HVAC system with powered subcooler

US 7,908,881 B2
Filed: 03/14/2006
Issued: 03/22/2011
Est. Priority Date: 03/14/2005
Status: Active Grant

First Claim

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1. An HVAC system comprising:

a main circuit comprising a main circuit evaporator, a main circuit expansion device, a main circuit condenser and a main circuit compressor connected in a first closed refrigerant loop;

a subcooler circuit comprising a subcooler evaporator, a subcooler expansion device, a subcooler condenser and a subcooler compressor connected in a second closed refrigerant loop, wherein the subcooler compressor is configured to compress high-pressure refrigerant and the subcooler circuit utilizes a refrigerant with a lower operating pressure than the refrigerant in the main circuit, wherein the subcooler circuit is selectably operable;

the subcooler evaporator being arranged and disposed to exchange heat between liquid refrigerant in the main circuit and the refrigerant in the subcooler circuit to cool the liquid refrigerant in the main circuit prior to entering the main circuit evaporator, wherein the main circuit condenser operates independently of the subcooler circuit;

wherein the coils of the subcooler circuit condenser are positioned downstream of a cooling fluid passing over coils of the main circuit condenser;

wherein a fluid moving device moves the cooling fluid through the subcooler condenser and the main circuit condenser;

wherein a cooling capacity of the subcooler circuit is less than a cooling capacity of the main circuit; and

wherein the operation of the subcooler circuit provides an increased cooling capacity per unit of a mass flow of cooling fluid through the main circuit condenser and subcooler condenser for the HVAC system with a predetermined design efficiency.

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Abstract

An HVAC system having a main circuit and a subcooler circuit. The main circuit includes a main circuit evaporator, a main circuit expansion device, a main circuit condenser and a main circuit compressor connected in a closed refrigerant loop. The subcooler circuit includes a subcooler evaporator, a subcooler expansion device, a subcooler condenser and a subcooler compressor connected in a closed refrigerant loop. The subcooler evaporator is arranged and disposed to exchange heat between liquid refrigerant in the main circuit and the refrigerant in the subcooler circuit to cool the liquid refrigerant in the main circuit prior to entering the main circuit evaporator. The operation of the subcooler circuit provides an increased cooling capacity per unit of a mass flow of cooling fluid through the main circuit condenser and subcooler condenser for the HVAC system with a predetermined design efficiency.

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25 Claims

1. An HVAC system comprising:
- a main circuit comprising a main circuit evaporator, a main circuit expansion device, a main circuit condenser and a main circuit compressor connected in a first closed refrigerant loop;
  
  a subcooler circuit comprising a subcooler evaporator, a subcooler expansion device, a subcooler condenser and a subcooler compressor connected in a second closed refrigerant loop, wherein the subcooler compressor is configured to compress high-pressure refrigerant and the subcooler circuit utilizes a refrigerant with a lower operating pressure than the refrigerant in the main circuit, wherein the subcooler circuit is selectably operable;
  
  the subcooler evaporator being arranged and disposed to exchange heat between liquid refrigerant in the main circuit and the refrigerant in the subcooler circuit to cool the liquid refrigerant in the main circuit prior to entering the main circuit evaporator, wherein the main circuit condenser operates independently of the subcooler circuit;
  
  wherein the coils of the subcooler circuit condenser are positioned downstream of a cooling fluid passing over coils of the main circuit condenser;
  
  wherein a fluid moving device moves the cooling fluid through the subcooler condenser and the main circuit condenser;
  
  wherein a cooling capacity of the subcooler circuit is less than a cooling capacity of the main circuit; and
  
