Simulation and design of an energy accumulator around the hydrogen energy vector

Q3 Environmental Science

Acta Innovations Pub Date : 2022-10-06 DOI:10.32933/actainnovations.46.5

Laince Pierre Moulebe, A. Touati, Eric Akpoviroro Obar, N. Rabbah

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Abstract

This work demonstrates the study of the numerical modelling and a design of a compact energy generator based on green hydrogen. This generator aims allowing the energy storage, electricity, cold and heat productions as well as a supply the energy for the production of the sanitary hot water. The generator is considered to be powered by 30 solar cells panels and will mainly consist of a Proton Exchange Membrane (PEM) electrolyzer compiled with a Metal Hydride (MH) tank, a PEM fuel cell, and a system of heat exchangers sized to recover the heat from the electrolyzer, PEM fuel cell and MH tank. Furthermore, the generator will contain an adsorber to manage air conditioning (cooling and heating) and a production of the sanitary hot water. A converter block is included in the generator, in particular, a Buck-booster to raise the voltage of the solar panels and the DC-AC converter for the electricity consumption in the household. The desorption of the hydrogen contained in the tank MH will take place using the heating resistance. In overall, the designed generator is foreseen to have a dimension of 1800 × 1000 × 500 mm and its role is to allow integration of the hydrogen energy for the tertiary and residential sectors. As such it is a suitable choice of components for the cost reduction and high yield hydrogen production, storage, and consumption.

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围绕氢能量矢量的蓄能器的仿真与设计

本工作展示了基于绿色氢的紧凑型能源发生器的数值模拟研究和设计。该发电机的目的是允许储能，电力，冷热生产以及为生产卫生热水提供能源。该发电机被认为由30块太阳能电池板供电，主要由一个质子交换膜(PEM)电解槽组成，该电解槽由一个金属氢化物(MH)罐、一个质子交换膜燃料电池和一个热交换器系统组成，该热交换器的大小可以从电解槽、PEM燃料电池和MH罐中回收热量。此外，发电机将包含一个吸附器来管理空调(冷却和加热)和卫生热水的生产。发电机中包括一个转换块，特别是buck升压器，用于提高太阳能电池板和DC-AC转换器的电压，用于家庭用电。氢气在MH罐内的解吸将利用加热阻力进行。总体而言，设计的发电机预计尺寸为1800 × 1000 × 500毫米，其作用是允许第三和住宅部门的氢能集成。因此，它是降低成本和高产氢生产、储存和消耗的合适选择。

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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