Air conditioning and method of dehumidifier control

US 4,942,740 A
Filed: 03/03/1989
Issued: 07/24/1990
Est. Priority Date: 11/24/1986
Status: Expired due to Fees

First Claim

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1. An air conditioner comprising a dehumidifier having a plurality of coil portions,coolant supply means and coolant flow control means controlling coolant flow from the coolant supply means and through the coil portions selectively in one at least of a plurality of coolant circuits which embody said coil portions, so as to establish a plurality of stages of dehumidifier capacity,an air flow fan, means controlling air flow from the fan to be through one at least of the coil portions, at least one control sensor located to sense magnitude of load,and coupling means coupling said sensor to said flow control means in such a way that as load reduces from peak load conditions through part load stages towards minimum load conditions, coolant flow is restricted through one at least of the coil portions but coolant flow rate is increased in another of said coil portions to maintain the required sensible heat cooling capacity, in turn increasing the heat transfer coefficient on the coolant side of a heat exchange interface of said other coil portion thereby reducing the temperature of that interface and in turn increasing the ratio of latent heat cooling to sensible heat cooling of that interface.

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Abstract

An air conditioner dehumidifier comprising coil portions cooled by a fluid coolant such as by chilled water or refrigerant. As the required air sensible and latent cooling demands and their ratio varies in the conditioned space, the number of operational coil portions and the velocity of the coolant flow through each is controlled, by valves or other means, increasing coolant velocity while reducing the number of operational coil portions and vice-versa, to provide the coil surface area and the coil surface temperature necessary to cause the required degree of dehumidification and the required degree of sensible cooling in the required ratio to maintain comfortable conditions in the conditioned space with low energy consumption at all cooling demands.

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26 Claims

1. An air conditioner comprising a dehumidifier having a plurality of coil portions,coolant supply means and coolant flow control means controlling coolant flow from the coolant supply means and through the coil portions selectively in one at least of a plurality of coolant circuits which embody said coil portions, so as to establish a plurality of stages of dehumidifier capacity,an air flow fan, means controlling air flow from the fan to be through one at least of the coil portions, at least one control sensor located to sense magnitude of load,and coupling means coupling said sensor to said flow control means in such a way that as load reduces from peak load conditions through part load stages towards minimum load conditions, coolant flow is restricted through one at least of the coil portions but coolant flow rate is increased in another of said coil portions to maintain the required sensible heat cooling capacity, in turn increasing the heat transfer coefficient on the coolant side of a heat exchange interface of said other coil portion thereby reducing the temperature of that interface and in turn increasing the ratio of latent heat cooling to sensible heat cooling of that interface.
- View Dependent Claims (2, 3, 4)
- - 2. An air conditioner according to claim 1 wherein said coolant is one of chilled water, ethylene glycol, alcohol and anti-freeze compound, and said coolant supply means comprises a pump which pumps the coolant through said coolant circuit at a velocity which increases through said relatively unrestricted remainder of the coil portions as the load reduces from one part-load stage to the next, and further comprising a plurality of auxiliary pumps within the coolant circuit selectively operable to increase said rate.
  - 3. An air conditioner according to claim 1 wherein said coolant is a refrigerant and said refrigerant supply means comprises a compressor which pumps the refrigerant through an expansion device upstream of the coil portions and through a coolant circuit at a rate which increases coolant velocity through said relatively unrestricted remainder of the coil portions as the load reduces.
  - 4. An air conditioner according to claim 1 wherein said coolant supply means comprise a plurality of auxiliary pumps which perform at least part of the function of flow control means by at least one of speed variation or bypass throttling to achieve appropriate coolant flow velocities in said coil portions.

5. An air conditioner having a dehumidifier comprising a plurality of coil portions, coolant supply means, conduits connecting the coil portions and the coolant supply means in a coolant circuit, flow control means in the coolant circuit operable to control coolant floW through at least some of the coil portions,an air flow fan, means coupling the air flow fan and the dehumidifier such that the fan, in operation, causes air flow through the coil portions,at least one control sensor downstream of the dehumidifier,coupling means linking the sensor to said flow control means in such a way that the full load range is divided into several sub-ranges each defining a part load stage, and under peak load conditions, coolant flow through the dehumidifier coil portions is relatively unrestricted by the flow control means, but, as the load reduces, coolant flow is relatively restricted by at least one of the flow control means through at least one of the coil portions of the dehumidifier, but coolant flow velocity increases through the remainder of the coil portions at each transition between part-load stages, thereby increasing dehumidification of the air by those portions and increasing the ratio of latent to sensible cooling.
- View Dependent Claims (6)
- - 6. An air conditioner according to claim 5 wherein said flow control means in the coolant circuit comprises at least one valve and wherein said sensor so controls the valve that restriction of coolant flow through at least one of said coil portions continues effectively to discontinuity of coolant flow as the sensible heat load continues to reduce.

