基于生命周期的含铁污泥热解资源化新工艺环境影响研究

基于生命周期的含铁污泥热解资源化新工艺环境影响研究

1.长江勘测规划设计研究有限责任公司；2.华中科技大学环境科学与工程学院；3.长江流域多介质污染协同控制湖北省重点实验室，华中科技大学

Life cycle environmental impacts assessment of the new process on Fe-containing sludge recycling by sludge pyrolysis

1. Changjiang Survery, Planning, Design and Research Co. Ltd；2. School of Environmental Science & Engineering, Huazhong University of Science and Technology；3. Hubei Key Laboratory of Multi-media Pollution Cooperative Control in Yangtze Basin, Huazhong University of Science and Technology (HUST)

摘要/Abstract

摘要： 市政污泥脱水是一项世界性难题。Fenton污泥调理技术因其能有效实现污泥深度脱水而受到广泛关注，针对Fenton污泥调理技术产生的大量富铁污泥处理难等问题，前期研发了污泥富铁生物炭部分调理污泥深度脱水-部分生物炭土地利用新工艺。本研究以该新工艺为对象，运用生命周期评价方法分析其环境影响。研究结果表明，与Fenton污泥调理脱水-泥饼直接填埋处理处置工艺相比，新工艺对全球变暖潜值、酸化潜值、富营养化潜值、可吸入无机物和生态毒性等5类环境影响相较传统工艺均有显著改善，分别减少了75.12%、44.26%、4.96%、22.86%和63.92%。通过对各环境影响结果进行标准化计算，发现新工艺总环境影响潜值可降低21.71%，说明富铁污泥热解资源化新工艺具有较好的环境效益。

关键词: 市政污泥, Fenton氧化调理技术, 污泥资源化, 污泥富铁生物炭, 生命周期评价

Abstract: Sludge dewatering remains a global environmental challenge in wastewater treatment. The Fenton conditioning process, extensively investigated for its exceptional dewatering efficiency, generates significant quantities of Fe-rich sludge requiring sustainable management solutions. To address this issue, a new process of Fe-rich biochar partial reused as conditioner for deep dewatering - land application has been developed in the previous study. This research employs Life Cycle Assessment (LCA) to quantitatively compare the environmental impacts between the novel sludge treatment process and conventional Fenton-alkaline conditioning with subsequent sanitary landfill disposal process. It was showed that the new process will bring remarkable environmental benefits for reduce the global warming potential, acidification potential, eutrophication potential, inhalable inorganic substances and ecotoxicity, which were reduced by 75.12%, 44.26%, 4.96%, 22.86% and 63.92% respectively, based on the research results. Standardized environmental impact potential analysis reveals an overall 21.71% decrease in total environmental burdens, conclusively demonstrating the significant ecological benefits of implementing iron-containing sludge recycling through pyrolysis technology.

Key words: , Sewage sludge, Fenton condition process, sludge recycling, Fe-rich sludge biochar, life cycle assessment

陶爽奕, 陈英健, 杜倩, 杨家宽. 基于生命周期的含铁污泥热解资源化新工艺环境影响研究[J]. 环境卫生工程, 0, (): 0-.

TAO Shuangyi, Chen Yinjian, Du qian, Yang Jiakuan. Life cycle environmental impacts assessment of the new process on Fe-containing sludge recycling by sludge pyrolysis[J]. Environmental Sanitation Engineering, 0, (): 0-.

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