CN101841259A - 太阳能风能与建筑一体化系统 - Google Patents
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Abstract
本发明涉及一种太阳能风能与建筑一体化系统。本发明涉及可再生能源的利用,和建筑舒适环境的改善。具体地说是一种蓄能式多能源中央空调与建筑化一体系统;利用可再生能源,通过多种蓄能设备,为建筑供电(照明、办公、动力及生活用电)、供热、制冷、生活热水、洗浴、治理室内空气污染等一体化系统。本太阳能风能与建筑一体化系统的能源采用多种能源,用户根据自己的需求选择产品,真正做到“以人为本,个性发展”的理念;本太阳能风能与建筑一体化系统具有舒适、环保、节能、可再生能源利用等特点,广泛应用于城镇居民住楼、别墅、工厂、学校、新农村、医院、商场、商用办公等场所。
Description
一;技术领域:
本发明涉及太阳能热水器、太阳能发电、风能发电、供电、采暖、制冷、生活热水、品质空气(IAQ)、蓄能、锅炉、沼气、地热能等能源与建筑的综合利用,具体地说是一种太阳能风能与建筑一体化系统。
二,背景技术,目前:
1,可再生能源与建筑一体化的综合利用还不完善;
2,城市供暖依赖集中供热,运转费用昂贵;
3,城市居民在空调运转高峰时,供电电网电力不足;
4,电价在低谷时期,居民没有蓄能设备;
5,居民太阳能发电,风力发电不能参与电网创收效益;
6,风源(水源)热泵空调的余热余冷没有互补回收利用,大量向大气层排放温室气体。
7,室内空气污染及无尘新鲜的空气难以保证;
8,沼气罐压力控制失调,容易发生爆炸危险,浪费能源;
三,发明内容:
本发明的目的是克服上述现有的不足,提供一种蓄能式太阳能风能与建筑一体化的综合利用的系统。广泛应用于城镇居民住楼、别墅、民房、工厂、学校、医院、商用等场所的供电、采暖、制冷、生活热水、室内空气污染治理于一体的可再生能源的综合利用。
四,附图说明;
图1,图2,图3是本发明的结构示意图。
下面结合附图对本发明作进一步的描述;
1,太阳能风能发电、供电描述见图(3)
风力发电机1,太阳能发电及玻璃发电2;市电低价格充电7.
(1)通过蓄电器4逆变电源5给用户供电6。
(2)通过蓄能设备的转换成热能、冷能并蓄存。
2,供热描述见附图(1)、(2)
(1)中央空调供热;打开冷热液阀10-17---18-20-21---2;
(2)地暖供热;打开冷热液阀10---7----18---22---23---2;
3,制热设备描述见附图(1)、(2)
(1)太阳能热水器制热3-26---28---2;
(2)太阳能生活热水27-28---24交换器生活热水7-6;
(3)市电电加热器4制热;
(4)太阳能风能发电的电加热器5;
(5)热泵冷凝器8制热;
(6)燃烧口32燃烧制热
4,制冷设备描述见附图(1)
(1)半导体制冷器12;
(2)热泵蒸发器11;
(3)井水进15-1---入灌大地。
5,制冷描述见图(1)
中央空调制冷;关闭冷热液阀10----13---18-20-21----17。
五,具体实施方式:
一种太阳能风能与建筑一体化系统,可再生能源综合利用的措施是1电能:
(1)利用可再生能源的光能(太阳能光伏发电,门窗玻璃发电)、风能发电,发出的电能,用蓄电器储存,与市电并合,为用户供电。
(2)利用发出的电能与蓄能设备连接产生热能,冷能。为用户提供地暖、中央空调、生活热水的能源。
(3)利用发出的电能,通过纳米二氧化钛健康杀菌技术光催化杀菌分解过程,杀灭室内几乎所有的有机污染物、细菌、病毒、微生物、尘埃微粒等室内空气污染。
(4)在市电价格低谷时,给蓄电器充电,市电高价格时为用产供电。
2热能:利用太阳能热水器,通过蓄能设备,提供生活热水、洗浴及地暖、中央空调的热能源。
3蓄能设备
(1)蓄存太阳能热水器的热水。
(2)通过电加热器,利用光电、风电,以制热的方式蓄存‘电’;
(3)通过半导体制冷器,利用光电、风电,以制冷的方式存‘电’;
(4)在电价低廉时期,运转热泵机组,以制冷、热的方式存电。通过市电加热器制热存‘电’。
(5)蓄存地下井水,供中央空调制冷。
(6)蓄能设备在热泵运转时,冷、热能源分段蓄存,空调能效比提高,同时也不向大气层排放温室气体。真正做到省电、环保!
