CN111746326A - 一种智慧能源站 - Google Patents
一种智慧能源站 Download PDFInfo
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Abstract
本发明公开一种智慧能源站,涉及新能源领域。本发明提供一种智慧能源站,包括新能源发电模块、储能模块、充电模块、检测模块、通信模块、云端处理模块、AI监控模块、温控模块、高压电网,还包括充气系统、充液系统。本发明实时检测充电模块状态,收集充电模块信息,及时发现故障点,通过通信模块与云端处理模块可以及时通知安排维修人员维修,保障能源站常态化正常运行;智慧能源站中AI监控模块监控高压电网电量使用情况,实时监测系统电量变动情况,电网电量充足时可以通过电网为储能模块及充电模块供电,当发电模块电量满足充电模块及储能模块后有盈余则可以进行余电并网,提高能源利用率;此智慧能源站提供充电、充气、充电解液的系统,将新能源汽车补充能源设施集中整合在一起,便于智慧能源站常态规范化管理。
Description
技术领域
本发明属于充电充气系统领域,特别涉及一种智慧能源站。
背景技术
化石能源是非可再生资源,同时也是最重要的工业原料。化石能源的燃烧排放出大量有害气体和粉尘,汽车尾气是城市空气污染的罪魁祸首。而电力的来源十分广泛,以光伏、风电、燃料电池等为代表的新型清洁能源产生电力代替化石能源的燃烧,纯电动汽车代替汽油车是未来绿色交通的必由之路。因此新能源汽车的推广对节约非可再生能源、保护环境至关重要。新能源汽车推广需要方便解决新能源汽车充电充气的问题,因此,加大新能源汽车的充电充气设施建设,方便新能源汽车充电充气,有利于国家节能减排政策的实施和推广。新能源汽车的充电充气设施长期方便新能源汽车充电充气的前提是实现充电充气设施常态化规范管理,现有充电充气系统存在管理人员不能实时获取充电充气设施状态方便管理,维修人员不能及时获取故障信息进行维修,存在人为损坏设施行为不能及时制止或采取对应预防措施。
现有技术“一种加油站新能源超级充电系统”公开了一种加油站新能源超级充电系统,包括燃料电池发电系统、风能发电装置、光伏发电装置、储能系统、逆变器和超级充电桩,所述燃料电池发电系统通过第一控制器与储能系统连接,风能发电装置通过第二控制器与储能系统连接,光伏发电装置通过第三控制器与储能系统连接,储能系统的输出端与超级充电桩连接。本发明专利采用多能源系统能量转化率高,易布置,无污染而且不产生噪音,与加油站结合,利用原有加油站燃料资源,无须国家高压电网供电即可为电动汽车快速充电,扩充加油站的业务范围,提供快充、慢充多种选择,盈利能力强,系统余电并网,利用率高。
但现有技术专注于电动车供电系统设施建设,不能实时了解充电状态信息,不能及时发现故障点进行维修,对人为损坏设施行为不能及时制止或采取相应预防措施,没有实现充电系统长期规范化管理;且现有技术没有提供氢能源汽车供气设施与金属燃料汽车供液设施,不能高度整合新能源服务,使新能源汽车补充能源设施分散、杂乱,增大新能源汽车服务基础设施管理难度。
发明内容
为解决上述问题,本发明的目的在于提供一种实时反馈充电状态的智慧能源站,充电出现故障可及时发出故障通知,方便维修人员掌握情况及时检修。
本发明的另一个目的在于提供一种实时掌握充电充气设施场所情况的智慧能源站,发现人为损坏设施行为及时制止,还原损坏设施事件,采取相应预防措施。
本发明的再一个目的在于提供一种能够充电、充气、充电解液的智慧能源站,将新能源汽车补充能源地设施集中整合在一起,方便设施管理。
为实现上述目的,本发明的技术方案如下:
本发明提供一种智慧能源站,包括新能源发电模块、储能模块、充电模块、检测模块、通信模块、云端处理模块,新能源发电模块与充电模块、储能模块、检测模块、通信模块四者均连接,储能模块与充电模块、检测模块、通信模块三者均连接,检测模块与充电模块、通信模块二者均连接,通信模块与云端处理模块连接。
新能源模块通过新能源发电提供电能,优先将电能储存在储能模块,当新能源模块由于各种原因不能及时供电时,储能模块能稳定供电,保障稳定充电服务。新能源发电模块与储能模块均能给充电模块、检测模块、通信模块供电,检测模块实时检测充电模块状态,收集充电模块信息,及时发现故障点,通过通信模块与云端处理模块可以及时通知安排维修人员维修,保障充电模块常态化正常运行,提供充电服务。储能模块包括储能电池,储能电池可以是三元锂电池、磷酸铁锂电池、铅酸电池、锰酸锂电池、钴酸锂电池、铝酸胶体电池、全钒液流电池、钠离子电池或者石墨烯电池。
