CN110021990A - 基于电池储能的复合海洋发电系统 - Google Patents
基于电池储能的复合海洋发电系统 Download PDFInfo
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Abstract
本发明涉及海洋发电技术领域,尤其是一种基于电池储能的复合海洋发电系统,包括压电发电毯、波动叉、传动组、电磁发电机、温差发电机、支撑柱、电池储能系统、和磁悬浮风力发电机,本发明能够充分利用风能、海浪能、太阳能进行复合发电,提高了海洋能源的利用效率,同时将产生的电能输送电池储能系统,定期工作人员开船收集,并更换代充电池组。
Description
技术领域
本发明涉及海洋发电技术领域,具体领域为一种基于电池储能的复合海洋发电系统。
背景技术
地球上的能源来自于太阳能,海洋的总面积约为3.6亿平方公里,约占地球表面积的71%,所以海洋蕴藏着极其丰富的能源,但现在海洋能源的开发还不够完善,主要是开采化石能源为主,丰富的风能、太阳能还需要等待人类技术的进步,进行深入广泛地开发。针对风能、太阳能、温差能、压电能源进行复合全面研发,尚未见诸报端。
发明内容
本发明的目的在于提供一种基于电池储能的复合海洋发电系统,以解决现有技术中对海洋能源的开发不够完善的问题。
为实现上述目的,本发明提供如下技术方案:一种基于电池储能的复合海洋发电系统,包括压电发电毯、波动叉、传动组、电磁发电机、温差发电机、支撑柱、电池储能系统和磁悬浮风力发电机,所述压电发电毯漂浮设置在海洋水面上,所述压电发电毯上设置有两个通孔,所述波动叉的顶部两个拨叉分别穿设过压电发电毯上的对应通孔,波动叉的底部与传动组的输入端连接,传动组的输出端与电磁发电机的转动轴连接,通过传动组传递波动叉的运动给电磁发电机,所述温差发电机设置有两个,且两个温差发电机分别安装在波动叉的两个拨叉的顶部,所述支撑柱竖直设置在海洋上,且支撑柱的底部与海底连接,支撑柱的顶部位于海面上,所述磁悬浮风力发电机设置在支撑柱的顶部,所述电池储能系统设置在支撑柱内,所述的压电发电毯、电磁发电机、温差发电机和磁悬浮风力发电机的电源输出端均通过电缆与电池储能系统的电性输入端连接。
优选的,所述压电发电毯包括从顶层到底层依次叠层设置的聚对苯二甲酸、铜片、聚四氟乙烯、铝片、聚对苯二甲酸,波浪带动压电发电毯上下波浪运动,从而引起压电结构发电。
优选的,所述波动叉的两个拨叉的低端分别与通孔之间焊接固定连接。
优选的,所述传动组为多齿轮组合式齿轮传动组装置,传动组的大齿轮端与波动叉的底端固定连接,传动组的小齿轮端与电磁发电机的转轴固定连接,通过齿轮啮合传动作用,从而增大电磁发电机转子转速。
优选的,所述温差发电机包括聚光镜、桶壁、密封橡胶、低温导热栅、温差发电模块、高温导热块,所述桶壁套设在波动叉的拨叉顶部,所述聚光镜设置在桶壁的顶部,所述高温导热块设置在桶壁内且靠近聚光镜的一端处,所述低温导热删设置在桶壁内且靠近拨叉的一端处,所述温差发电模块设置在低温导热栅和高温导热块之间的夹层内,所述的密封橡胶对桶壁的各个缝隙处进行密封填充。
优选的,所述支撑柱为空心不锈钢柱设置,所述的电池储能系统设置在空心不锈钢柱内。
优选的,所述电池储能系统包括电池组保护壳和设置在电池组保护壳内的超级电容模块和锂电池组,所述超级电容模块的输入端分别与压电发电毯、电磁发电机、温差发电机和磁悬浮风力发电机的电源输出端通过电缆连接,超级电容模块的输出端与锂电池组的输入端导线连接。
