A novel design for conversion and storage of solar thermal energy into electrical energy using a solar thermoelectric device-coupled supercapacitor

Pengjun Ma, Yan Wang, Xu Zhang, Junwei Lang, Juan Yang, Tongtong Yu, Liqiang Chai, Bingjun Yang, Yanan Deng, Xianfeng Fan, Joonho Bae
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Abstract

The conversion of solar-thermal (ST) power into electrical power along with its efficient storage represents a crucial and effective approach to address the energy crisis. The thermoelectric (TE) generator can absorb ST power and transform it into electrical energy, making it a highly viable technology to achieve photo-thermal conversion (PTC). However, the practical application of the pristine TE generator devices on a larger scale is still facing several challenges. On the one hand, the pristine TE generator device has low inherent PTC efficiency, thereby leading to low power conversion. On the other hand, such solar-thermoelectric (STE) conversion does not provide the functionality of electric energy storage. Herein, an effective strategy has been proposed that employs a CoAl2O4 PTC coating to decorate the pristine TE generator for developing the STE generator device with the remarkable STE performance and then coupling this device with a supercapacitor (SC) for effective storage power. In comparison to the pristine TE generator, the developed STE device exhibited considerable enhancement in both the open-circuit voltage (Voc) and its maximum power density, displaying more than a 4- and 15-fold improvement, respectively. In addition, the feasibility of coupling this solar-driven STE generator device in series with a SC for ST conversion and storage was verified, and the working mechanism has been elucidated. This work presents a promising approach to effectively convert and store clean solar power into electrical energy, enabling practical applications of STE generator devices in conjunction with other electrochemical energy storage devices.

Abstract Image

利用太阳能热电装置耦合超级电容器将太阳热能转化为电能并加以储存的新型设计
将太阳能-热能(ST)转化为电能并进行有效储存,是解决能源危机的一个重要而有效的方法。热电(TE)发电机可以吸收太阳热能并将其转化为电能,是实现光热转换(PTC)的一项非常可行的技术。然而,原始 TE 发电机设备的大规模实际应用仍面临一些挑战。一方面,原始 TE 发电机装置的固有 PTC 效率较低,从而导致功率转换率较低。另一方面,这种太阳能-热电(STE)转换不具备电能存储功能。在此,我们提出了一种有效的策略,即利用 CoAl2O4 PTC 涂层来装饰原始 TE 发电机,从而开发出具有显著 STE 性能的 STE 发电机装置,然后将该装置与超级电容器(SC)耦合,以实现有效的储能。与原始 TE 发电机相比,所开发的 STE 器件在开路电压(Voc)和最大功率密度方面都有显著提高,分别提高了 4 倍和 15 倍以上。此外,还验证了将这种太阳能驱动的 STE 发电机装置与 SC 串联进行 ST 转换和存储的可行性,并阐明了其工作机制。这项研究提出了一种将清洁太阳能有效转化为电能并进行存储的可行方法,使 STE 发电机装置与其他电化学储能装置结合使用成为可能。
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