SYSTEMS AND METHODS FOR PROVIDING BACKUP ENERGY TO A LOAD

US 20110196542A1
Filed: 02/09/2010
Published: 08/11/2011
Est. Priority Date: 02/05/2003
Status: Active Grant

First Claim

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1. A system comprising:

a source of compressed air;

a fluid powered rotary engine coupled to the source of compressed air, the fluid powered rotary engine operable to receive the compressed air, the received compressed air driving the fluid powered rotary engine;

an electrical generator powered by said fluid powered rotary engine when said fluid powered rotary engine is driven by said compressed air, said electrical generator operable to provide backup power to a critical load when powered by said fluid powered rotary engine; and

a bridging energy system operable to provide backup power to said critical load during a disturbance in a supply of power from a primary power source at least until said electrical generator provides said backup power to said critical load, said bridging energy system operable to power to said critical load independent of said fluid powered rotary engine-generator system and said primary power source.

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Abstract

Backup energy systems utilizing compressed air storage (CAS) systems and bridging energy systems to supply backup power to a load are provided. During a power failure, the bridging energy system provides backup power to the load at least until the CAS system begins supplying adequate power. In various embodiments, backup power capability is enhanced through the use of one or more exhaustless heaters, which are used to heat compressed air. The compressed air, in turn, drives a turbine which is used to power an electrical generator. In various embodiments, ambient air heat exchangers or other types of heat exchangers are used to heat compressed air prior to the compressed air being routed to the turbine, thereby increasing system efficiency. Backup power and backup HVAC are also provided by utilizing turbine exhaust, heat exchangers and various resistive heating elements.

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32 Claims

1. A system comprising:
- a source of compressed air;
  
  a fluid powered rotary engine coupled to the source of compressed air, the fluid powered rotary engine operable to receive the compressed air, the received compressed air driving the fluid powered rotary engine;
  
  an electrical generator powered by said fluid powered rotary engine when said fluid powered rotary engine is driven by said compressed air, said electrical generator operable to provide backup power to a critical load when powered by said fluid powered rotary engine; and
  
  a bridging energy system operable to provide backup power to said critical load during a disturbance in a supply of power from a primary power source at least until said electrical generator provides said backup power to said critical load, said bridging energy system operable to power to said critical load independent of said fluid powered rotary engine-generator system and said primary power source.
- View Dependent Claims (2, 3, 4, 17, 18, 19, 20, 21, 22, 23)
- - 2. The system of claim 1, wherein said source of compressed air comprises:
    - a compressor that compresses air; and
      
      an air reservoir operable to collect said compressed air.
  - 3. The system of claim 2, wherein said air reservoir is a pressure tank.
  - 4. The system of claim 2, wherein said air reservoir is an underground salt dome.
  - 17. The system of claim 1, further comprising:
    - switching circuitry operable to switch a source of power to said critical load between said primary power source and a source of backup power, said source of backup power comprising said electrical generator and said bridging energy system; and
      
      uninterruptible power supply (UPS) control electronics that controls at least said switching circuitry and said fluid powered rotary engine based on said quality of power from said primary power source.
  - 18. The system of claim 17, wherein said switching circuit switches said source of power to said critical load from said primary power source to said source of backup power during degradation of said power coming from said primary power source.
  - 19. The system of claim 17, wherein said switching circuit switches said source of power to said critical load from said primary power source to said source of backup power during a loss of power from said primary power source.
  - 20. The system of claim 1, further comprising:
    - at least one fuel-combustion system coupled between said source of compressed air and said fluid powered rotary engine to heat said compressed air, said fuel-combustion system providing heated compressed air to said fluid powered rotary engine.
  - 21. The system of claim 20, further comprising:
    - switching circuitry that switches said source of power to said critical load between said primary power source and a source of backup power, said source of backup power comprising said electrical generator and said bridging energy system; and
      
      uninterruptible power supply (UPS) control electronics that controls at least said switching circuitry and said fluid powered rotary engine based on said quality of power from said primary power source.
  - 22. The system of claim 21, wherein said switching circuit switches said source of power to said critical load from said primary power source to said source of backup power during degradation of said power coming from said primary power source.
  - 23. The system of claim 21, wherein said switching circuit switches said source of power to said critical load from said primary power source to said source of backup power during a loss of power from said primary power source.

