Method of optimizing cooling capacity, energy efficiency and reliability of a refrigeration system during temperature pull down
First Claim
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1. A sealed refrigerated container comprising:
- a refrigerated box;
a refrigeration system for cooling said box, said refrigeration system being provided with a compressor, evaporator, condenser, a throttle valve, an economizer circuit, a suction modulation valve, and an unloader valve for the compressor; and
a control for said refrigeration system, said control being programmed to achieve a decrease in the temperature of said box by operation of said compressor, said unloader valve, said suction modulation valve and said economizer circuit according to a logic designed to balance energy efficiency and cooling capacity, said control including a series of modes of operation being defined from a nominally minimal capacity to a nominally highest capacity, and said control beginning to operate said refrigerant cycle at a mode with a nominally lower capacity and increasing to modes with nominally higher capacity as time passes.
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Abstract
A unique method of operating a refrigeration system for rapidly pulling down a refrigerated container temperature includes the use and algorithm for operating several system components. The refrigeration system is preferably provided with a suction modulation valve, a compressor unloader and an economizer circuit. By utilizing each of these components in combination with one another, and at various stages during the pull down capacity and energy efficiency of the refrigeration system are optimized, while maintaining the system operation within preset limits.
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Citations
13 Claims
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1. A sealed refrigerated container comprising:
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a refrigerated box; a refrigeration system for cooling said box, said refrigeration system being provided with a compressor, evaporator, condenser, a throttle valve, an economizer circuit, a suction modulation valve, and an unloader valve for the compressor; and a control for said refrigeration system, said control being programmed to achieve a decrease in the temperature of said box by operation of said compressor, said unloader valve, said suction modulation valve and said economizer circuit according to a logic designed to balance energy efficiency and cooling capacity, said control including a series of modes of operation being defined from a nominally minimal capacity to a nominally highest capacity, and said control beginning to operate said refrigerant cycle at a mode with a nominally lower capacity and increasing to modes with nominally higher capacity as time passes. - View Dependent Claims (2, 3, 4, 5, 13)
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6. A method of operating a refrigeration system for cooling a refrigerated container comprising the steps of
(1) providing a refrigeration system for a sealed container, and providing circuit elements for said refrigeration system that allows said refrigeration system to be operated at modes of operation which are nominally of a higher capacity and a lower capacity than simple operation of said refrigeration system in a standard mode; -
(2) beginning operation of said refrigeration system to begin cooling down said container at a mode which is nominally lower in refrigerant capacity than operation in a standard mode; and (3) increasing the operation through higher modes, until a mode is reached which is nominally higher than operation in said standard mode. - View Dependent Claims (7, 8, 9)
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10. A method of operating a refrigeration system for a refrigerated container comprising the steps of:
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(1) providing a refrigeration system including an unloader valve, a suction modulation valve, an economizer circuit, and a control which is operable to define six modes of operation by utilizing the suction modulation valve in conjunction with the unloader (mode
6), using only the unloader (mode
5), using only the suction modulation valve (mode
4), using none of the three elements (mode
3), using the economizer circuit with the suction modulation valve (mode
2), and using the economizer circuit (mode
1), and defining the six modes of operation as six through one, respectively;(2) beginning operation of said refrigerant circuit in one of modes five and six for a period of time, and monitoring operational limits during said period of time, and if operational limits are not exceeded, increasing upwardly to one of modes 2, 3 and 4; (3) operating the refrigeration system in said modes 2, 3, or 4 for a period of time and monitoring operational limits; (4) if operational limits are not exceeded within said period of time, moving said refrigeration system to modes 1 or 2; and (5) moving from a lower number mode to a higher number mode should said operational limits be exceeded during any mode of operation. - View Dependent Claims (11, 12)
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Specification