Biochar from Agricultural Waste for Soil Amendment Candidate under Different Pyrolysis Temperatures

Q1 Earth and Planetary Sciences

Indonesian Journal of Science and Technology Pub Date : 2022-12-28 DOI:10.17509/ijost.v8i2.55193

A. Mutolib, A. Rahmat, E. Triwisesa, H. Hidayat, H. Hariadi, K. Kurniawan, S. Sutiharni, S. Sukamto

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引用次数: 1

Abstract

Indonesia as an agricultural country produces and consumes a huge amount of fruits. One of the popular fruits is durian (Durio zibethinus), which can create issues with the high amount of durian seeds. Durian seeds can be fermented quickly. Thus, if they are not processed immediately, it causes pollution to the environment, particularly an odor issue. One of the waste management is to convert durian seed waste into biochar, an ameliorant agent to improve soil quality. This study aims to analyze the physicochemical properties of durian seed-derived biochar under different pyrolysis temperatures. The results showed that the increases in the temperature allowed the creation of more porosity in the biochars, which is due to chemical structure and crystallinity arrangement. This is confirmed by the increases in surface area and total pore volume also decreases in particle size. The change in the chemical structure can be verified by the decreases in the biochar yield. The produced biochar from fruit seeds has excellent carbon content and elemental components such as potassium, magnesium, phosphor, and sulfur, informing prospective fruit seeds as a soil amendment fertilizer

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不同热解温度下农业废弃物生物炭的土壤改良剂研究

印度尼西亚作为一个农业国家，生产和消费大量的水果。榴莲(Durio zibethinus)是一种受欢迎的水果，但榴莲种子过多会造成问题。榴莲的种子可以快速发酵。因此，如果不立即处理，就会对环境造成污染，尤其是气味问题。其中一种废弃物管理方法是将榴莲种子废弃物转化为生物炭，作为改善土壤质量的改良剂。本研究旨在分析不同热解温度下榴莲籽生物炭的理化性质。结果表明，温度的升高允许在生物炭中产生更多的孔隙，这是由于化学结构和结晶度排列。这可以通过表面积的增加和总孔隙体积的减小来证实。化学结构的变化可以通过生物炭产量的下降来证实。由水果种子生产的生物炭具有优异的碳含量和元素成分，如钾、镁、磷和硫，为水果种子作为土壤改良剂提供了前景

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