优选的,所述磁悬浮风力发电机包括波动栅、转柱、风电定子、风电转子、垂向互斥磁极、横向互斥磁极,转柱竖直转动设置在支撑柱的顶部空心管内,所述垂向互斥磁极设置在转柱的底端与支撑柱的顶部空心管内,相互配合的垂向互斥磁极,支撑转柱在支撑柱内竖直,所述横向互斥磁极分别设置在支撑柱的顶部空心管内壁上与转柱的侧壁上,通过垂向互斥磁极、横向互斥磁极支撑转柱在支撑柱内磁悬浮转动,所述风电定子设置在支撑柱的空心管内壁上,所述风电转子设置在转柱上与风电定子对应配合,所述波动栅与转柱的顶部连接。
优选的,电缆将压电发电毯、电磁发电机、温差发电机、磁悬浮风力发电机四种发电装置产生的电能输送到电池储能系统,工作人员定期开船收集,并更换代充电池组。
与现有技术相比,本发明的有益效果是:通过压电发电毯、电磁发电机、温差发电机、磁悬浮风力发电机之间相互配合,实现海洋复合发电系统,充分利用风能、海浪能、太阳能来进行复合发电,提高了海洋能源的利用效率,还将产生的电能输送电池储能系统,定期工作人员开船收集,并更换代充电池组。
附图说明
图1为本发明的整体结构示意图;
图2为本发明的压电发电毯结构图;
图3为本发明的温差发电机结构;
图4为本发明的电池储能系统结构;
图5为本发明的磁悬浮风力发电机结构。
图中:1、压电发电毯;2、波动叉;3、传动组;4、电磁发电机;5、温差发电机;6、支撑柱;7、电池储能系统;8、磁悬浮风力发电机;9、聚光镜;10、桶壁;11、密封橡胶;12、低温导热栅;13、温差发电模块;14、高温导热块;15、电池组保护壳;16、超级电容模块;17、锂电池组;18、波动栅;19、转柱;20、风电定子;21、风电转子;22、垂向互斥磁极;23、横向互斥磁极。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
请参阅图1至5,本发明提供一种技术方案:一种基于电池储能的复合海洋发电系统,包括压电发电毯1、波动叉2、传动组3、电磁发电机4、温差发电机5、支撑柱6、电池储能系统7和磁悬浮风力发电机8,所述压电发电毯1漂浮设置在海洋水面上,所述压电发电毯1上设置有两个通孔,所述波动叉2的顶部两个拨叉分别穿设过压电发电毯1上的对应通孔,波动叉2的底部与传动组3的输入端连接,传动组3的输出端与电磁发电机4的转动轴连接,通过传动组3传递波动叉2的运动给电磁发电机4,所述温差发电机5设置有两个,且两个温差发电机5分别安装在波动叉2的两个拨叉的顶部,所述支撑柱6竖直设置在海洋上,且支撑柱6的底部与海底连接,支撑柱6的顶部位于海面上,所述磁悬浮风力发电机8设置在支撑柱6的顶部,所述电池储能系统7设置在支撑柱6内,所述的压电发电毯1、电磁发电机4、温差发电机5和磁悬浮风力发电机8的电源输出端均通过电缆与电池储能系统7的电性输入端连接。
如图2所示,所述压电发电毯1包括从顶层到底层依次叠层设置的聚对苯二甲酸、铜片、聚四氟乙烯、铝片、聚对苯二甲酸,波浪带动压电发电毯1上下波浪运动,从而引起压电结构发电。
所述波动叉2的两个拨叉的低端分别与通孔之间焊接固定连接。
所述传动组3为多齿轮组合式齿轮传动组3装置,传动组3的大齿轮端与波动叉2的底端固定连接,传动组3的小齿轮端与电磁发电机4的转轴固定连接,通过齿轮啮合传动作用,从而增大电磁发电机4转子转速。
电磁发电机4包括:定子、线圈、转子,其中转子上有永磁铁,转子轴与传动组3轴相连,传动组3将转动运动传递给转子,转子的转动引起电磁发电机4发电。
如图3所示,所述温差发电机5包括聚光镜9、桶壁10、密封橡胶11、低温导热栅12、温差发电模块13、高温导热块14,所述桶壁10套设在波动叉2的拨叉顶部,所述聚光镜9设置在桶壁10的顶部,所述高温导热块14设置在桶壁10内且靠近聚光镜9的一端处,所述低温导热删12设置在桶壁10内且靠近拨叉的一端处,所述温差发电模块3设置在低温导热栅和高温导热块14之间的夹层内,所述的密封橡胶11对桶壁10的各个缝隙处进行密封填充。