热泵包括;风源热泵、地温(水源)热泵。
(7)蓄能设备实现了电力系统的移风填谷,解决了空调高峰运转时期的电力不足;
(8)蓄能设备内存制热设备,打破了城市供暖依赖集中供热;由于采用可再生能源,和高效益的热泵技术及电力的移风填谷,供暖费用比集中供暖运转费用低廉。
(9)蓄能设备它还使中央空调的主机设备选择小,投资少。
(10)蓄能设备的交换器,供洗浴、生活热水用。
(11)蓄能设备(二),在蓄能设备(一)的基础上,(1)更可燃烧煤、木柴、燃气、沼气、垃圾产生热量。(2)蓄存地下井水冷量(3)采用更多的能源,制冷、采暖、生活热水与一体。(4)通过燃烧沼气,并控制沼气压力,消除安全隐患,同时把热量蓄存起来。
(12);中央空调(1)用风机盘管转换冷、热。(2)用毛细管网栅转换冷、热。
(13):用地暖供热。
Claims (10)
1.一种太阳能风能与建筑一体化系统,包括
(1)电能;太阳能发电、风力发电合并为用户供电;
(2)利用电能转换成热、冷状态,用蓄能设备蓄存能量。
(3)蓄能设备在电价低谷时期蓄存能量;
(4)蓄能设备蓄存太阳能热水器(集水器)热水。
(5)蓄能设备具有蓄能、保温、制冷、制热、热泵互补双收、锅炉燃烧、热交换等功能。
(6)蓄能设备的能量供给地暖、中央空调,为人居生活提供舒适的环境。
2.根据权利要求1所述的一种太阳能风能与建筑一体化系统,其特征在于太阳能风能发电蓄能以两种方式(1)蓄电器(2)电能转成冷、热能源。
3.根据权利要求1所述的一种太阳能风能与建筑一体化系统,其特征在于蓄能设备外型为圆柱型,并具有保温材料+外皮包装。
4.根据权利要求1所述的一种太阳能风能与建筑一体化系统,其特征在于蓄能设备内置具有电加热器。
5.根据权利要求1所述的一种太阳能风能与建筑一体化系统,其特征在于蓄能设备具有内置热交换器。
6.根据权利要求1所述的一种太阳能风能与建筑一体化系统,其特征在于蓄能设备具有半导体制冷器。
7.根据权利要求1所述的一种太阳能风能与建筑一体化系统,其特征在于蓄能设备具有内置冷凝器、蒸发器,制热、制冷。
8.根据权利要求1所述的一种太阳能风能与建筑一体化系统,其特征在于蓄能设备内置冷、热能源双向吸收。
9.根据权利要求1所述的一种太阳能风能与建筑一体化系统,其特征在于蓄能设备具有燃烧室。
10.根据权利要求1所述的一种太阳能风能与建筑一体化系统,其特征在于蓄能设备具有冷热液阀,在关闭状态冷热不传导。
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| CN102644387A (zh) * | 2012-04-18 | 2012-08-22 | 黄建武 | 太空能风能再生能源可持续建筑一体化系统 |
| CN102747843A (zh) * | 2011-04-20 | 2012-10-24 | 上海高格工程设计咨询有限公司 | 一种生态房屋供能系统及方法 |
| CN103453565A (zh) * | 2011-07-26 | 2013-12-18 | 芜湖市科华新型材料应用有限责任公司 | 风电、光电及网电互补变功率蓄能供热系统的运行方法 |
| CN104896564A (zh) * | 2015-06-15 | 2015-09-09 | 王辉 | 多能联供供热采暖系统 |
| CN105333546A (zh) * | 2015-11-23 | 2016-02-17 | 中国科学院工程热物理研究所 | 一种双层住宅的制冷采暖系统 |
| CN106091475A (zh) * | 2016-06-18 | 2016-11-09 | 中国建筑科学研究院 | 一种可再生建筑能源综合供应系统 |
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| CN101037877A (zh) * | 2007-04-03 | 2007-09-19 | 孙凌云 | 一种高效太阳能建筑一体化外墙 |
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| CN102747843B (zh) * | 2011-04-20 | 2015-03-04 | 上海高格工程设计咨询有限公司 | 一种生态房屋供能系统及方法 |
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| CN103453565B (zh) * | 2011-07-26 | 2015-11-18 | 芜湖市科华新型材料应用有限责任公司 | 风电、光电及网电互补变功率蓄能供热系统的运行方法 |
| CN102644387A (zh) * | 2012-04-18 | 2012-08-22 | 黄建武 | 太空能风能再生能源可持续建筑一体化系统 |
| CN104896564A (zh) * | 2015-06-15 | 2015-09-09 | 王辉 | 多能联供供热采暖系统 |
| CN105333546A (zh) * | 2015-11-23 | 2016-02-17 | 中国科学院工程热物理研究所 | 一种双层住宅的制冷采暖系统 |
| CN105333546B (zh) * | 2015-11-23 | 2018-05-15 | 中国科学院工程热物理研究所 | 一种双层住宅的制冷采暖系统 |
| CN106091475A (zh) * | 2016-06-18 | 2016-11-09 | 中国建筑科学研究院 | 一种可再生建筑能源综合供应系统 |
| CN106091475B (zh) * | 2016-06-18 | 2018-05-04 | 中国建筑科学研究院 | 一种可再生建筑能源综合供应系统 |
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