进一步地,该智慧能源站还包括AI监控模块,新能源发电模块、储能模块、通信模块与AI监控模块连接。AI监控模块记录充电充气设施场所情况,并通过通信模块将监控信息传送到云端处理模块,便于管理人员掌握充电充气设施场所情况,还原人为损坏设施事件,便于采取相应预防措施,实现场所常态化规范管理。
进一步地,该智慧能源站还包括温控模块,新能源发电模块、储能模块、通信模块与温控模块连接。温控模块智能感应系统环境温度,当温度超过警戒值,发出警报,并通过通信模块将警报信息传给云端处理模块,便于管理人员及时采取应对措施。
进一步地,该智慧能源站还包括高压电网、变压器、智能电表和直流输出口,智能电表通过变压器与高压电网连接,高压电网通过变压器连接新能源发电模块、充电模块、储能模块、检测模块、通信模块、温控模块和AI监控模块,直流输出口与储能模块连接。AI监控模块通过智能电表监控高压电网电量使用情况,实时监测系统电量变动情况;当新能源发电模块不工作时,高压电网可以为充电模块及整个系统实现供电,并为储能模块储存电能。当新能源发电模块为系统供电后出现余电时,可通过高压电网实现余电并网,提高能源利用率。直流输出口与储能模块连接,可以将储能模块中的电能转化为直流电输出供给外部系统使用。
进一步地,新能源发电模块包括光伏发电装置、风能发电装置、氢燃料电池发电组件和金属空气电池发电组件。使用清洁能源,绿色环保。
进一步地,氢燃料电池发电组件包括氢燃料电池、氢气罐、补气口,且燃料电池、氢气罐、补气口依次连接;金属空气电池发电组件包括金属空气电池、电解液箱、补液口,金属空气电池、电解液箱、补液口依次连接。氢气罐为氢燃料电池发电组件补充氢气,电解液箱为金属空气电池发电组件补充电解液,实现燃料电池正常运转。金属空气电池可以是铝空气电池、镁空气电池、锌空气电池或者锂空气电池。
进一步地,该智慧能源站还包括氢燃料汽车加气桩、充气口、电解液出口、金属燃料汽车加电解液口、充液口;氢气罐连接氢燃料汽车加气桩,氢燃料汽车加气桩连接充气口;电解液箱连接电解液出口,电解液出口、金属燃料汽车加电解液口、充液口依次连接。在满足电动车充电需求时还满足氢燃料汽车充气需求及金属燃料汽车充电解液需求,高度整合新能源服务,使新能源汽车补充能源设施集中、统一,便于新能源汽车基础设施常态规范化管理。
进一步地,充电模块包括直流充电桩、直流充电枪、交流充电桩、交流充电枪、无线充电桩,直流充电桩连接直流充电枪,交流充电桩连接交流充电枪。满足直流充电与交流充电需求,还提供无线充电服务。
进一步地,该智慧能源站还包括最大功率点追踪控制器,光伏发电装置与风能发电装置均通过最大功率点追踪控制器与直流充电桩连接,实现最大功率输出,提升太阳能、风能转化率。
进一步地,该智慧能源站还包括切换开关,光伏发电装置通过切换开关连接,实现多个光伏发电装置自由组合进行串联或者并联。通过最大功率点追踪控制器确定各个光伏发电装置性能,将性能相近的光伏发电装置分为一组,通过切换开关串联在一起,然后将具有不同性能的不同组光伏发电装置并联,如此可以避免光伏发电装置不同性能串联在一起影响输出功率。
本发明的优势在于:相比于现有技术,在本发明当中,当充电出现故障可及时发出故障通知,方便维修人员掌握情况及时检修;实时掌握充电充气设施场所情况,发现人为损坏设施行为及时制止,还原损坏设施事件,采取相应预防措施;提供充电、充气、充电解液的系统,将新能源汽车补充能源设施集中整合在一起,便于新能源汽车基础设施常态规范化管理;将性能相近的光伏发电装置分为一组,通过切换开关串联在一起,然后将具有不同性能的不同组光伏发电装置并联,如此可以避免光伏发电装置不同性能串联在一起影响输出功率;智慧能源站中AI监控模块监控高压电网电量使用情况,实时监测系统电量变动情况,电网电量充足时可以通过电网为储能模块及充电模块供电,当发电模块电量满足充电模块及储能模块后有盈余则可以进行余电并网,提高能源利用率。
附图说明
图1是本发明结构框图
图2是切换开关示意图
具体实施方式
