Utilization of electrical charges in the pores of tofu waste for hydrogen production in water

WEENTECH Proceedings in Energy Pub Date : 2020-08-18 DOI:10.32438/wpe.1720

I. Wardana, N. Satrio

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Abstract

Tofu is main food in Indonesia and its waste generally pollutes the waters. This study aims to change the waste into energy by utilizing the electric charge in the pores of tofu waste to produce hydrogen in water. The tofu pore is negatively charged and the surface surrounding the pore has a positive charge. The positive and negative electric charges stretch water molecules that have a partial charge. With the addition of a 12V electrical energy during electrolysis, water breaks down into hydrogen. The test was conducted on pre-treated tofu waste suspension using oxalic acid. The hydrogen concentration was measured by a MQ-8 hydrogen sensor. The result shows that the addition of turmeric together with sodium bicarbonate to tofu waste in water, hydrogen production increased more than four times. This is due to the fact that magnetic field generated by delocalized electron in aromatic ring in turmeric energizes all electrons in the pores of tofu waste, in the sodium bicarbonate, and in water that boosts hydrogen production. At the same time the stronger partial charge in natrium bicarbonate shields the hydrogen proton from strong attraction of tofu pores. These two combined effect are very powerful for larger hydrogen production in water by tofu waste.

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利用豆腐渣孔隙中的电荷在水中产氢

豆腐是印度尼西亚的主要食物，它的废物通常会污染水域。本研究旨在利用豆腐渣孔隙中的电荷在水中产生氢，将其转化为能量。豆腐孔带负电荷，孔周围的表面带正电荷。正电荷和负电荷拉伸带部分电荷的水分子。在电解过程中加入12V的电能，水就会分解成氢。采用草酸对预处理后的豆腐渣悬浮液进行了处理试验。氢浓度由MQ-8型氢传感器测量。结果表明，在豆腐渣水中加入姜黄和碳酸氢钠，产氢量提高了4倍以上。这是由于姜黄中芳香环上的离域电子产生的磁场使豆腐渣、碳酸氢钠和水中的所有电子都能产生能量，从而促进了氢的产生。同时，碳酸氢钠中较强的部分电荷使氢质子不受豆腐孔的强烈吸引。这两种综合效应对于豆腐废物在水中产生更大的氢是非常强大的。

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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WEENTECH Proceedings in Energy

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