Improving Energy Harvesting Performance of the PVDF Films by adding Nano ZnO

2023 Fifth International Conference on Advances in Computational Tools for Engineering Applications (ACTEA) Pub Date : 2023-07-05 DOI:10.1109/ACTEA58025.2023.10194067

Rawad Hamdan, Ayham Alyosef, Orazio Aiello, D. Caviglia

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Abstract

The performance of PVDF pyroelectric films for electrical power production has been improved by adding very small amounts of nanostructured ZnO prepared by sol-gel method which is a cheap, simple, and easy method. The XRD spectrum of the prepared ZnO indicates that it is a nanostructure. Pyroelectric films are prepared from PVDF and different percentages of prepared nano ZnO. The Pyroelectric coefficient, Dielectric Constant, and Conductivity of prepared films are measured to be used as inputs for the mathematical model that is created to obtain the optimal percentage of added nano ZnO to PVDF, determine the optimal thickness of the pyroelectric film, and study the effect of the film surface area on energy harvesting performance. It is found that the addition of nano ZnO to PVDF pyroelectric film has two effects on energy harvesting: positive and negative. The positive effect is an increasing pyroelectric coefficient, but the negative effect is an increasing dielectric constant. So the optimal percentage of adding nano ZnO is defined. The optimal value of the thickness of PVDF film, which has an optimal added ZnO percentage, is determined. The reduced surface area of the pyroelectric film increases energy conversion efficiency.

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添加纳米ZnO改善PVDF薄膜的能量收集性能

溶胶-凝胶法制备的ZnO纳米结构薄膜是一种廉价、简单、容易的制备方法，通过加入极少量的ZnO纳米结构，提高了PVDF电力用热释电薄膜的性能。制备的ZnO的XRD谱图表明其为纳米结构。用PVDF和不同比例的纳米ZnO制备热释电薄膜。通过测量所制备薄膜的热释电系数、介电常数和电导率作为数学模型的输入，得到纳米ZnO在PVDF中的最佳添加百分比，确定热释电膜的最佳厚度，并研究膜表面积对能量收集性能的影响。研究发现，在PVDF热释电薄膜中加入纳米ZnO对能量收集有正负两方面的影响。正效应是热释电系数的增加，而负效应是介电常数的增加。从而确定了纳米氧化锌的最佳添加比例。确定了具有最佳氧化锌添加量的PVDF膜厚度的最佳值。热释电膜表面积的减小提高了能量转换效率。

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

2023 Fifth International Conference on Advances in Computational Tools for Engineering Applications (ACTEA)

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