Upgrading fuel potentials of waste biomass via hydrothermal carbonization

Chemical Industry Pub Date : 2021-01-01 DOI:10.2298/hemind210507025p

J. Petrović, M. Simić, M. Mihajlovic, M. Koprivica, M. Kojić, I. Nuić

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引用次数: 3

Abstract

In recent decades, massive exploitation of fossil fuels caused a growing demand for the production of energies from renewable sources. Hydrochar obtained from waste biomass via hydrothermal carbonization (HTC) possesses good potentials as a biofuel. Therefore, we performed HTC of corn cob, paulownia leaves, and olive pomace at different temperatures (180, 220, and 260 oC). The main goal of this study was to comparatively evaluate the influence of HTC conditions on the structure and fuel characteristics of the obtained solids. The results showed that the yields of hydrochar decrease significantly with increasing temperature in all samples. The carbon content and higher heating value increased and reached the highest values in hydrochars obtained at 260 oC, while the content of volatile matter decreased. Furthermore, the Van Krevelen diagram reveals that the transformation of feedstock to lignite-like products upon HTC was achieved. In this study, the results showed that processes of dehydration and decarboxylation during HTC provoke intensive biomass transformation and that hydrochars obtained at higher temperatures have significantly enhanced fuel properties and fewer volatiles compared to the feedstock.

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通过水热炭化提高废弃生物质的燃料潜力

近几十年来，化石燃料的大量开采导致对可再生能源生产的需求不断增长。从废生物质中通过水热炭化(HTC)得到的碳氢化合物作为生物燃料具有良好的潜力。因此，我们在不同温度(180、220和260℃)下对玉米芯、泡桐叶和橄榄渣进行了HTC实验。本研究的主要目的是比较评价HTC条件对所得固体的结构和燃料特性的影响。结果表明，随着温度的升高，所有样品的烃类产率均显著降低。碳含量和较高热值增加，并在260℃时达到最高值，而挥发物含量减少。此外，Van Krevelen图显示，在HTC上实现了原料向褐煤样产品的转化。在这项研究中，结果表明，在HTC过程中的脱水和脱羧过程引发了密集的生物质转化，并且与原料相比，在较高温度下获得的氢炭具有显著增强的燃料性能和更少的挥发物。

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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Chemical Industry

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