Optimized selection of dissimilar chillers

US 4,463,574 A
Filed: 03/15/1982
Issued: 08/07/1984
Est. Priority Date: 03/15/1982
Status: Expired due to Term

First Claim

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1. A system for meeting building air conditioning load conditions by optimally selecting a combination of chillers, said chillers providing a supply of chilled water to said building and for receiving return water, said system comprising:

load sensing means for sensing building load;

refrigerant head sensing means for sensing refrigerant head of said chillers; and

,control means connected to said load sensing means and to said refrigerant head sensing means for sorting said chillers according to their efficiency characteristic curves with the chiller having a minimum kw/ton versus capacity point being ranked first and for selecting a combination of said chillers which will require a minimum energy input to meet building load conditions.

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Abstract

A system for meeting building air conditioning load conditions by optimally selecting a combination of chillers having dissimilar efficiency characteristics, the system having a load sensor for sensing building load a refrigerant head sensor for sensing refrigerant head of the chillers, and a controller connected to the load sensor and to the refrigerant head sensor for sorting the chillers according to their efficiency characteristics data with the chiller having a minimum kw/ton versus capacity point being ranked first and for selecting a combination of the chillers which will require a minimum energy input to meet building load conditions.

125 Citations

21 Claims

1. A system for meeting building air conditioning load conditions by optimally selecting a combination of chillers, said chillers providing a supply of chilled water to said building and for receiving return water, said system comprising:
- load sensing means for sensing building load;
  
  refrigerant head sensing means for sensing refrigerant head of said chillers; and
  
  ,control means connected to said load sensing means and to said refrigerant head sensing means for sorting said chillers according to their efficiency characteristic curves with the chiller having a minimum kw/ton versus capacity point being ranked first and for selecting a combination of said chillers which will require a minimum energy input to meet building load conditions.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The system of claim 1 wherein said control means further comprises power sensing means for sensing energy requirements of each chiller so that energy efficiency characteristic information can be stored for each of said chillers.
  - 3. The system of claim 1 wherein said load sensing means comprises temperature sensing means for sensing the temperature of said chilled water supply of said chillers, temperature sensing means for sensing the temperature of said return water of said chillers, and means for determining flow rate of said chilled and return water.
  - 4. The system of claim 3 wherein said refrigerant head sensing means comprises temperature sensing means for sensing the temperature of said chilled water supply and temperature sensing means for sensing condensor supply water temperature of said chillers.
  - 5. The system of claim 4 wherein said control means further comprises power sensing means for sensing energy requirements of each chiller so that energy efficiency characteristic information can be stored for each of said chillers.

6. A system for meeting building air conditioning load conditions by optimally selecting a combination of chillers, said chillers providing a supply of chilled water to said building and for receiving return water, said system comprising:
- load sensing means for sensing building load;
  
  refrigerant head sensing means for sensing refrigerant head of said chillers; and
  
  ,control means connected to said load sensing means and to said refrigerant head sensing means for sorting said chillers according to their efficiency characteristic curves with said chiller having a minimum kw/ton versus capacity point being ranked first and for selecting, by adding and subtracting predetermined steps of capacity for said chillers and selecting the combination of steps resulting in the most efficient kw/ton change, a combination of said chillers which will require a minimum energy input to meet building load conditions.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The system of claim 6 wherein said control means further comprises power sensing means for sensing energy requirements of each chiller so that energy efficiency characteristic information can be stored for each of said chillers.
  - 8. The system of claim 6 wherein said load sensing means comprises temperature sensing means for sensing the temperature of said chilled water supply of said chillers, temperature sensing means for sensing the temperature of said return water of said chillers, and means for determining flow rate of said chilled and return water.
  - 9. The system of claim 8 wherein said refrigerant head sensing means comprises temperature sensing means for sensing the temperature of said chilled water supply and temperature sensing means for sensing condensor supply water temperature of said chillers.
  - 10. The system of claim 9 wherein said control means further comprises power sensing means for sensing energy requirements of each chiller so that energy efficiency characteristic information can be stored for each of said chillers.

11. A system for meeting building air conditioning load conditions by optimally selecting a combination of chillers, said chillers providing a supply of chilled water to said building and for receiving return water, said system comprising:
- load sensing means for sensing building load;
  
  refrigerant head sensing means for sensing refrigerant head of said chillers; and
  