为了使本发明的目的、技术方案及优点更加清楚明白,以下结合附图及实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。
为实现上述目的,本发明的技术方案如下:
一种智慧能源站,包括新能源发电模块、储能模块、充电模块、检测模块、通信模块、云端处理模块,新能源发电模块与充电模块、储能模块、检测模块、通信模块四者均连接,储能模块与充电模块、检测模块、通信模块三者均连接,检测模块与充电模块、通信模块二者均连接,通信模块与云端处理模块连接。本实施例中,储能模块是BMS控制储能电池。
新能源模块通过新能源发电提供电能,优先将电能储存在储能模块,当新能源模块由于各种原因不能及时供电时,储能模块能稳定供电,保障稳定充电服务。新能源发电模块与储能模块均能给充电模块、检测模块、通信模块供电,检测模块实时检测充电模块状态,收集充电模块信息,及时发现故障点,通过通信模块与云端处理模块可以及时通知安排维修人员维修,保障充电模块常态化正常运行,提供充电服务。
该智慧能源站还包括AI监控模块,新能源发电模块、储能模块、通信模块与AI监控模块连接。AI监控模块记录充电充气设施场所情况,并通过通信模块将监控信息传送到云端处理模块,便于管理人员掌握充电充气设施场所情况,还原人为损坏设施事件,便于采取相应预防措施,实现场所常态化规范管理。
该智慧能源站还包括温控模块,新能源发电模块、储能模块、通信模块与温控模块连接。温控模块智能感应系统环境温度,当温度超过警戒值,发出警报,并通过通信模块将警报信息传给云端处理模块,便于管理人员及时采取应对措施。
该智慧能源站还包括高压电网、变压器、智能电表和直流输出口,智能电表通过变压器与高压电网连接,高压电网通过变压器连接新能源发电模块、充电模块、储能模块、检测模块、通信模块、温控模块和AI监控模块,直流输出口与储能模块连接。AI监控模块通过智能电表监控高压电网电量使用情况,实时监测系统电量变动情况;当新能源发电模块不工作时,高压电网可以为充电模块及整个系统实现供电,并为储能模块储存电能。当新能源发电模块为系统供电后出现余电时,可通过高压电网实现余电并网,提高能源利用率。直流输出口与储能模块连接,可以将储能模块中的电能转化为直流电输出供给外部系统使用。
新能源发电模块包括光伏发电装置、风能发电装置、氢燃料电池发电组件和金属空气电池发电组件。光伏发电装置、风能发电装置均与最大功率点追踪控制器连接,实现最大功率输出,提升太阳能、风能转化率。新能源发电模块使用清洁能源,绿色环保。
氢燃料电池发电组件包括氢燃料电池、氢气罐、补气口,且氢燃料电池、氢气罐、补气口依次连接;金属空气电池发电组件包括金属空气电池、电解液箱、补液口,且金属空气电池、电解液箱、补液口依次连接。氢气罐为氢燃料电池发电组件补充氢气,电解液箱为金属空气电池发电组件补充电解液,实现燃料电池正常运转。
该智慧能源站还包括氢燃料汽车加气桩、两个充气口、电解液出口、金属燃料汽车加电解液口、两个充液口;氢气罐连接氢燃料汽车加气桩,氢燃料汽车加气桩连接充气口;电解液箱连接电解液出口,电解液出口、金属燃料汽车加电解液口、充液口依次连接。在满足电动车充电需求时还满足氢燃料汽车充气需求及金属燃料汽车充电解液需求,高度整合新能源服务,使新能源汽车补充能源设施集中、统一,便于新能源汽车基础设施常态规范化管理。
充电模块包括直流充电桩、直流充电枪、交流充电桩、交流充电枪、无线充电桩,直流充电桩连接直流充电枪,交流充电桩连接交流充电枪。满足直流充电与交流充电需求,还提供无线充电服务。
该智慧能源站还包括最大功率点追踪控制器,光伏发电装置与风能发电装置均通过最大功率点追踪控制器与直流充电桩连接,实现最大功率输出,提升太阳能、风能转化率。
该智慧能源站还包括切换开关,光伏发电装置通过切换开关连接,实现多个光伏发电装置自由组合进行串联或者并联。通过最大功率点追踪控制器确定各个光伏发电装置性能,将性能相近的光伏发电装置分为一组,通过切换开关串联在一起,然后将具有不同性能的不同组光伏发电装置并联,如此可以避免光伏发电装置不同性能串联在一起影响输出功率。
