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Enis Ben M, Lieberman Paul: Thermal energy storage system using compressed air energy and/or chilled water from desalination processes. Enis Ben M, Lieberman Paul, SHIMAZAKI John J, May 2, 2008: WO/2008/051427 (36 worldwide citation)

The invention relates to a universal system for producing cost effective energy particularly for cooling purposes. In one embodiment, wind turbines are used to generate electricity and compressed air energy, wherein the compressed air energy is used to co-generate electricity and chilled air. The ch ...


2
Enis Ben M, Lieberman Paul: An improved method of transporting and storing wind generated energy using a pipeline. Enis Ben M, Lieberman Paul, SHIMAZAKI J John, August 9, 2007: WO/2007/089872 (35 worldwide citation)

Wind turbine based power generation and storage system network and method wherein potential energy is stored as compressed air. A high-pressure pneumatic pipeline system is employed to link remote wind farms. The pipelines are located on the desert floor and adjacent railroad beds. The compressed ai ...


3
Ben Enis M, Lieberman Paul: A method of storing and transporting wind generated energy using a pipeline system. Ben Enis M, Lieberman Paul, SHIMAZAKI John J, December 16, 2004: WO/2004/109172 (35 worldwide citation)

The invention relates to a method of using a pipeline system for storing and transporting compressed air energy generated by wind turbines, wherein the pipeline preferably extends along a predetermined route, between a remote location where wind conditions are relatively consistent and predicable, a ...


4
Enis Ben M, Lieberman Paul: Desalination method and system using a continuous helical slush removal system. Enis Ben M, Lieberman Paul, SHIMAZAKI J John, January 31, 2008: WO/2008/013870 (16 worldwide citation)

The invention relates to a desalination method and system that uses freeze crystallization technology that incorporates the use of compressed air energy as the source for freezing temperatures. When compressed air is released by a turbo expander, chilled air is produced as a by-product, wherein the ...


5
Enis Ben M, Lieberman Paul: Desalination method and system using compressed air energy systems. Enis Ben M, Lieberman Paul, SHIMAZAKI J John, October 25, 2007: WO/2007/120525 (16 worldwide citation)

The invention relates to a desalination method and system that uses freeze crystallization technology that incorporates the use of compressed air energy as the source for freezing temperatures. When compressed air is released by a turbo expander, chilled air is produced as a by-product, wherein the ...


6
Ben M Enis, Lieberman Paul: Storing and using energy to reduce the end-user cost. Ben M Enis, Lieberman Paul, SHIMAZAKI J John, May 6, 2005: WO/2005/041326 (5 worldwide citation)

The invention relates to an energy storing method and apparatus for use by end-users of energy, such as commercial property owners and operators. The system differs from past systems, insofar as it is not intended to be used by and in connection with energy suppliers, such as large utility and power ...


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Enis Ben M, Lieberman Paul: A method of coordinating and stabilizing the delivery of wind generated energy. Enis Ben M, Lieberman Paul, SHIMAZAKI John J, December 29, 2004: WO/2004/113720 (1 worldwide citation)

The invention relates to a method of coordinating and stabilizing the delivery of wind generated power, such as to a power grid, so as to avoid sudden surges and spikes, despite wind speed fluctuations and oscillations. The method preferably uses a plurality of windmill stations, including a number ...


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Enis Ben M, Lieberman Paul: Desalination method and system using a continuous helical slush removal system. Enis Ben M, Lieberman Paul, June 17, 2009: EP2069695-A2

The invention relates to a desalination method and system that uses freeze crystallization technology that incorporates the use of compressed air energy as the source for freezing temperatures. When compressed air is released by a turbo expander, chilled air is produced as a by-product, wherein the ...



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