1
Benjamin R Bollinger, Troy O McBride, Michael Schaefer: Systems and methods for improving drivetrain efficiency for compressed gas energy storage. SustainX, Bingham McCutchen, June 21, 2011: US07963110 (44 worldwide citation)

In various embodiments, systems for providing a constant electrical output from a compressed gas energy storage and recovery system include a hydraulic-pneumatic energy storage and recovery system configured to provide a varying pressure profile at least at one outlet, a hydraulic motor-pump in flui ...


2
Benjamin R Bollinger, Troy O McBride: Systems and methods for improving drivetrain efficiency for compressed gas energy storage and recovery systems. SustainX, Bingham McCutchen, November 1, 2011: US08046990 (43 worldwide citation)

The invention relates to power generation and energy storage and recovery. In particular, the invention relates to compressed gas energy storage and recovery systems using staged pneumatic conversion systems for providing narrow pressure ranges to a hydraulic motor.


3
BOLLINGER BENJAMIN R: Systems and methods for improving drivetrain efficiency for compressed gas energy storage. SUSTAINX, Forcier John V, September 16, 2010: WO/2010/105155 (36 worldwide citation)

Generally, the invention relates to power generation and energy storage. In particular, to systems and methods for providing constant power from hydraulic inputs having widely-varying pressures. More particularly, the invention relates to hydraulic-pneumatic energy storage and recovery systems that ...


4
Benjamin R Bollinger, Troy O McBride, Michael Schaefer: Systems and methods for improving drivetrain efficiency for compressed gas energy storage. SustainX, Bingham McCutchen, August 7, 2012: US08234868 (18 worldwide citation)

In various embodiments, systems for providing a constant electrical output from a compressed gas energy storage and recovery system include a hydraulic-pneumatic energy storage and recovery system configured to provide a varying pressure profile at least at one outlet, a hydraulic motor-pump in flui ...


5
Benjamin R Bollinger, Troy O McBride, Michael Schaefer: Systems and methods for improving drivetrain efficiency for compressed gas energy storage. October 20, 2011: US20110252777-A1

Generally, the invention relates to power generation and energy storage. In particular, to systems and methods for providing constant power from hydraulic inputs having widely-varying pressures. More particularly, the invention relates to hydraulic-pneumatic energy storage and recovery systems that ...


6
Benjamin R Bollinger, Troy O McBride: Systems and Methods for Improving Drivetrain Efficiency for Compressed Gas Energy Storage and Recovery Systems. Goodwin Procter, December 9, 2010: US20100307156-A1

The invention relates to power generation and energy storage and recovery. In particular, the invention relates to compressed gas energy storage and recovery systems using staged pneumatic conversion systems for providing narrow pressure ranges to a hydraulic motor.


7
Benjamin R Bollinger, Troy O McBride: Systems and methods for improving drivetrain efficiency for compressed gas energy storage and recovery systems. June 16, 2011: US20110138797-A1

The invention relates to power generation and energy storage and recovery. In particular, the invention relates to compressed gas energy storage and recovery systems using staged pneumatic conversion systems for providing narrow pressure ranges to a hydraulic motor.


8
Benjamin R Bollinger, Troy O McBride, Michael Schaefer: Systems and Methods for Improving Drivetrain Efficiency for Compressed Gas Energy Storage. SustainX, Goodwin Procter, September 16, 2010: US20100229544-A1

Generally, the invention relates to power generation and energy storage. In particular, to systems and methods for providing constant power from hydraulic inputs having widely-varying pressures. More particularly, the invention relates to hydraulic-pneumatic energy storage and recovery systems that ...