Liquid-state pyroelectric energy harvesting

IF 3.3 Q3 ENERGY & FUELS
M. Bevione, E. Garofalo, L. Cecchini, A. Chiolerio
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引用次数: 7

Abstract

A liquid-state pyroelectric energy harvester is described and a remarkable capacity to convert a thermal gradient into electrical energy is demonstrated. Increasing the sustainability of energy generation can be pursued by harvesting extremely low enthalpy sources: low temperature differences between cold and hot reservoirs are easily achieved in every industrial process, both at large and small scales, in plants as well as in small appliances, vehicles, natural environments, and human bodies. This paper presents the assessment and efficiency estimate of a liquid-state pyroelectric energy harvester, based on a colloid containing barium titanate nanoparticles and ferrofluid as a stabilizer. The liquid is set in motion by an external pump to control velocity, in a range similar to the one achieved by Rayleigh–Bénard convection, and the colloid reservoir is heated. The colloid is injected into a Fluorinated Ethylene Propylene pipe where titanium electrodes are placed to collect electrical charges generated by pyroelectricity on the surface of the nanoparticles, reaching 22.4% of the ideal Carnot efficiency of a thermal machine working on the same temperature drop. The maximum extracted electrical power per unit of volume is above 7 mW/m^3 with a Δ T between electrodes of 3.9 K.
液态热释电能量采集
描述了一种液态热释电能量收集器,并证明了将热梯度转换为电能的显着能力。提高能源生产的可持续性可以通过收集极低焓源来实现:冷热储层之间的低温差异在每个工业过程中都很容易实现,无论是大型还是小型,无论是在工厂还是在小型电器、车辆、自然环境和人体中。本文介绍了一种基于含钛酸钡纳米颗粒胶体和铁磁流体作为稳定剂的液态热释电能量收集器的评价和效率估计。液体通过一个外部泵来控制流速,流速的范围与瑞利-巴姆纳德对流所达到的流速相似,同时胶体储层被加热。将胶体注入氟化乙烯丙烯管中,在管中放置钛电极来收集纳米颗粒表面由热电产生的电荷,在相同的温度降下,达到热机理想卡诺效率的22.4%。每单位体积提取的最大电功率超过7 mW/m^3,电极之间的Δ T为3.9 K。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
MRS Energy & Sustainability
MRS Energy & Sustainability ENERGY & FUELS-
CiteScore
6.40
自引率
2.30%
发文量
36
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