  ,control means connected to said load sensing means and to said refrigerant head sensing means for storing energy efficiency characteristic data by predetermined refrigerant heads for each chiller, for sorting said chillers according to said energy efficiency characteristic data with said chiller having a minimum kw/ton versus capacity point being ranked first, and for selecting a combination of said chillers which will require a minimum energy input to meeting building load conditions.
- View Dependent Claims (12, 13, 14, 15)
- - 12. The system of claim 11 wherein said control means further comprises power sensing means for sensing energy requirements of each chiller so that said energy efficiency characteristic data can be stored for each of said chillers.
  - 13. The system of claim 11 wherein said load sensing means comprises temperature sensing means for sensing the temperature of said chilled water supply of said chillers, temperature sensing means for sensing the temperature of said return water of said chillers, and means for determining flow rate of said chilled and return water.
  - 14. The system of claim 13 wherein said refrigerant head sensing means comprises temperature sensing means for sensing the temperature of said chilled water supply and temperature sensing means for sensing condensor supply water temperature of said chillers.
  - 15. The system of claim 14 wherein said control means further comprises power sensing means for sensing energy requirements of each chiller so that said energy efficiency characteristic data can be stored for each of said chillers.

16. A system for meeting building air conditioning load conditions by optimally selecting a combination of chillers, said chillers providing a supply of chilled water to said building and for receiving return water, said system comprising:
- load sensing means for sensing building load;
  
  refrigerant head sensing means for sensing refrigerant head of said chillers; and
  
  ,control means connected to said load sensing means and to said refrigerant head sensing means for storing tables of energy efficiency characteristic data by predetermined refrigerant heads for each chiller, refrigerant heads for each chiller, for sorting said chillers according to their energy efficiency characteristic data with said chiller having a minimum kw/ton versus capacity point being ranked first, and for selecting, by adding and subtracting predetermined steps of capacity for said chillers and selecting the combination of steps resulting in the most efficient kw/ton change, a combination of said chillers which will require a minimum energy input to meet building load conditions.
- View Dependent Claims (17, 18, 19, 20)
- - 17. The system of claim 16 wherein said control means further comprises power sensing means for sensing energy requirements of each chiller so that said energy efficiency characteristic data can be stored for each of said chillers.
  - 18. The system of claim 16 wherein said load sensing means comprises temperature sensing means for sensing the temperature of said chilled water supply of said chillers, temperature sensing means for sensing the temperature of said return water of said chillers, and means for determining flow rate of said chilled and return water.
  - 19. The system of claim 18 wherein said refrigerant head sensing means comprises temperature sensing means for sensing the temperature of said chilled water supply and temperature sensing means for sensing condensor supply water temperature of said chillers.
  - 20. The system of claim 19 wherein said control means further comprises power sensing means for sensing energy requirements of each chiller so that said energy efficiency characteristic data can be stored for each of said chillers.

21. A system for meeting building air conditioning load conditions by optimally selecting a combination of chillers, said chillers providing a supply of chilled water to said building and for receiving return water, said system comprising:
- load sensing means for sensing building load;
  
  refrigerant head sensing means for sensing refrigerant head of said chillers; and
  
  ,control means connected to said load sensing means and to said refrigerant head sensing means for storing tables of energy efficiency characteristic data by predetermined refrigerant heads for each chiller, for sorting said chillers according to their energy efficiency characteristic data with said chiller having a minimum kw/ton versus capacity point being ranked first, and for selecting, in a sequential addition method, by adding and subtracting predetermined steps of capacity for chillers and selecting the combination of steps resulting in the most efficient kw/ton change, a combination of said chillers which will require a minimum energy input to meet building load conditions, for determining the lowest cost single machine which can meet load and using the lower cost of the sequential addition method or the single machine to meet building load, and, if a single machine is insufficient, adding to the first machine found in the sequential addition method another chiller or combination of chillers resulting in minimum cost and minimum number of chillers to meet building load, and for using the chillers resulting in minimum cost and minimum number of chillers or the chillers selected in the sequential addition method whichever results in minimum cost.

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Current Assignee
Honeywell Incorporated (Honeywell International Inc.)
Original Assignee
Honeywell Incorporated (Honeywell International Inc.)
Inventors
Spethmann, Donald H., Emerson, Lucy T. Y.
Primary Examiner(s)
Wayner, William E.

Application Number

US06/358,497
Time in Patent Office

876 Days
Field of Search

62/175, 62/510, 62/203, 62/228.5, 236/1 EA, 307/39, 364/141, 364/156, 364/493, 364/505
US Class Current

62/175
CPC Class Codes

F24F 11/30   for purposes related to the...

F24F 11/46   Improving electric energy e...

F24F 11/64   using pre-stored data

F24F 11/83   by controlling the supply o...

F24F 2110/10   Temperature

F24F 2140/00   Control inputs relating to ...

F24F 2140/50   Load

F25B 2400/061   the capacity of the first s...

F25B 49/02   for compression type machin...

G05D 23/1912   whose output amplitude can ...

Optimized selection of dissimilar chillers

First Claim

1 Assignment

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Abstract

125 Citations

21 Claims

Specification

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Optimized selection of dissimilar chillers

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

125 Citations

21 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links