SYSTEMS AND METHODS FOR ENERGY STORAGE AND RECOVERY USING COMPRESSED GAS
4 Assignments
0 Petitions
Accused Products
Abstract
The invention relates to methods and systems for the storage and recovery of energy using open-air hydraulic-pneumatic accumulator and intensifier arrangements that combine at least one accumulator and at least one intensifier in communication with a high-pressure gas storage reservoir on a gas-side of the circuits and a combination fluid motor/pump, coupled to a combination electric generator/motor on the fluid side of the circuits.
159 Citations
62 Claims
-
1-39. -39. (canceled)
-
45. An energy storage and recovery system suitable for the efficient use and conservation of energy resources, the system comprising:
-
a cylinder assembly comprising two chambers separated by a movable boundary mechanism; a plurality of control mechanisms associated with the cylinder assembly for controlling a flow of fluid therethrough; and a control system for actuating the control mechanisms, the control system (i) being responsive to at least one sensor that monitors a system parameter comprising at least one of a fluid state, a fluid flow, a temperature, a pressure, a position of the boundary mechanism, or a rate of movement of the boundary mechanism, (ii) actuating at least one of the plurality of control mechanisms based on the monitored system parameter, and (iii) actuating at least one of the plurality of control mechanisms during at least one of compression or expansion of gas in the cylinder assembly in order to maintain the gas at a substantially constant temperature. - View Dependent Claims (40, 41, 42, 43, 44, 52, 53, 54, 55, 56)
-
-
46. An energy storage and recovery system suitable for the efficient use and conservation of energy resources, the system comprising:
-
a cylinder assembly comprising two chambers separated by a movable boundary mechanism; a plurality of control mechanisms associated with the cylinder assembly for controlling a flow of fluid therethrough; a control system for actuating the control mechanisms, the control system (i) being responsive to at least one sensor that monitors a system parameter comprising at least one of a fluid state, a fluid flow, a temperature, a pressure, a position of the boundary mechanism, or a rate of movement of the boundary mechanism, and (ii) actuating at least one of the plurality of control mechanisms based on the monitored system parameter; and a second cylinder assembly connected to the cylinder assembly, the control system operating the cylinder assembly and the second cylinder assembly in a staged manner to provide a predetermined pressure profile at at least one outlet. - View Dependent Claims (47, 48, 49, 50, 57, 58, 59, 60, 61)
-
-
51. For an energy storage and recovery system suitable for the efficient use and conservation of energy resources, comprising (i) a cylinder assembly comprising two chambers separated by a movable boundary mechanism, and (ii) a plurality of control mechanisms associated with the cylinder assembly for controlling a flow of fluid therethrough;
a control system for actuating the control mechanisms, the control system (i) being responsive to at least one sensor that monitors a system parameter comprising at least one of a fluid state, a fluid flow, a temperature, a pressure, a position of the boundary mechanism, or a rate of movement of the boundary mechanism, (ii) actuating at least one of the plurality of control mechanisms based on the monitored system parameter, and (iii) actuating at least one of the plurality of control mechanisms during at least one of compression or expansion of gas in the cylinder assembly in order to maintain the gas at a substantially constant temperature.
-
62. For an energy storage and recovery system suitable for the efficient use and conservation of energy resources, comprising (i) a cylinder assembly comprising two chambers separated by a movable boundary mechanism, (ii) a second cylinder assembly connected to the cylinder assembly, and (iii) a plurality of control mechanisms associated with the cylinder assembly for controlling a flow of fluid therethrough:
a control system for actuating the control mechanisms, the control system (i) being responsive to at least one sensor that monitors a system parameter comprising at least one of a fluid state, a fluid flow, a temperature, a pressure, a position of the boundary mechanism, or a rate of movement of the boundary mechanism, (ii) actuating at least one of the plurality of control mechanisms based on the monitored system parameter, and (iii) operating the cylinder assembly and the second cylinder assembly in a staged manner to provide a predetermined pressure profile at at least one outlet.
Specification