A COMPARATIVE STUDY ON SAFETY, EXERGETIC, AND ENVIRONMENTAL ANALYSIS FOR BIOMETHANOL VIA BIOGAS REFORMING

Suranaree Journal of Science and Technology Pub Date : 2023-09-15 DOI:10.55766/sujst-2023-03-e02349

Mattana Santasnachok, Teeranun Nakyai

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Abstract

The energy crisis and global warming caused by fossil fuel combustion have received increasing attention in recent years. Biomethanol is a clean and environmentally friendly energy produced by reforming biogas-derived syngas. To investigate the most suitable and efficient biomethanol production process, this paper compares the biomethanol production via three different biogas reforming processes, namely steam reforming, autothermal reforming, and tri-reforming using Aspen Plus simulator through safety index, energy and exergetic, and environmental analyses. For the process performance, the tri-reforming process achieved the highest energetic and exergetic efficiencies of 63.17% and 41.24%, respectively, due to producing the highest yield of methanol. In the environmental analysis, the steam reforming of the biogas process showed the lowest CO2 emission intensity of 3.16 ton CO2/ton methanol. The major source of CO2 emission is the combustion of biogas. The Dow Fire and Explosion Index was used for the safety aspect. The biomethanol reactor was discovered to be the most hazardous equipment.

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通过沼气转化制取生物甲醇的安全性、能效和环境分析比较研究

近年来，化石燃料燃烧引发的能源危机和全球变暖问题日益受到关注。生物甲醇是一种通过重整沼气衍生合成气生产的清洁环保能源。为了研究最合适、最高效的生物甲醇生产工艺，本文使用 Aspen Plus 模拟器，通过安全指数、能效、效价比和环境分析，比较了通过三种不同的沼气重整工艺（即蒸汽重整、自热重整和三重重整）生产生物甲醇的情况。在工艺性能方面，三重转化工艺的能效和效费比最高，分别为 63.17% 和 41.24%，因为甲醇产量最高。在环境分析方面，沼气蒸汽转化工艺的二氧化碳排放强度最低，为 3.16 吨二氧化碳/吨甲醇。二氧化碳排放的主要来源是沼气的燃烧。在安全方面采用了陶氏火灾和爆炸指数。发现生物甲醇反应器是最危险的设备。

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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Suranaree Journal of Science and Technology

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