HVAC desiccant wheel system and method

Information

  • Patent Application
  • 20070163279
  • Publication Number
    20070163279
  • Date Filed
    December 21, 2006
    18 years ago
  • Date Published
    July 19, 2007
    17 years ago
Abstract
An HVAC system includes a desiccant wheel, wherein the wheel's speed varies with airflow, the wheel is energized for at least a set period at startup, and/or a heat recovery system (e.g., an air-to-air heat exchanger) upstream of the wheel enhances the system's ability to dehumidify air.
Description

BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a schematic diagram of one embodiment of an HVAC system that includes a desiccant wheel.



FIG. 2 is a schematic diagram of a second embodiment of an HVAC system that includes a desiccant wheel.



FIG. 3 is a schematic diagram of a third embodiment of an HVAC system that includes a desiccant wheel.



FIG. 4 is a schematic diagram of a fourth embodiment of an HVAC system that includes a desiccant wheel.


Claims
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  • 34. A refrigerant system for conditioning air for a comfort zone, the refrigerant system comprising: an enclosure defining an upstream air passageway, a downstream air passageway, and an intermediate air passageway therebetween, wherein the air passes sequentially through the upstream air passageway, the intermediate air passageway, and the downstream air passageway;a cooling coil disposed in the enclosure;a source associated with the cooling coil and providing a chilled fluid thereto;a blower in a position to force the air from the downstream air passageway into the comfort zone;a desiccant wheel able to absorb moisture from the air passing from the intermediate air passageway to the supply air passageway and simultaneously release moisture to the air passing from the upstream air passageway to the intermediate air passageway; anda controller connected to selectively start and stop the source and selectively energize and de-energize the desiccant wheel for rotation, wherein the controller upon stopping the source energizes the desiccant wheel for a predetermined limited period, whereby the desiccant wheel during the predetermined limited period continues to provide cooling and/or dehumidification after the source stops.
  • 35. The refrigerant system of claim 34, further comprising a moisture sensor in communication with the controller, wherein the controller energizes the desiccant wheel in response to the moisture sensor detecting that the air is moister than a certain limit.
  • 36. The refrigerant system of claim 35 wherein the source is a compressor and the cooling coil is disposed in the upstream air passageway.
  • 37. The refrigerant system of claim 34 wherein the source is a compressor and the cooling coil is disposed in the upstream air passageway.
  • 38. A method of conditioning air for a comfort zone, the method comprising: defining an upstream air passageway, a downstream air passageway, and an intermediate air passageway therebetween, passing air sequentially through the upstream air passageway, the intermediate air passageway, and the downstream air passageway;disposing a cooling coil in the enclosure;associating a source with the cooling coil and providing a chilled fluid thereto;positioning a blower to force the air from the downstream air passageway into the comfort zone;absorbing moisture from the air passing from the intermediate air passageway to the supply air passageway and simultaneously releasing moisture to the air passing from the upstream air passageway to the intermediate air passageway;selectively starting and stopping the source;selectively energizing and de-energizing the desiccant wheel for rotation; andenergizing the desiccant wheel for a predetermined limited period upon stopping the source whereby the desiccant wheel during the predetermined limited period continues to provide cooling and/or dehumidification after the source stops.
  • 39. The method of claim 38, further including energizing the desiccant wheel in response to a moisture sensor detecting that the air is moister than a certain limit.
  • 40. The method of claim 39, wherein the source is a compressor and the cooling coil is disposed in the upstream air passageway.
  • 41. The method of claim 38, wherein the source is a compressor and the cooling coil is disposed in the upstream air passageway.
  • 42. A system for conditioning air for a comfort zone comprising: an upstream air passageway, a downstream air passageway, and an intermediate air passageway therebetween,means for passing air sequentially through the upstream air passageway, the intermediate air passageway, and the downstream air passageway;a cooling coil in the enclosure;a source associated with the cooling coil and providing a chilled fluid thereto;a blower positioned to force the air from the downstream air passageway into the comfort zone;a desiccant wheel absorbing moisture from the air passing from the intermediate air passageway to the supply air passageway and simultaneously releasing moisture to the air passing from the upstream air passageway to the intermediate air passageway;means for selectively starting and stopping the source;means for selectively energizing and de-energizing the desiccant wheel for rotation; andmeans for energizing the desiccant wheel for a predetermined limited period upon stopping the source whereby the desiccant wheel during the predetermined limited period continues to provide cooling and/or dehumidification after the source stops.
  • 43. The system of claim 42, wherein the means for energizing the desiccant wheel includes a moisture sensor detecting that the air is moister than a certain limit.
  • 44. The system of claim 43, wherein the source is a compressor and the cooling coil is disposed in the upstream air passageway.
  • 45. The system of claim 42, wherein the source is a compressor and the cooling coil is disposed in the upstream air passageway.
Continuation in Parts (1)
Number Date Country
Parent 11332652 Jan 2006 US
Child 11642496 US