  wherein the operation of the subcooler circuit provides an increased cooling capacity per unit of a mass flow of cooling fluid through the main circuit condenser and subcooler condenser for the HVAC system with a predetermined design efficiency.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The HVAC system of claim 1, wherein the one or both of the main circuit expansion device or the subcooler expansion device outputs a two-phase refrigerant.
  - 3. The HVAC system of claim 1, wherein the system further comprises a controller.
  - 4. The HVAC system of claim 3, wherein the controller activates or deactivates one or more condenser fans in response to one of an ambient air temperature or a refrigerant temperature.
  - 5. The HVAC system of claim 3, wherein the controller activates or deactivates the subcooling circuit in response to parameters selected from a group consisting of:
    - ambient air temperature, compressor operation in the main circuit, and refrigerant temperature.
  - 6. The HVAC system of claim 1, further comprising at least one additional subcooler circuit, wherein each additional subcooler circuit comprises an additional subcooler evaporator, an additional subcooler expansion device, an additional subcooler condenser and an additional subcooler compressor connected in an additional closed refrigerant loop.
  - 7. The HVAC system of claim 1, wherein the subcooler evaporator is a flash tank.
  - 8. The HVAC system of claim 1, wherein the high-pressure refrigerant is a refrigerant selected from the group consisting of carbon dioxide, R32, R125, R410A, R-22, and R-407C.
  - 9. The HVAC system of claim 1, wherein the refrigerant with a lower operating pressure is a refrigerant selected from the group consisting of R-134a, propane, dimethyl ether, and ammonia.

10. An HVAC system comprising:
- a main circuit comprising a main circuit evaporator, a main circuit expansion device, a main circuit condenser and a main circuit compressor connected in a first closed refrigerant loop; and
  
  a first subcooler circuit comprising a first subcooler evaporator, a first subcooler expansion device, a first subcooler condenser and a first subcooler compressor connected in a second closed refrigerant loop, wherein the first subcooler circuit is selectably operable;
  
  a second subcooler circuit comprising a second subcooler evaporator, a second subcooler expansion device, a second subcooler condenser and a second subcooler compressor connected in a third closed refrigerant loop, wherein the second subcooler circuit is selectably operable; and
  
  the first subcooler evaporator and second subcooler evaporator each being arranged and disposed to exchange heat between liquid refrigerant in the main circuit and the refrigerant in the corresponding subcooler circuit to cool the liquid refrigerant in the main circuit prior to entering the main circuit evaporator,wherein the coils of at least one of the first subcooler circuit condenser and the second subcooler circuit condenser are positioned downstream of a cooling fluid passing over coils of the main circuit condenser;
  
  wherein a fluid moving device moves the cooling fluid through one or more of the subcooler condensers and the main circuit condenser;
  
  wherein the main circuit condenser operates independently of the first and second subcooler circuits, andwherein a cooling capacity of the first subcooler circuit and a cooling capacity of the second subcooler circuit is less than a cooling capacity of the main circuit.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
- - 11. The HVAC system of claim 10 wherein the first and second subcooler evaporators are arranged in a series flow configuration, the series flow configuration comprising flow of refrigerant in the main circuit through the first subcooler evaporator then through the second subcooler evaporator to increase the evaporating temperature of the first subcooler.
  - 12. The HVAC system of claim 10, wherein at least a portion of the cooling fluid in main circuit condenser also flows through the condenser for one or more of the subcooler circuits.
  - 13. The HVAC system of claim 10, wherein one or more of the first subcooler evaporator or second subcooler evaporator is a flash tank.
  - 14. The HVAC system of claim 10, wherein the first subcooler expansion device and second subcooler expansion device are different devices.
  - 15. The HVAC system of claim 14, wherein the first subcooler expansion device is a fixed orifice and second subcooler expansion device is an expansion valve.
  - 16. The HVAC system of claim 10, wherein the first subcooler compressor and second subcooler compressor have different compressive capacities.
  - 17. The HVAC system of claim 10, wherein refrigerant in the first subcooler circuit is different than the refrigerant in the second subcooler circuit.

18. An HVAC system comprising:
- a main circuit comprising a main circuit evaporator, a main circuit expansion device, a main circuit condenser and a main circuit compressor connected in a first closed refrigerant loop, the main circuit circulating a refrigerant with a critical temperature below about 80°
  