切换开关原理如图2所示,四个光伏发电装置A、B、C、D,根据光伏发电装置性能分组可以选择将光伏发电装置A与C串联,B与D串联,再将两组并联,可以选择将光伏发电装置A与D串联,C与B串联,再将两组并联,可以选择将光伏发电装置C与D并联,再与A串联,可以选择将光伏发电装置C与D并联,再与B串联,可以选择光伏发电装置A与D串联,可以选择光伏发电装置A与C串联,可以选择光伏发电装置B与C串联,可以选择光伏发电装置B与D串联,切换开关a、b、c、d的开与关实现多个光伏发电装置串联或并联。
均本发明的优势在于:相比于现有技术,在本发明当中,当充电出现故障可及时发出故障通知,方便维修人员掌握情况及时检修;实时掌握充电充气设施场所情况,发现人为损坏设施行为及时制止,还原损坏设施事件,采取相应预防措施;提供充电、充气、充电解液的系统,将新能源汽车补充能源设施集中整合在一起,便于新能源汽车基础设施常态规范化管理;将性能相近的光伏发电装置分为一组,通过切换开关串联在一起,然后将具有不同性能的不同组光伏发电装置并联,如此可以避免光伏发电装置不同性能串联在一起影响输出功率。
以上仅为本发明的较佳实施例而已,并不用以限制本发明,凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等,均应包含在本发明的保护范围之内。
Claims (10)
1.一种智慧能源站,包括新能源发电模块、储能模块、充电模块,其特征在于:该智慧能源站还包括检测模块、通信模块、云端处理模块,新能源发电模块与充电模块、储能模块、检测模块、通信模块四者均连接,储能模块与充电模块、检测模块、通信模块三者均连接,检测模块与充电模块、通信模块二者均连接,通信模块与云端处理模块连接。
2.如权利要求1所述的一种智慧能源站,其特征在于:该智慧能源站还包括AI监控模块,所述新能源发电模块、储能模块、通信模块与AI监控模块连接。
3.如权利要求2所述的一种智慧能源站,其特征在于:该智慧能源站还包括温控模块,所述新能源发电模块、储能模块、通信模块均与温控模块连接。
4.如权利要求3所述的一种智慧能源站,其特征在于:该智慧能源站还包括高压电网、变压器、智能电表和直流输出口,智能电表通过变压器与高压电网连接,高压电网通过变压器连接新能源发电模块、充电模块、储能模块、检测模块、通信模块、温控模块和AI监控模块,直流输出口与储能模块连接。
5.如权利要求4所述的一种智慧能源站,其特征在于:所述新能源发电模块包括光伏发电装置、风能发电装置、氢燃料电池发电组件和金属空气电池发电组件。
6.如权利要求5所述的一种智慧能源站,其特征在于:所述氢燃料电池发电组件包括氢燃料电池、氢气罐、补气口,且燃料电池、氢气罐、补气口依次连接;所述金属空气电池发电组件包括金属空气电池、电解液箱、补液口,且金属空气电池、电解液箱、补液口依次连接。
7.如权利要求6所述的一种智慧能源站,其特征在于:该智慧能源站还包括氢燃料汽车加气桩、充气口、电解液出口、金属燃料汽车加电解液口、充液口;所述氢气罐连接氢燃料汽车加气桩,氢燃料汽车加气桩连接充气口;所述电解液箱连接电解液出口,且电解液出口、金属燃料汽车加电解液口、充液口依次连接。
8.如权利要求7所述的一种智慧能源站,其特征在于:充电模块包括直流充电桩、直流充电枪、交流充电桩、交流充电枪、无线充电桩,直流充电桩连接直流充电枪,交流充电桩连接交流充电枪。
9.如权利要求8所述的一种智慧能源站,其特征在于:该智慧能源站还包括最大功率点追踪控制器,所述光伏发电装置与风能发电装置均通过最大功率点追踪控制器与直流充电桩连接。
10.如权利要求9所述的一种智慧能源站,其特征在于:该智慧能源站还包括切换开关,多个光伏发电装置通过切换开关连接,实现多个光伏发电装置自由组合进行串联或者并联。
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CN113561824A (zh) * | 2021-08-09 | 2021-10-29 | 四川帝威能源技术有限公司 | 一种加氢充电一体桩及余热回收系统 |
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CN113561824A (zh) * | 2021-08-09 | 2021-10-29 | 四川帝威能源技术有限公司 | 一种加氢充电一体桩及余热回收系统 |
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