权利要求:
CLAIMS
1. A dehumidifier assembly for humidity management in an interior environment, the assembly comprising: a housing defining at least one air inlet and at least one air outlet; a heat exchange core disposed at least partially in the housing, the heat exchange core defining therein: a first airflow path fluidly connected to the at least one air inlet at an input end of the first airflow path, and a second airflow path fluidly connected to the at least one air outlet at an output end of the second airflow path; and a water spray system disposed at least partially in the housing, the water spray system being configured to be fluidly connected to a cold-water supply, the water spray system being arranged for delivering water droplets at least partially downstream of an output end of the first airflow path for causing condensation of moisture from air flowing from the first airflow path when the assembly is in use, the housing and the heat exchange core being arranged such that at least some air downstream of the water spray system flows into an input end of the second airflow path.
2. The dehumidifier assembly of claim 1, wherein the heat exchange core is formed by additive manufacturing.
3. The dehumidifier assembly of claim 1 or 2, wherein: the heat exchange core has a cellular counter-flow geometry; the first airflow path is formed by a first plurality of passages defined through the heat exchange core; and the second airflow path is formed by a second plurality of passages defined through the heat exchange core.
4. The dehumidifier assembly of any one of claims 1 to 3, wherein the housing is configured to be connected to a water collection system to remove water from housing.
5. The dehumidifier assembly of claim 4, wherein the housing defines at least one opening in a lower portion of the housing, the at least one opening being arranged to be fluidly connected to the water collection system.
6. The dehumidifier assembly of any one of claims 1 to 5, wherein the water spray system comprises at least one spray nozzle disposed at least partially in the housing.
7. The dehumidifier assembly of claim 6, wherein: the housing includes at least one separating wall extending generally vertically through a portion of the housing; the air outlet of the first airflow path and the at least one spray nozzle are disposed on a first side of the at least one separating wall; and the air inlet of the second airflow path is disposed on a second side of the at least one separating wall.
8. The dehumidifier assembly of any one of claims 1 to 7, further comprising a fan disposed in the housing, the fan being arranged to draw air from an interior of the housing from the second airflow path when in use.
9. The dehumidifier assembly of claim 1, wherein the housing, the heat exchange core, and the water spray system are arranged such that, when the apparatus is in use: warm, humid air flows into the at least one air inlet and into the first airflow path, heat being transferred from air flowing through the first airflow path to air flowing through the second airflow path thereby cooling air flowing through the first airflow path; cooled, humid air flows out of the first airflow path and is impacted by mist projected from water spray system, the mist further cooling air flowing past the water spray system and inducing condensation of humidity from said air;
cooled, dehumidified air flows into the input end of the second airflow path to flow through the heat exchange core, air flowing through the second airflow path receiving heat from air flowing through the first airflow path via the heat exchange core; and re-warmed, dehumidified air flows out of the at least one air outlet of the housing.
10. The dehumidifier assembly of claim 1, wherein at least a majority of the heat exchange core is disposed vertically above the water spray system.
11. The dehumidifier assembly of claim 1, wherein: the heat exchange core is a first heat exchange core disposed in an upper portion of the housing; and the first heat exchange is disposed vertically above the water spray system; and further comprising a second heat exchange core disposed in a lower portion of the housing, the second heat exchange being disposed below the water spray system.
12. A dehumidifying system for humidity management in an interior environment, the system comprising: a plurality of dehumidifier assemblies, each dehumidifier assembly comprising: a housing defining at least one air inlet and at least one air outlet; a heat exchange core disposed in the housing, the heat exchange core defining therein: a first airflow path fluidly connected to the at least one air inlet at an input end of the first airflow path, and a second airflow path fluidly connected to the at least one air outlet at an output end of the second airflow path; and a water spray system disposed at least partially in the housing, the water spray system being arranged for delivering water droplets at least partially downstream of an output end of the first airflow path for causing condensation of moisture from air flowing from the first airflow path when the assembly is in use,
the water spray system being configured for fluidly connecting to a cold-water supply, the housing and the heat exchange core being arranged such that at least some air downstream of the water spray system flows into an input end of the second airflow path; and a water collection system fluidly connected to each dehumidifier assembly for receiving water from each dehumidifier assembly.
