Compressor capacity control system
First Claim
1. A method of controlling a compressor in a transport temperature control unit, the temperature control unit having a prime mover providing power to the compressor, and the compressor having a power requirement that varies depending on loading conditions of the compressor, the method comprising:
- determining the maximum power available from the prime mover;
determining the power requirement of the compressor; and
adjusting the loading conditions of the compressor so that the power requirement of the compressor substantially equals the maximum power available from the prime mover;
wherein adjusting the loading conditions of the compressor includes at least one of (a) while operating the compressor at a low speed setting, varying a suction pressure setting as permitted by the maximum amount of power available to run the compressor until the suction pressure setting reaches a maximum suction pressure setting, and only after the suction pressure setting reaches a maximum suction pressure setting, increasing the speed of the compressor as permitted by the maximum amount of power available to run the compressor; and
(b) while operating the compressor at a maximum suction pressure setting, varying a compressor speed setting as required by the maximum amount of power available to run the compressor until the compressor speed setting reaches a minimum speed setting, and only after the compressor speed setting reaches the minimum speed setting, reducing the suction pressure setting as required by the maximum amount of power available to run the compressor.
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Accused Products
Abstract
A method of controlling a compressor in a transport temperature control unit having a prime mover providing power to the compressor. The compressor has a power requirement that varies depending on loading conditions. The method includes determining the maximum power available from the prime mover, determining the power requirement of the compressor, and adjusting the loading conditions of the compressor so that the power requirement of the compressor substantially equals the maximum power available from the prime mover. Preferably, the method includes starting the compressor at a low speed, varying the suction pressure as permitted by the maximum amount of power available until the suction pressure reaches a maximum suction pressure setting, and after the suction pressure reaches a maximum suction pressure setting, increasing the speed of the compressor as permitted by the maximum-amount of power available.
139 Citations
24 Claims
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1. A method of controlling a compressor in a transport temperature control unit, the temperature control unit having a prime mover providing power to the compressor, and the compressor having a power requirement that varies depending on loading conditions of the compressor, the method comprising:
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determining the maximum power available from the prime mover;
determining the power requirement of the compressor; and
adjusting the loading conditions of the compressor so that the power requirement of the compressor substantially equals the maximum power available from the prime mover;
wherein adjusting the loading conditions of the compressor includes at least one of (a) while operating the compressor at a low speed setting, varying a suction pressure setting as permitted by the maximum amount of power available to run the compressor until the suction pressure setting reaches a maximum suction pressure setting, and only after the suction pressure setting reaches a maximum suction pressure setting, increasing the speed of the compressor as permitted by the maximum amount of power available to run the compressor; and
(b) while operating the compressor at a maximum suction pressure setting, varying a compressor speed setting as required by the maximum amount of power available to run the compressor until the compressor speed setting reaches a minimum speed setting, and only after the compressor speed setting reaches the minimum speed setting, reducing the suction pressure setting as required by the maximum amount of power available to run the compressor. - View Dependent Claims (2, 3, 4)
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5. A method of controlling a compressor in a transport temperature control unit, the temperature control unit having a prime mover providing power to the compressor, and the compressor having a power requirement that varies depending on the loading conditions of the compressor, the method comprising:
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determining the maximum power available from the prime mover;
operating the compressor at a first loading condition;
determining the power requirement for the compressor at the first loading condition;
comparing the power requirement for the compressor to the maximum power available to determine if the compressor should continue operating at the first loading condition; and
if the compressor should not continue operating at the first loading condition, adjusting the loading conditions so that the power requirement of the compressor substantially equals the maximum power available from the prime mover by at least one of (a) while operating the compressor at a first speed setting, varying a suction pressure setting as permitted by the maximum amount of power available to run the compressor until the suction pressure setting reaches a predetermined suction pressure setting, and only after the suction pressure setting reaches the predetermined suction pressure setting, increasing the speed of the compressor as permitted by the maximum amount of power available to run the compressor; and
(b) while operating the compressor at a first suction pressure setting, varying a compressor speed setting as required by the maximum amount of power available to run the compressor until the compressor speed setting reaches a predetermined speed setting, and only after the compressor speed setting reaches the predetermined speed setting, reducing the suction pressure setting as required by the maximum amount of power available to run the compressor. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12)
shutting down the unit when the power requirement is greater than the maximum power available.
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10. The method of claim 5, further comprising:
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estimating the power requirement for the compressor at a second loading condition; and
comparing the estimated power requirement at the second loading condition to the maximum power available to determine if the compressor should be operated under the second loading condition.
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11. The method of claim 10, wherein the estimated power requirement for the compressor is calculated using the equation
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V d ( RPM 60 ) · ( ( PR ) ( n - 1 n ) - 1 ) · ( VE AE ) .
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12. The method of claim 10, wherein the estimated power requirement for the compressor is determined using a look-up table.
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13. A method of compressor control to maximize the pull-down capacity of a temperature control unit with respect to a predetermined maximum power available to run the compressor, the method comprising:
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starting the compressor at a low speed setting and at a suction pressure setting no greater than a predetermined maximum startup setting;
varying the suction pressure setting as permitted by the maximum amount of power available to run the compressor until the suction pressure reaches a maximum suction pressure setting; and
only after the suction pressure reaches a maximum suction pressure setting, increasing the speed of the compressor as permitted by the maximum amount of power available to run the compressor. - View Dependent Claims (14, 15, 16, 17, 18)
after starting the compressor, determining a power requirement for the compressor.
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15. The method of claim 14, further comprising:
comparing the power requirement for the compressor to the maximum power available to determine how to vary the suction pressure and the compressor speed.
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16. The method of claim 14, wherein the power requirement for the compressor is calculated using the equation
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V d ( RPM 60 ) · ( ( PR ) ( n - 1 n ) - 1 ) · ( VE AE ) .
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17. The method of claim 14, wherein the power requirement for the compressor is determined using a look-up table.
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18. The method of claim 13, wherein once the predetermined maximum power available to run the compressor is surpassed, the method further comprises:
reducing the compressor speed to a minimum speed setting before reducing the suction pressure.
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19. A method of compressor control to maximize the pull-down capacity of a temperature control unit with respect to a predetermined maximum power available to run the compressor, the method comprising:
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operating the compressor at a maximum suction pressure setting;
varying a compressor speed setting as required by the maximum amount of power available to run the compressor until the compressor speed setting reaches a minimum speed setting; and
only after the compressor speed setting reaches the minimum speed setting, reducing the suction pressure setting as required by the maximum amount of power available to run the compressor. - View Dependent Claims (20, 21, 22, 23, 24)
determining a power requirement for the compressor.
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21. The method of claim 20, further comprising:
comparing the power requirement for the compressor to the maximum power available to determine how to vary the suction pressure and the compressor speed.
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22. The method of claim 20, wherein the power requirement for the compressor is calculated using the equation.
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V d ( RPM 60 ) · ( ( PR ) ( n - 1 n ) - 1 ) · ( VE AE ) .
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23. The method of claim 20, wherein the power requirement for the compressor is determined using a look-up table.
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24. The method of claim 19, further comprising:
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starting the compressor at a low speed setting and at a suction pressure setting no greater than a predetermined maximum startup setting;
varying the suction pressure setting as permitted by the maximum amount of power available to run the compressor until the suction pressure reaches the maximum suction pressure setting; and
only after the suction pressure reaches the maximum suction pressure setting, increasing the speed of the compressor as permitted by the maximum amount of power available to run the compressor.
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Specification