7. An air conditioner comprising a dehumidifier having a plurality of coil portions, coolant supply means and coolant flow control means controlling coolant flow from the coolant supply means and through the coil portions selectively in a stage of a progression of stages of coil portions constituting the active size of the dehumidifier, each stage being of appropriate size to service a respective segment of a total range of sensible and latent cooling loads in a space to be conditioned by said air conditioner, from the peak load to the minimum part load at which the system is required to operate,a system control means comprising a sensor which senses magnitude of the sensible load, selects the dehumidifier stage which is compatible with said load and causes coolant control means to control an appropriate rate of coolant flow through the coil portions of said selected stage,an air flow fan, means directing air flow from the fan through at least said coil portions containing said coolant flow,control logic which, as load reduces through a segment of said load range, causes the velocity of said coolant flow to be reduced progressively through said selected dehumidifier stage until a minimum load condition of said stage is sensed at which point, if load continues to reduce, said control means causes at least one portion of said dehumidifier to be substantially isolated from the coolant flow circuit and thereby deactivated such that the next smaller size of dehumidifier stage is established and said control means causes the flow velocity of said coolant through said next smaller size dehumidifier stage to be increased sufficiently to maintain the same sensible cooling capacity as that of the larger dehumidifier stage immediately before the change-over of the stages, but an increased latent cooling capacity due to the interface temperature of said next smaller stage which carries said increased velocity of coolant flow being colder than that of said larger stage which carried the lower velocity of coolant flow.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 8. An air conditioner according to claim 7 wherein, when minimum part load segment is entered and change-over to the minimum part load dehumidifier stage occurs, said system control means maintains air flow volume constant and progressively increases the proportion of outside air until said minimum part load condition is sensed and said system control deactivates the then last remaining dehumidifier stage whilst said fan continues to supply untempered outside air directly to a conditioned space.
  - 9. An air conditioner according to claim 7 or claim 8 wherein said sequence of stepping through the stages of active dehumidifier size proceeds in the opposite direction when the load is increasing.
  - 10. An air conditioning system having a dehumidifier comprising a plurality of coil portions serving stages of the air conditioning range according to claim 7 having the minimum load range of eaoh larger size stage being less than the maximum load range of the next smaller active dehumidifier stage thereby providing an overlap band between stages.
  - 11. An air conditioning system having a dehumidifier comprising a plurality of coil portions serving stages of the air conditioning range according to claim 7 wherein when high rates of latent to sensible heat loads occur the dehumidifier coil is selected to provide a relatively low air flow velocity, less than 0.6 m/s at the face of the coil, and the spacing between fins is sufficiently large to maintain a relatively uniform interface temperature and to provide a relatively low sensible heat transfer coefficient on the air side of the dehumidifier and coolant velocity is sufficiently high to provide a relatively high sensible heat transfer coefficient on the coolant side thereof.
  - 12. An air conditioner according to claim 7 wherein said flow control means comprises a refrigerant compressor which at least partly controls coolant flow by variation of rotational speed to achieve an appropriate combination of refrigerant flow and refrigerant temperature in a said coil portion.
  - 13. An air conditioning system according to claim 7 wherein said dehumidifier comprises a plurality of coil portions serving the full operating range from peak load to minimum part load, divided into two respective stages wherein the first stage uses all portions necessary to serve the peak load range to some intermediate part load level which represents the minimum part load level for that stage followed by a smaller size dehumidifier second stage to serve the range from this intermediate point of change-over representing the maximum point of the range for said second stage down to the minimum part load level.
  - 14. An air conditioner according to claim 13 wherein said flow control means comprise a plurality of electrically controlled valves and said sensor comprises at least one thermostat, and further comprising a logic circuit coupling said valves and said sensor,said logic circuit having a memory storing design characteristics of the air conditioner and a capacity to determine change-over of valves between stages and modulation of coolant flow within stages, arranged to cause at least partial closure of a said valve to effect said restriction of coolant flow to one of the coil portions upon drop of supply air temperature sensed by said thermostatsaid logic circuit also then causing such opening of another said valve as to effect increase of coolant flow to another of the coil portions controlled thereby.
  - 15. An air conditioner according to claim 7 further comprising fan speed control means coupled to said air flow fan and means so interconnecting said electronic circuit, thermostat, and air flow speed control means, that, upon drop of thermostat temperature, said fan speed control means reduces said fan speed.
  - 16. An air conditioner according to claim 7 further comprising fan speed control means coupled to said air flow fan and means so interconnecting said electronic circuit, thermostat, control logic and air flow speed control means, that, upon drop of thermostat temperature, said control logic activates said fan speed control means to reduce said fan speed and adjusts said coolant flow velocity and said combination of coil portions forming said dehumidifier stages in the proportions required to satisfy the sensible heat load while minimizing the interface temperature.
  - 17. An air conditioner according to claim 7 wherein said coolant supply means comprises at least one centrifugal pump having a characteristic that coolant supply pressure increases upon said coolant flow restriction through at least one of the coil portions to cause said increase of coolant flow rate in the unrestricted remainder of the total coil complex to occur.
  - 18. An air conditioner according to claim 7 wherein said sensor comprises at least one thermostat downstream of said airflow fan, and said system control means comprises an electronic control circuit, and means interconnecting said thermostat, electronic control circuit and said flow control means such that upon drop of temperature sensed by the thermostat said flow control means causes a reduction of coolant flow.

