CN106230349A - 一种光气氢能源互联跨界生产工艺系统 - Google Patents
一种光气氢能源互联跨界生产工艺系统 Download PDFInfo
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Abstract
本发明提供一种光气氢能源互联跨界生产工艺系统,包括一路光伏发电系统,包括光伏组件、充放电控制器、蓄电池组以及逆变器,充放电控制器的前端连接光伏组件,充放电控制器的后端一路连接蓄电池组,另一路连接逆变器;一路燃气发电系统,所述燃气发电系统包括热泵机组、换热器及发电装置,所述热泵机组通过换热器连接至发电装置;所述光伏发电系统和燃气发电系统分别连接至冷热供联系统以及制氢系统;所述冷热供联系统包括智能切换装置、集热水箱和恒温水箱,集热水箱与恒温水箱通过第一循环泵连接,在集热水箱设置有温度传感器和第一水位传感器,第一水位传感器和设置在恒温水箱的第二水位传感器分别与第一循环泵连接。
Description
技术领域
本发明属于能源利用系统技术领域,具体涉及一种一种光气氢能源互联跨界生产工艺系统。
背景技术
光伏发电、燃气发电及电制氢技术均是比较成熟的技术,但均有其局限性,一是光伏发电土地成本逐渐增大,间歇性供电限制了光伏电站发展,二是我国当前发电产能过剩严重,造成弃光现象严重;三是燃气发电属于国家大力发展的清洁能源技术之一,但由于气价等因素导致发电成本居高不下;四是氢能源是一种重要的清洁能源,缺点为煤制氢或电解制取能耗高;总体上各能源之间、能源与土地之间缺少互联,资源不能共享。
发明内容
为实现上述技术目的,本发明所采取的技术方案如下:
一种光气氢能源互联跨界生产工艺系统,包括
一路光伏发电系统,包括光伏组件、充放电控制器、蓄电池组以及逆变器,充放电控制器的前端连接光伏组件,充放电控制器的后端一路连接蓄电池组,另一路连接逆变器;
一路燃气发电系统,所述燃气发电系统包括热泵机组、换热器及发电装置,所述热泵机组通过换热器连接至发电装置;
所述光伏发电系统和燃气发电系统分别连接至冷热供联系统以及制氢系统;所述冷热供联系统包括智能切换装置、集热水箱和恒温水箱,集热水箱与恒温水箱通过第一循环泵连接,在集热水箱设置有温度传感器和第一水位传感器,第一水位传感器和设置在恒温水箱的第二水位传感器分别与第一循环泵连接。
所述智能切换装置分别与逆变器、蓄电池组以及发电装置连接。
所述发电装置是电机。
本发明的有益效果为:通过提供一种光伏发电、燃气发电、电制氢、氢燃料发电、光牧互补和牧草生产的一种光气氢能源互联跨界生产工艺系统,利用互联网控制技术共享资源,实现能源互联跨界生产。通过光牧互补解决光伏电站的土地问题,实现牧光互补,利用燃气发电起到对电网“调峰填谷”作用,消除光伏间歇供电缺陷,光伏发电又可降低燃气发电成本,电制氢可消纳富余电力,解决“弃光限电”现象,制取的氢气储存起来于用电高峰期发电以及化工和航天领域使用,尤其为氢燃料汽车发展提供原料,是解决西部新能源弃风弃光的优选方案。
附图说明
图1为本发明的框架结构示意图;
图2是本发明具体实施例的框架结构示意图;
具体实施方式
为了使本发明实现的技术手段、创作特征、达成目的与功效易于明白了解,下面结合具体图示,进一步阐述本发明,但不应视为对本发明保护范围的限定。
实施例1
参照图1和图2,一路光伏发电系统1,包括光伏组件11、充放电控制器12、蓄电池组14以及逆变器13,充放电控制器12的前端连接光伏组件11,充放电控制器12的后端一路连接蓄电池组14,另一路连接逆变器13;
一路燃气发电系统2,所述燃气发电系统2包括热泵机组21、换热器22及发电装置23,所述热泵机组21通过换热器22连接至发电装置23;
所述光伏发电系统1和燃气发电系统2分别连接至冷热供联系统4以及制氢系统3;所述冷热供联系统4包括智能切换装置41、集热水箱42和恒温水箱43,集热水箱42与恒温水箱43通过第一循环泵44连接,在集热水箱41处设置有温度传感器46和第一水位传感器45,第一水位传感器45和设置在恒温水箱43的第二水位传感器47分别与第一循环泵连接44。
所述智能切换装置5分别与逆变器13、蓄电池组14以及发电装置23连接。
所述发电装置23是电机。
参照图2的实施为例,光伏与牧业互补生产系统中,采用大跨度柔性支架,不影响地面牧草生长,并在设施上设置喷灌设施,既解决光伏电站的土地问题,又为牧场提供水利灌溉。在光伏电站附近设置燃气发电系统,该系统主要由天然气供应单元、燃气发动机或发电机或溴化锂直燃机及控制系统组成,天然气在燃气发动机中燃烧做功推动发电机组发电,所发电力与光伏发电共同并入电网,实现对电网“调峰填谷”的作用,消除光伏间歇供电缺陷,而光伏发电补充燃气发电,降低燃气发电成本,系统余热烟气则经溴化锂机组制热和制冷,向周边牧民供热和供冷。在互联生产流程中设置电解制氢装置,光伏发电引至电制氢装置,将直流电通入水中制取氢气,该装置系统主要由电解装置、电解液循环装置、原料水补充装置等组成,水电解制氢耗电量大,可有效解决“弃光限电”现象。制取出来的氢气储存在储罐中,在缺电时期用以发电,富余氢气可输送至附近化工企业当化工原料使用,或作为航天燃料及新能源汽车用氢。由“能源互联跨界生产控制系统”动态分析各系统电力、冷能、热能以及天然气的峰谷价格等因素,并合理调度该流程最佳可靠经济,达到提高能源利用率,实现循环经济。
Claims (3)
1.一种光气氢能源互联跨界生产工艺系统,其特征在于,包括
一路光伏发电系统,包括光伏组件、充放电控制器、蓄电池组以及逆变器,充放电控制器的前端连接光伏组件,充放电控制器的后端一路连接蓄电池组,另一路连接逆变器;
一路燃气发电系统,所述燃气发电系统包括热泵机组、换热器及发电装置,所述热泵机组通过换热器连接至发电装置;
所述光伏发电系统和燃气发电系统分别连接至冷热供联系统以及制氢系统;所述冷热供联系统包括智能切换装置、集热水箱和恒温水箱,集热水箱与恒温水箱通过第一循环泵连接,在集热水箱处设置有温度传感器和第一水位传感器,第一水位传感器和设置在恒温水箱的第二水位传感器分别与第一循环泵连接。
2.根据权利要求1所述的一种光气氢能源互联跨界生产工艺系统,其特征在于,所述智能切换装置分别与逆变器、蓄电池组以及发电装置连接。
3.根据权利要求1所述的一种光气氢能源互联跨界生产工艺系统,其特征在于,所述发电装置是电机。
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CN109742800A (zh) * | 2019-01-24 | 2019-05-10 | 华电电力科学研究院有限公司 | 一种基于天然气、氢气、电力的能源互联网系统及工作方法 |
CN113410856A (zh) * | 2020-11-04 | 2021-09-17 | 清华四川能源互联网研究院 | 延缓储能电力辅助服务系统性能衰减的联合系统及方法 |
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