环境卫生工程 ›› 2024, Vol. 32 ›› Issue (5): 48-54.doi: 10.19841/j.cnki.hjwsgc.2024.05.008

• 有机固废生物处理与高值化利用 • 上一篇    下一篇

餐厨废弃油脂制生物柴油全生命周期碳排放分析研究

李剑颖,任晓灵,王晓燕,赖金丽   

  1. 1.北京市城市管理研究院;2.生活垃圾检测分析与评价北京市重点实验室
  • 出版日期:2024-11-01 发布日期:2024-11-01

Analysis and Research on Carbon Emissions Throughout the Life Cycle of Biodiesel Production from Kitchen Waste Oils and Fats

LI Jianying, REN Xiaoling, WANG Xiaoyan, LAI Jinli   

  1. 1. Beijing Municipal Institute of City Management;2. Beijing Key Laboratory of Municipal Solid Waste Detection Analysis and Evaluation
  • Online:2024-11-01 Published:2024-11-01

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摘要: “双碳”背景下,餐厨废弃油脂制备生物柴油在实现“变废为宝”以及能源绿色低碳转型中将会发挥重要作用。对餐厨废弃油脂从产生到制成生物柴油的全生命周期能源消耗、温室气体排放量进行了清单分析,与石化柴油生产全过程进行了对比,并分析了餐厨废弃油脂制备生物柴油过程中每个阶段的温室气体排放贡献以及生物酶法与传统酯交换法制备生物柴油阶段能源消耗及碳排放对比。结果表明:与石化柴油相比,采用生物酶法制得的生物柴油能耗降低71.43%,CO2、温室气体GWP分别减排60.09%、59.79%;地沟油、煎炸油预处理及废弃油脂深加工这两个阶段是废弃油脂全生命周期能耗与温室气体排放的主要阶段,甲醇与蒸汽生产引起的温室气体排放是主要原因;与酯交换法相比,利用生物酶法制生物柴油工艺能耗降低4.58%,CO2排放量、温室气体GWP分别减少38.53%、38.52%。建议在我国发展以餐厨废弃油脂为原料的生物柴油加工处理工艺,杜绝餐厨废弃油脂回流餐桌,节约化石能源消耗,减少温室气体排放。

关键词: 餐厨废弃油脂, 温室气体, 碳排放, 全生命周期, 生物柴油

Abstract: Under the background of “dual carbon”, the preparation of biodiesel from kitchen waste oil would play an important role in achieving “turning waste into treasure”and the green and low-carbon transformation of energy. The energy consumption and greenhouse gas emissions of kitchen waste oil throughout its lifecycle from production to the production of biodiesel were analyzed. And it was compared with the entire process of petrochemical diesel production. The greenhouse gas emissions contribution of each stage in the preparation of biodiesel from kitchen waste oil, as well as the energy consumption and CO2 emissions comparison of biodiesel production between enzymatic and traditional ester exchange methods were analyzed. The results showed that compared with petrochemical diesel, the energy consumption of biodiesel produced by enzymatic method was reduced by 71.43%, and the GWP of CO2 and greenhouse gas were reduced by 60.09% and 59.79%, respectively. The pre-treatment of trench oil and frying oil, as well as the deep processing of waste oil and fat, were the main stages of energy consumption and greenhouse gas emissions throughout the entire life cycle of waste oil and fat. The greenhouse gas emissions caused by methanol and steam production was the main reasons. Compared with the ester exchange method, the energy consumption of biodiesel process using bioenzyme method was reduced by 4.58%, and the GWP of CO2 and greenhouse gas were reduced by 38.53% and 38.52%, respectively. It was recommended to develop a biodiesel processing technology using kitchen waste oil as raw material in China, to prevent kitchen waste oil from flowing back to the dining table, save fossil energy consumption, and reduce greenhouse gas emissions.

Key words: kitchen waste oil and fat, greenhouse gases, carbon emissions, full life cycle, biodiesel

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