assembly 40 is rotatably mounted in valve housing 35. Appropriate seals 51 and bearing 52 are provided at either end of the cylindrical assemblies. Seals 53 are located between the valve housing and assembly 40.
In the power generation mode shown in
Although
Also shown in
This Application claims priority to U.S. Provisional Application Ser. No. 62/868,455 filed Jun. 28, 2019.
Number | Date | Country | |
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62868455 | Jun 2019 | US |