19. An air conditioner comprising a dehumidifier having a plurality of coil portions, coolant supply means and coolant flow control means controlling coolant flow from the coolant supply means and through the coil portions selectively in a stage of a progression of stages of coil portions constituting the active size of the dehumidifier, each stage being of appropriate size to service a respective segment of a total range of sensible and latent cooling loads in a space to be conditioned by said air conditioner, from the peak load to the minimum part load at which the system is required to operate,a system control means comprising a sensor which senses magnitude of the sensible load, selects the dehumidifier stage which is compatible with said load and causes coolant control means to control an appropriate rate of coolant flow through the coil portions of said selected stage,an air flow fan, means directing air flow from the fan through at least said coil portions containing said coolant flow,control logic which, as load reduces through a segment of said load range, causes coolant flow velocity to be reduced in at least one portion o±
- said selected dehumidifier size stage and increase in one at least other portion of said selected dehumidifier stage which forms also portion of the next smaller stage, in such manner as to provide a gradual transition from one stage to the next whilst maintaining at all times a high velocity of coolant flow in at least one portion of each active stage, and as the load continues to reduce the size of the dehumidifier and the coolant flow are caused by the system control means to progress smoothly through the progression of decreasing dehumidifier stages until the minimum size stage only remains active at which point said system control means preferably maintains air flow volume constant and progressively increases the proportion of outside air.
- View Dependent Claims (20, 21, 22)
- - 20. An air conditioner according to claim 19 wherein, when minimum part load segment is entered and change-over to the minimum part load dehumidifier stage occurs, said system control means maintains air flow volume constant and progressively increases the proportion of outside air until said minimum part load condition is sensed and said system control deactivates the then last remaining dehumidifier stage whilst said fan continues to supply untempered outside air directly to a conditioned space.
  - 21. An air conditioner according to claim 19 or claim 20 wherein said sequence of stepping through the stages of active dehumidifier size proceeds in the opposite direction when the load is increasing.
  - 22. An air conditioner according to claim 19 further comprising fan speed control means coupled to said air flow fan and means so interconnecting said electronic circuit, thermostat, and air flow speed control means, that, upon drop of thermostat temperature, said fan speed control means reduces said fan speed.

