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公开(公告)号:US09696048B2
公开(公告)日:2017-07-04
申请号:US14649475
申请日:2013-12-05
Inventor: Mark Jared Goldsworthy , Stephen David White
CPC classification number: F24F3/1423 , B01D53/06 , B01D53/261 , F24F5/0014 , F24F5/0035 , F24F2003/1464
Abstract: A solid desiccant cooling system comprising a common intake delivering air (19) to a first pathway (21) for air to be conditioned, and a second pathway (31) for regeneration air and structure (24) retaining a mass of solid desiccant for cyclic movement between a first location (24a), in which the solid desiccant lies in the first pathway (21) for dehumidifying the air to be cooled by adsorption of moisture to the desiccant, and a second location (24b) in which the solid desiccant lies in the second pathway (31) for the regeneration air to take up moisture therein as water vapor. The second pathway has an air heater arrangement (35) upstream of the second location (24b) for heating the regeneration air and the first pathway (21) has an air cooler arrangement (25) independent of the air heater arrangement (35) downstream of the first location (24a). An air delivery device (40) is coupled to both of the first and second pathways (21, 31) and adapted or configured to deliver pressurized air along both the first and second pathways (21, 31). A control strategy is also provided to change the flow path of air from the common intake based on the need to satisfy alternative heating or cooling needs at different times of the day and season.
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公开(公告)号:US20160018116A1
公开(公告)日:2016-01-21
申请号:US14649475
申请日:2013-12-05
Inventor: Mark Jared Goldsworthy , Stephen David White
CPC classification number: F24F3/1423 , B01D53/06 , B01D53/261 , F24F5/0014 , F24F5/0035 , F24F2003/1464
Abstract: A solid desiccant cooling system comprising a common intake delivering air (19) to a first pathway (21) for air to be conditioned, and a second pathway (31) for regeneration air and structure (24) retaining a mass of solid desiccant for cyclic movement between a first location (24a), in which the solid desiccant lies in the first pathway (21) for dehumidifying the air to be cooled by adsorption of moisture to the desiccant, and a second location (24b) in which the solid desiccant lies in the second pathway (31) for the regeneration air to take up moisture therein as water vapour. The second pathway has an air heater arrangement (35) upstream of the second location (24b) for heating the regeneration air and the first pathway (21) has an air cooler arrangement (25) independent of the air heater arrangement (35) downstream of the first location (24a). An air delivery device (40) is coupled to both of the first and second pathways (21, 31) and adapted or configured to deliver pressurised air along both the first and second pathways (21, 31). A control strategy is also provided to change the flow path of air from the common intake based on the need to satisfy alternative heating or cooling needs at different times of the day and season.
Abstract translation: 一种固体干燥剂冷却系统,包括将用于待调节空气的第一通道(21)的空气(19)和用于再生空气和结构(24)的第二通道(31)传送到共同的入口,所述第二通路保持用于循环的固体干燥剂 第一位置(24a)之间的移动,其中固体干燥剂位于第一路径(21)中,用于通过将湿气吸附到干燥剂中来除湿要冷却的空气,以及第二位置(24b),其中固体干燥剂位于 在第二路径(31)中,再生空气以水蒸气吸收其中的水分。 第二通道在第二位置(24b)的上游具有用于加热再生空气的空气加热器装置(35),并且第一通道(21)具有独立于空气加热器装置(35)的空气冷却器装置(25) 第一位置(24a)。 空气输送装置(40)联接到第一和第二通道(21,31),并适于或构造成沿着第一和第二通道(21,31)沿着输送加压空气。 还提供了一种控制策略,以根据需要满足日常和季节的不同时间的替代加热或冷却需求来改变来自普通摄入的空气的流动路径。
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