  C.;
  
  a subcooler circuit comprising a subcooler evaporator, a subcooler expansion device, a subcooler condenser and a subcooler compressor connected in a second closed refrigerant loop, wherein the subcooler circuit is selectably operable;
  
  the subcooler evaporator being arranged and disposed to exchange heat between liquid refrigerant in the main circuit and the refrigerant in the subcooler circuit to cool the liquid refrigerant in the main circuit prior to entering the main circuit evaporator;
  
  wherein coils of the subcooler circuit condenser are positioned downstream of a cooling fluid passing over coils of the main circuit condenser;
  
  wherein a fluid moving device moves the cooling fluid through the subcooler condenser and the main circuit condenser;
  
  wherein the main circuit condenser operates independently of the subcooler circuit;
  
  wherein a cooling capacity of the subcooler circuit is less than a cooling capacity of the main circuit; and
  
  wherein the operation of the subcooler circuit provides greater cooling capacity per unit of a mass flow of cooling fluid through the main circuit condenser and subcooler condenser for the HVAC system with a predetermined design efficiency.
- View Dependent Claims (19, 20, 21, 22)
- - 19. The HVAC system of claim 18, wherein said refrigerant circulated in the main circuit comprises a mixture of R-125 and R-32.
  - 20. The HVAC system of claim 18 wherein said refrigerant circulated in the main circuit comprises R-410A.
  - 21. The HVAC system of claim 18 wherein said refrigerant circulated in the main circuit comprises carbon dioxide.
  - 22. The HVAC system of claim 18 wherein said refrigerant circulated in the main circuit comprises a condensing temperature greater than about 20°
    - C.

23. A method for subcooling an HVAC system, comprising:
- providing a main circuit comprising a main circuit evaporator, a main circuit expansion device, a main circuit condenser and a main circuit compressor connected in a first closed refrigerant loop;
  
  providing a subcooler circuit comprising a subcooler evaporator, a subcooler expansion device, a subcooler condenser and a subcooler compressor connected in a second closed refrigerant loop, wherein the subcooler circuit is selectably operable;
  
  positioning coils of the subcooler circuit condenser downstream of the coils of the main circuit condenser so that cooling fluid of the main circuit condenser is configured to pass over coils of the main circuit condenser prior to passing over coils of the subcooler circuit condenser;
  
  subcooling refrigerant in the main circuit with the subcooler evaporator prior to the refrigerant in the main circuit entering the main circuit evaporator to provide an increased cooling capacity per unit of airflow for the HVAC system with a predetermined design efficiency, wherein the main circuit condenser operates independently of the subcooler circuit, and wherein a cooling capacity of the subcooler circuit is less than a cooling capacity of the main circuit;
  
  sensing one of an ambient air temperature or a refrigerant temperature;
  
  activating or deactivating the compressor in at least one of the main circuit and the subcooler circuit in response to the sensed condition; and
  
  activating or deactivating one or more fluid moving devices providing fluid flow to the main circuit condenser and subcooler condenser in response to the sensed condition.
- View Dependent Claims (24, 25)
- - 24. The method of claim 23, further comprising condensing at least a portion of refrigerant in the subcooling circuit with air entering or exiting the main circuit condenser.
  - 25. The method of claim 23, further comprising configuring the subcooler compressor to compress high-pressure refrigerant and circulating a low-pressure refrigerant in the subcooler circuit.

Specification

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Current Assignee
Johnson Controls Tyco IP Holdings LLP (Johnson Controls International plc)
Original Assignee
York International Corporation (Johnson Controls International plc)
Inventors
Kopko, William L.
Primary Examiner(s)
Tyler; Cheryl J
Assistant Examiner(s)
LOFFREDO, JUSTIN E

Application Number

US11/375,621
Publication Number

US 20060201188A1
Time in Patent Office

1,834 Days
Field of Search

623/33, 623/35, 625/13, 622/23, 62/79, 621/75
US Class Current

62/333
CPC Class Codes

F25B 13/00   Compression machines, plant...

F25B 2309/061   with cycle highest pressure...

F25B 2313/02741   using one four-way valve

F25B 2339/047   Water-cooled condensers

F25B 2400/0417   for the subcooler

F25B 2400/075   with parallel compressors

F25B 2400/23   Separators

F25B 2600/0251   with on-off operation

F25B 2600/111   of condenser fans

F25B 2700/2106   of fresh outdoor air

F25B 40/02   Subcoolers

F25B 6/02   arranged in parallel

F25B 7/00   Compression machines, plant...

F25B 9/008   the refrigerant being carbo...

Y02B 30/70   Efficient control or regula...

HVAC system with powered subcooler

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

55 Citations

25 Claims

Specification

Solutions

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HVAC system with powered subcooler

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

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Accused Products

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Abstract

55 Citations

25 Claims

Specification

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Solutions

Use Cases

Quick Links