其中聚光镜9的作用是将太阳能聚焦然后照射在高温导热块14上,低温导热栅与海水充分接触,温度低。这样温差发电模块13的顶端高温导热块15与低端低温导热栅之间就存在了温度差,这样温差发电模块13就会有电流产生,而且由于聚光镜9的存在,夏天赤道附件,顶端与低端的温差可以达到30摄氏度以上,在南北纬度(0°-40°)以内都可应用。普通海洋温差发电机5通常是利用表层海水与底层海水之间的温度差来进行发电,这样会导致低温导热栅非常长,体积大,成本高,所以与普通海洋温差发电机5的相比,体积小,成本低,效率高,应用范围广。
所述支撑柱6为空心不锈钢柱设置,所述的电池储能系统7设置在空心不锈钢柱内。支撑柱6为空心不锈钢结构,顶端安装磁悬浮风力发电机8,中间有电池存储系统的支架,通过支架将电池存储系统安装在支撑柱的空心管内,低端插入海底深处,起到固定作用,同时空心管内有传递电能的电缆通过。
如图4所示,所述电池储能系统7包括电池组保护壳15和设置在电池组保护壳15内的超级电容模块16和锂电池组17,所述超级电容模块16的输入端分别与压电发电毯1、电磁发电机4、温差发电机5和磁悬浮风力发电机8的电源输出端通过电缆连接,超级电容模块16的输出端与锂电池组17的输入端导线连接。
海底电缆输送来的电能经过超级电容器模块进行初级存储,然后再给锂电池组17进行充电,这种电容器+锂电池组17的配合方式可以更好的进行间断不规律电能的存储,因为超级电容器具有充电迅速,充放电循环寿命非常长,放电迅速等优点与锂电池较高的能量密度配合而成的电池储能系统7具有很好的充放电性能。
如图5所示,所述磁悬浮风力发电机8包括波动栅18、转柱19、风电定子20、风电转子21、垂向互斥磁极22、横向互斥磁极23,转柱19竖直转动设置在支撑柱6的顶部空心管内,所述垂向互斥磁极22设置在转柱19的底端与支撑柱6的顶部空心管内,相互配合的垂向互斥磁极22,支撑转柱19在支撑柱6内竖直,所述横向互斥磁极23分别设置在支撑柱6的顶部空心管内壁上与转柱19的侧壁上,通过垂向互斥磁极22、横向互斥磁极23支撑转柱19在支撑柱6内磁悬浮转动,所述风电定子20设置在支撑柱6的空心管内壁上,所述风电转子21设置在转柱19上与风电定子25对应配合,所述波动栅18与转柱19的顶部连接。
波动栅18在风的吹拂下转动,并带动转柱19转动,带动风电转子21转动,与风电定子20相互作用产生电流。垂向互斥磁极22由两个上下同性永磁铁块组成,他们之间的互斥磁力正好可以保证转柱19与底端磁极保持悬浮,横向互斥磁极23,由两个水平同心环形磁环组成,他们之间的相互斥力保证两个同心磁环不发生接触。这样由于磁性悬浮磁环和磁块的存在,保证转柱19保持悬空状态。
电缆将压电发电毯、电磁发电机、温差发电机、磁悬浮风力发电机四种发电装置产生的电能输送到电池储能系统,工作人员定期开船收集,并更换代充电池组。
尽管已经示出和描述了本发明的实施例,对于本领域的普通技术人员而言,可以理解在不脱离本发明的原理和精神的情况下可以对这些实施例进行多种变化、修改、替换和变型,本发明的范围由所附权利要求及其等同物限定。
Claims (9)
1.一种基于电池储能的复合海洋发电系统,其特征在于:包括压电发电毯、波动叉、传动组、电磁发电机、温差发电机、支撑柱、电池储能系统、和磁悬浮风力发电机,所述压电发电毯漂浮设置在海洋水面上,所述压电发电毯上设置有两个通孔,所述波动叉的顶部两个拨叉分别穿设过压电发电毯上的对应通孔,波动叉的底部与传动组的输入端连接,传动组的输出端与电磁发电机的转动轴连接,通过传动组传递波动叉的运动给电磁发电机,所述温差发电机设置有两个,且两个温差发电机分别安装在波动叉的两个拨叉的顶部,所述支撑柱竖直设置在海洋上,且支撑柱的底部与海底连接,支撑柱的顶部位于海面上,所述磁悬浮风力发电机设置在支撑柱的顶部,所述电池储能系统设置在支撑柱内,所述的压电发电毯、电磁发电机、温差发电机和磁悬浮风力发电机的电源输出端均通过电缆与电池储能系统的电性输入端连接。