23. An air conditioner comprising a dehumidifier,said dehumidifier comprising a plurality of coil portions, and means interconnecting the coil portions into a plurality of coolant circuits cooled by circulation of coolant,coolant supply means, conduits connecting the dehumidifier and coolant supply means in a coolant circuit, an air flow fan, means coupling the air flow fan and the dehumidifier such that the fan, in operation, selectively causes air flow through the coil portions, at least one sensor downstream of the dehumidifier,coolant control means selectively controlling flow of coolant from the supply means through the coil portions, and coupling means coupling said flow control means to the sensor in such a way that at peak load conditions, all coil portions receive coolant flow and as load diminishes from peak conditions through a top range of the part load conditions, coolant flow through at least one of the coil portions is restricted by said flow control means thereby reducing heat transfer in that portion, until the minimum of the said top range of load is reached, at which stage on a further reduction in load said flow control means causes another portion of the coil to be largely isolated from said coolant circuit whilst the coolant flow through the remaining coil portions is increased to maintain the required total cooling capacity, sufficiently to allow for the increased proportion of outside air in the case of a variable air volume system, but with an increase in the ratio of latent cooling to sensible cooling to that required to maintain comfort resulting from the higher heat transfer coefficient on the coolant side due to the higher coolant flow rate which produces a lower temperature at the coil surface, with further reduction in load the process being repeated until the minimum of the next range of load is reached, at which stage a second portion of the coil is isolated from said coolant supply means whilst again the flow through the remaining portions of the coil is increased to maintain the required total cooling capacity but again with the required increase in the ratio of latent cooling to sensible cooling, which is equivalent to the required reduction in the sensible heat ratio;
- the process proceeding through in appropriate number of stages with sufficient overlap between stages to ensure control stability until the required minimum range of part load operation is reached, at which stage only one remaining portion of the coil receives coolant from the coolant supply means by way of the flow control means until the minimum of said minimum range of load is reached at which stage the supply air is progressively increased until the outside air conditions are appropriate for untempered air only to be supplied in the manner of a simple ventilation system.

24. A method of air conditioning comprising cooling a plurality of coil portions in a dehumidifier by pumping a coolant through those coil portions, urging air to flow through at least some of the coil portions by means of an air flow fan, sensing the temperature of the air downstream of the dehumidifier, and restricting coolant flow through at least one of the coil portions but increasing flow through the remainder of the coil portions upon decrease of load which is sensed by the supply air thermostat as a drop in temperature, by an amount which maintains sufficient dehumidification that, as load reduces, the slope of the coil condition curve on a psychosomatic chart is maintained sufficiently steep to offset latent heat load, and the ratio of latent to sensible cooling is increased.

25. A method of air conditioning comprising cooling a plurality of coil portions in a dehumidifier by pumping a coolant through those coil portions, urging air to flow through at least some of the coil portions by means of an air flow fan, sensing the temperature of the air downstream of the dehumidifier, and restricting coolant flow through at least one of the coil portions but leaving coolant flow through the remainder of the coil portions relatively unrestricted and increasing that coolant flow upon decrease of load which is sensed by the supply air thermostat as a drop in temperature, limiting the minimum air flow velocity by identifying part load conditions wherein at a predetermined part load condition the thermostat operative temperature setting in the air flow downstream of the fan is increased.

26. An air conditioner for conditioning a conditioned space comprising a dehumidifier, said dehumidifier comprising a plurality of coil portions,coolant supply means, conduits connecting the dehumidifier and coolant supply means in a coolant circuit, an air flow fan, air flow dampers, means coupling the air floW and the dehumidifier such that the fan, in operation, causes air flow through one at least of the coil portions, at least one sensor downstream of the dehumidifier,valves selectively controlling flow of coolant from the supply means through the coil portions, said valves including an electrically operated modulating valve, valve coupling means coupling the valves to the sensor in such a way, that, as load diminishes from peak conditions to part load conditions, coolant flow through a coil portion is restricted by a said valve thereby reducing heat transfer surface of the dehumidifier, but coolant flow through the remainder of the coil portions remains sufficient to maintain dehumidification,a further sensor associated with said air flow fan, and air flow speed control means,said further sensor being an air flow sensor, a logic circuit, and means so interconnecting said logic circuit, air flow sensor and air flow speed control means that, if air flow speed reduces to an insufficient ventilation velocity pursuant to load reduction, air flow speed is again increased by a preset signal from the control system which, is operative to reset the supply air thermostat to a higher temperature thus decreasing the enthalpy difference across the coil condition curve and causing the air flow dampers associated with said conditioned space to move to more open positions and thus to increase the volume flow rate of the fan to result in an effective ventilation for that space.

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Current Assignee
Allan Shaw, Luminis Pty Limited, Professor Russell Estcourt Luxton
Original Assignee
Allan Shaw, Luminis Pty Limited, Russell Estcourt Luxton
Inventors
Shaw, Allan, Luxton, Russell E.
Primary Examiner(s)
Wayner, William E.

Application Number

US07/319,409
Time in Patent Office

508 Days
Field of Search

62/93, 62/117, 62/223, 62/199, 62/185, 62/175, 236/1 EA, 165/35
US Class Current

62/93
CPC Class Codes

F24F 3/1405 in which the humidity of th...

Air conditioning and method of dehumidifier control

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

127 Citations

26 Claims

Specification

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Air conditioning and method of dehumidifier control

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

127 Citations

26 Claims

Specification

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Solutions

Use Cases

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