5-16. -16. (canceled)

24. An integrated uninterruptible power supply (UPS) system operable to provide backup power to a critical load in said event of a disturbance in a supply of power from a primary power source, said system comprising:
- a fluid powered rotary engine-generator system comprising;
  
  a source of compressed air;
  
  a fluid powered rotary engine coupled to said source of compressed air to receive said compressed air, said received compressed air driving said fluid powered rotary engine; and
  
  an electrical generator powered by said fluid powered rotary engine when said fluid powered rotary engine is driven by said compressed air, said generator providing said backup power when powered by said fluid powered rotary engine;
  
  a bridging energy system that, in said event of a disturbance in said supply of power from a primary power source, provides said backup power to a critical load during said disturbance at least until said electrical generator begins providing said backup power, wherein said bridging energy system provides said backup power to said critical load independent of said fluid powered rotary engine-generator system and said primary power source;
  
  switching circuitry that switches said source of power to said critical load between said primary power source and a source of backup power, said source of backup power comprising said electrical generator and a said bridging energy storage system; and
  
  uninterruptible power supply (UPS) control electronics that controls at least said switching circuitry and said fluid powered rotary engine based on said quality of power from said primary power source.
- View Dependent Claims (25, 26, 27, 28)
- - 25. The system of claim 24, wherein each of said fluid powered rotary engine, said electrical generator, said bridging energy system and said switching circuitry are located within a single housing.
  - 26. The system of claim 24, further comprising:
    - at least one exhaustless heater coupled between said source of compressed air and said fluid powered rotary engine to heat said compressed air, said exhaustless heater providing heated compressed air to said fluid powered rotary engine.
  - 27. The system of claim 24, wherein said fluid powered rotary engine, said electrical generator, said bridging energy system and said switching circuitry share at least one fan.
  - 28. The system of claim 24, wherein said fluid powered rotary engine, said electrical generator, said bridging energy system and said switching circuitry share at least one power supply.

29. A method for providing backup power to a critical load during a disturbance in a supply of power from a primary power source, said method comprising:
- providing compressed air;
  
  driving a fluid powered rotary engine using said compressed air;
  
  powering an electrical generator with said fluid powered rotary engine to provide backup power during said disturbance; and
  
  supplying bridging energy to said critical load during said disturbance at least until said electrical generator begins supplying said backup power, wherein said bridging energy is provided to said critical load independent of said backup power provided by said fluid powered rotary engine-generator system and said primary power source.
- View Dependent Claims (30, 31)
- - 30. The method of claim 29, further comprising:
    - using at least one exhaustless heater to heat said compressed air prior to said compressed air driving said fluid powered rotary engine.
  - 31. The method of claim 30, wherein at least a portion of said compressed air bypasses said exhaustless heater.

32. (canceled)

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Current Assignee
P10 Industries, Inc.
Original Assignee
Active Power Incorporated
Inventors
Perkins, David E., Beatty, David, Pinkerton, Joseph F.

Granted Patent

US 8,671,686 B2
Time in Patent Office

Days
Field of Search
US Class Current

700/287
CPC Class Codes

G06F 1/30 Means for acting in the eve...

SYSTEMS AND METHODS FOR PROVIDING BACKUP ENERGY TO A LOAD

First Claim

5 Assignments

0 Petitions

Accused Products

Abstract

Citations

32 Claims

Specification

Solutions

Use Cases

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SYSTEMS AND METHODS FOR PROVIDING BACKUP ENERGY TO A LOAD

First Claim

5 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

Citations

32 Claims

Specification

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Solutions

Use Cases

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