CN102563774A - 太阳能热分离式空调 - Google Patents

太阳能热分离式空调 Download PDF

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Publication number
CN102563774A
CN102563774A CN2010106125801A CN201010612580A CN102563774A CN 102563774 A CN102563774 A CN 102563774A CN 2010106125801 A CN2010106125801 A CN 2010106125801A CN 201010612580 A CN201010612580 A CN 201010612580A CN 102563774 A CN102563774 A CN 102563774A
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heat
solar
lithium bromide
air conditioner
water
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CN2010106125801A
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陈丹萍
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Abstract

本发明提供太阳能热分离式空调,先采用槽式聚热器将太阳能进行50倍聚焦,将导热油加热到120~150度,然后引入溴化锂制冷机组里,用导热油的热量加热溴化锂制冷机组的溴化锂和水的混合液体,使水分进行蒸发,然后水又被高浓度的溴化锂吸收而降温,吸收大量的热量从而实现制冷循环的空调,由于可以利用免费的太阳能资源,只需要少量的水泵消耗的功率,可以使COP≥15倍。

Description

太阳能热分离式空调
技术领域
本发明涉及空调,尤其是太阳能空调。
背景技术
空调即空气调节器(room air conditioner),挂式空调是一种用于给空间区域(一般为密闭)提供处理空气的机组。它的功能是对该房间(或封闭空间、区域)内空气的温度、湿度、洁净度和空气流速等参数进行调节,以满足人体舒适或工艺过程的要求。
目前的空调结构和原理为:压缩机将气态的制冷剂压缩为高温高压的液态制冷剂,然后送到冷凝器(室外机)散热后成为常温高压的液态制冷剂,所以室外机吹出来的是热风。
然后到毛细管,进入蒸发器(室内机),由于制冷剂从毛细管到达蒸发器后空间突然增大,压力减小,液态的制冷剂就会汽化,变成气态低温的制冷剂,从而吸收大量的热量,蒸发器就会变冷,室内机的风扇将室内的空气从蒸发器中吹过,所以室内机吹出来的就是冷风;空气中的水蒸汽遇到冷的蒸发器后就会凝结成水滴,顺着水管流出去,这就是空调会出水的原因。
然后气态的制冷剂回到压缩机继续压缩,继续循环。
制热的时候有一个叫四通阀的部件,使制冷剂在冷凝器与蒸发器的流动方向与制冷时相反,所以制热的时候室外吹的是冷风,室内机吹的是热风。
其实就是用的初中物理里学到的液化(由气体变为液态)时要排出热量和汽化(由液体变为气体)时要吸收热量的原理。
但目前的空调制冷效率即COP仅2.5~4.0之间,能耗高节能效果低。
发明内容
本发明提供能耗低节能效果高的空调。
技术方案如下:
太阳能热分离式空调,其特征在于先采用槽式聚热器将太阳能进行50倍聚焦,将导热油加热到120~150度,然后引入溴化锂制冷机组里,用导热油的热量加热溴化锂制冷机组的溴化锂和水的混合液体,使水分进行蒸发,然后水又被高浓度的溴化锂吸收而降温,吸收大量的热量从而实现制冷循环的空调。
由于可以利用免费的太阳能资源,只需要少量的水泵消耗的功率,可以使COP≥15倍。
具体实施方式
实际制作中,槽式太阳能可以进行东西方向跟踪太阳能,实现面积的无限扩大,同时可以使结构变得紧凑。
另外,空调系统必须有天然气、煤气等补充热源,在无太阳或者太阳弱化时维持系统的运行。
采用本系统优化组合,尤其对厂房进行供冷,因为厂房屋顶面积正好可以安装槽式太阳能进行组合,系统起步面积为1000平才方便控制成本。

Claims (3)

1.太阳能热分离式空调,其特征在于先采用槽式聚热器将太阳能进行50倍聚焦,将导热油加热到120~150度,然后引入溴化锂制冷机组里,用导热油的热量加热溴化锂制冷机组的溴化锂和水的混合液体,使水分进行蒸发,然后水又被高浓度的溴化锂吸收而降温,吸收大量的热量从而实现制冷循环的空调。
2.如权利要求1所述的太阳能热分离式空调,其特征在于槽式太阳能可以进行东西方向跟踪太阳能,实现面积的无限扩大。
3.如权利要求1所述的太阳能热分离式空调,其特征在于空调系统必须有天然气、煤气等补充热源。
CN2010106125801A 2010-12-30 2010-12-30 太阳能热分离式空调 Pending CN102563774A (zh)

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CN2010106125801A CN102563774A (zh) 2010-12-30 2010-12-30 太阳能热分离式空调

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CN2010106125801A CN102563774A (zh) 2010-12-30 2010-12-30 太阳能热分离式空调

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5634048A (en) * 1979-08-27 1981-04-06 Matsushita Electric Ind Co Ltd Remote control device for air conditioner
CN2562141Y (zh) * 2002-08-08 2003-07-23 张力 新型溴化锂冷热水机组
CN1740704A (zh) * 2005-09-20 2006-03-01 冯全琛 一种综合制冷装置
CN101324360A (zh) * 2007-06-11 2008-12-17 卢剑超 阵列式球面聚焦太阳能高温储热溴化锂吸收式空调机

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5634048A (en) * 1979-08-27 1981-04-06 Matsushita Electric Ind Co Ltd Remote control device for air conditioner
CN2562141Y (zh) * 2002-08-08 2003-07-23 张力 新型溴化锂冷热水机组
CN1740704A (zh) * 2005-09-20 2006-03-01 冯全琛 一种综合制冷装置
CN101324360A (zh) * 2007-06-11 2008-12-17 卢剑超 阵列式球面聚焦太阳能高温储热溴化锂吸收式空调机

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Application publication date: 20120711