2.根据权利要求1所述的基于电池储能的复合海洋发电系统,其特征在于:所述压电发电毯包括从顶层到底层依次叠层设置的聚对苯二甲酸、铜片、聚四氟乙烯、铝片、聚对苯二甲酸,波浪带动压电发电毯上下波浪运动,从而引起压电结构发电。
3.根据权利要求1所述的基于电池储能的复合海洋发电系统,其特征在于:所述波动叉的两个拨叉的低端分别与通孔之间焊接固定连接。
4.根据权利要求1所述的基于电池储能的复合海洋发电系统,其特征在于:所述传动组为多齿轮组合式齿轮传动组装置,传动组的大齿轮端与波动叉的底端固定连接,传动组的小齿轮端与电磁发电机的转轴固定连接,通过齿轮啮合传动作用,从而增大电磁发电机转子转速。
5.根据权利要求1所述的基于电池储能的复合海洋发电系统,其特征在于:所述温差发电机包括聚光镜、桶壁、密封橡胶、低温导热栅、温差发电模块、高温导热块,所述桶壁套设在波动叉的拨叉顶部,所述聚光镜设置在桶壁的顶部,所述高温导热块设置在桶壁内且靠近聚光镜的一端处,所述低温导热删设置在桶壁内且靠近拨叉的一端处,所述温差发电模块设置在低温导热栅和高温导热块之间的夹层内,所述的密封橡胶对桶壁的各个缝隙处进行密封填充。
6.根据权利要求1所述的基于电池储能的复合海洋发电系统,其特征在于:所述支撑柱为空心不锈钢柱设置,所述的电池储能系统设置在空心不锈钢柱内。
7.根据权利要求1所述的基于电池储能的复合海洋发电系统,其特征在于:所述电池储能系统包括电池组保护壳和设置在电池组保护壳内的超级电容模块和锂电池组,所述超级电容模块的输入端分别与压电发电毯、电磁发电机、温差发电机和磁悬浮风力发电机的电源输出端通过电缆连接,超级电容模块的输出端与锂电池组的输入端导线连接。
8.根据权利要求6所述的基于电池储能的复合海洋发电系统,其特征在于:所述磁悬浮风力发电机包括波动栅、转柱、风电定子、风电转子、垂向互斥磁极、横向互斥磁极,转柱竖直转动设置在支撑柱的顶部空心管内,所述垂向互斥磁极设置在转柱的底端与支撑柱的顶部空心管内,相互配合的垂向互斥磁极,支撑转柱在支撑柱内竖直,所述横向互斥磁极分别设置在支撑柱的顶部空心管内壁上与转柱的侧壁上,通过垂向互斥磁极、横向互斥磁极支撑转柱在支撑柱内磁悬浮转动,所述风电定子设置在支撑柱的空心管内壁上,所述风电转子设置在转柱上与风电定子对应配合,所述波动栅与转柱的顶部连接。
9.根据权利要求1所述的基于电池储能的复合海洋发电系统,其特征在于:电缆将压电发电毯、电磁发电机、温差发电机、磁悬浮风力发电机四种发电装置产生的电能输送到电池储能系统,工作人员定期开船收集,并更换代充电池组。
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CN114520539A (zh) * | 2022-04-20 | 2022-05-20 | 杭州杰牌传动科技有限公司 | 一种减速器智能监测系统的绿色能源供电系统 |
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CN114520539A (zh) * | 2022-04-20 | 2022-05-20 | 杭州杰牌传动科技有限公司 | 一种减速器智能监测系统的绿色能源供电系统 |
CN114520539B (zh) * | 2022-04-20 | 2022-08-05 | 杭州杰牌传动科技有限公司 | 一种减速器智能监测系统的绿色能源供电系统 |
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