13. The dehumidifying system of claim 12, further comprising the cold-water supply fluidly connected to the water spray system of each dehumidifier assembly.
14. The dehumidifying system of claim 13, wherein the cold-water supply comprises: a water reservoir; and a pump fluidly connected to the water reservoir and the water spray system of each dehumidifier assembly.
15. The dehumidifying system of claim 14, further comprising a chiller unit operatively connected to the water reservoir for cooling water in the water reservoir during operation of the system.
16. The dehumidifying system of claim 15, wherein the chiller unit is disposed on an exterior of the interior environment.
17. The dehumidifying system of claim 16, wherein the water collection system is fluidly connected to the water reservoir, such that water collected from the plurality of dehumidifier assemblies is provided to the cold-water supply for reuse during operation of the system.
18. The dehumidifying system of claim 12, wherein the system is arranged to deliver water collected by the water collection system to at least one planting structure.
19. The dehumidifying system of claim 12, wherein the water collection system is formed from a plurality of rigid tubes.
20. The dehumidifying system of claim 19, wherein the plurality of rigid tubes is formed by additive manufacturing.
21. The dehumidifying system of claim 12, further comprising a water filter fluidly connected to the water collection system for filtering collected water.
22. A dehumidifier structure for humidity management in an interior environment, the assembly comprising: a container; a dehumidifier assembly partially disposed in the container, the dehumidifier assembly comprising: a housing defining at least one air inlet and at least one air outlet; and a heat exchange core disposed at least partially in the housing, the heat exchange core defining therein: a first airflow path fluidly connected to the at least one air inlet at an input end of the first airflow path, and a second airflow path fluidly connected to the at least one air outlet at an output end of the second airflow path; and a water spray system disposed at least partially in the container, the water spray system being configured to be fluidly connected to a cold-water supply, the water spray system being arranged for delivering water droplets at least partially downstream of an output end of the first airflow path for causing condensation of moisture from air flowing from the first airflow path when the assembly is in use, the housing and the heat exchange core being arranged such that at least some air downstream of the water spray system flows into an input end of the second airflow path.
23. The dehumidifier structure of claim 22, wherein the heat exchange core is formed by additive manufacturing.
24. The dehumidifier structure of claim 22 or 23, wherein: the heat exchange core has a cellular counter-flow geometry; the first airflow path is formed by a first plurality of passages defined through the heat exchange core; and the second airflow path is formed by a second plurality of passages defined through the heat exchange core.
25. The dehumidifier structure of any one of claims 22 to 24, wherein the container is configured to be connected to a water collection system to remove water from housing.
26. The dehumidifier structure of any one of claims 22 to 25, wherein the water spray system comprises at least one spray nozzle disposed at least partially in the container.
27. The dehumidifier structure of any one of claims 22 to 26, further comprising at least one fan disposed in the housing, the fan being arranged to draw air from an interior of the container into the second airflow path when in use.
28. The dehumidifier structure of claim 22, wherein the container, the housing, the heat exchange core, and the water spray system are arranged such that, when the apparatus is in use: warm, humid air flows into the at least one air inlet and into the first airflow path, heat being transferred from air flowing through the first airflow path to air flowing through the second airflow path thereby cooling air flowing through the first airflow path; cooled, humid air flows out of the first airflow path and is impacted by mist projected from water spray system, the mist further cooling air flowing past the water spray system and inducing condensation of humidity from said air; cooled, dehumidified air flows into the input end of the second airflow path to flow through the heat exchange core,
air flowing through the second airflow path receiving heat from air flowing through the first airflow path via the heat exchange core; and re-warmed, dehumidified air flows out of the at least one air outlet of the housing. 29. A dehumidifier system comprising: at least one dehumidifier structure according to any one of claims 22 to 28; and at least one water collection structure fluidly connected to the water collection structure.