首页|期刊导航|河南理工大学学报(自然科学版)|基于生命周期评价的城市污水处理碳足迹分析与评价

基于生命周期评价的城市污水处理碳足迹分析与评价OA

Carbon footprint analysis and assessment of municipal wastewater treatment based on life cycle assessment

中文摘要英文摘要

目的 针对现有污水处理碳足迹研究中忽略污水中化石源有机碳经活性污泥法生物处理产生的CO₂排放和缺乏减碳路径全生命周期综合评估的问题,进行生命周期评价的城市污水处理碳足迹分析与评价研究.方法 构建碳足迹核算模型,识别典型A/A/O(厌氧/缺氧/好氧)工艺污水处理厂全流程关键碳排放环节,提出系统性减排路径,并以典型污水处理厂为例,采用生命周期评价法,建立初级处理、生化处理、深度处理和污泥处理 4个单元过程,运用eFootprint软件,参照CLCD、Ecoinvent数据库中数据,核算碳足迹.创新性纳入污水中化石源有机碳经活性污泥法生物处理产生的CO₂的核算,基于一年实际运行数据,通过敏感性分析识别关键影响因子.结果 全厂碳足迹为5.11×10⁻¹ kgCO₂e/m³.该污水处理厂4个单元过程的碳足迹排序为:生化处理>污泥处理>深度处理>初级处理,其中生化处理和污泥处理合计占比73%,是主要碳排放单元.从清单类型看,碳足迹占比排序为电耗>物耗>污染物排放>直接排放,电耗和物耗为核心影响因素,间接排放合计占比82%.结论 构建的碳足迹核算模型纳入了化石源CO₂排放,明确了生化处理和污泥处理为关键减排单元,电耗和物耗为核心管控对象.据此提出短期通过设备能效提升、运行优化和低成本材料替代,长期通过工艺升级、智能控制和能源结构优化的短长期协同减排方案,为污水处理厂碳减排提供可操作路径.

Objectives Gaps in existing wastewater treatment carbon-footprint research are addressed in the present study—namely the omission of CO₂ emissions originating from fossil-derived organic carbon in influ-ent wastewater that are released during biological treatment by activated sludge,and the lack of comprehen-sive life-cycle-level evaluation of carbon-reduction pathways.A life-cycle assessment is conducted to ana-lyze and evaluate the carbon footprint of municipal wastewater treatment.Methods An improved carbon-footprint accounting model is developed to identify the key emission sources across the full process of repre-sentative A/A/O(anaerobic/anoxic/oxic)wastewater treatment plants,and integrated,system-level mitiga-tion strategies are proposed.Taking a typical wastewater treatment plant as a case study,a life cycle assess-ment(LCA)method is applied to establish a system encompassing four unit processes:primary treatment,biological treatment,advanced treatment,and sludge treatment.The eFootprint software,along with the CLCD and Ecoinvent databases is used to quantify the carbon footprint.A novel aspect includes the ac-counting of CO2 emissions derived from fossil-origin organic carbon in wastewater during biological treat-ment via the activated sludge process.Based on one year of actual operational data,a sensitivity analysis is conducted to identify key influencing factors.Results The total carbon footprint of the plant is found to be 5.11×10⁻¹ kg CO₂e/m³.The carbon footprint of the four unit processes is ranked as follows:biological treat-ment>sludge treatment>advanced treatment>preliminary treatment.Biological and sludge treatments together account for 73%of the total,identifying them as the primary carbon emission units.From an inventory per-spective,the contributions are ranked as follows:electricity consumption>material consumption>pollutant emissions>direct emissions.Electricity and material consumption are identified as the core influencing fac-tors,with indirect emissions collectively accounting for 82%.Conclusions Based on the carbon footprint ac-counting model constructed in this study,which incorporates fossil-derived CO2 emissions,biochemical treatment and sludge treatment have been identified as the key units for emission reduction,with electricity consumption and material consumption being the primary focuses for management.Accordingly,short-and long-term coordinated emission reduction strategies are proposed:short-term measures include improving equipment energy efficiency,optimizing operational processes,and adopting low-cost material alternatives;long-term strategies involve process upgrades,implementing intelligent control systems,and optimizing the energy mix.This approach provides actionable pathways for carbon emission reduction in wastewater treat-ment plants.

李成杰;黄森;陈保光;赵爱平;郭晓明;姜凤成;王明仕

河南理工大学 资源环境学院,河南 焦作 454000||河南省煤系非常规资源成藏与开发重点实验室,河南 焦作 454000中国船级社质量认证有限公司,北京 100006威泰普科技有限公司,河南 郑州 450041康达环保(焦作)水务有限公司,河南 焦作 454000河南理工大学 资源环境学院,河南 焦作 454000||河南省煤系非常规资源成藏与开发重点实验室,河南 焦作 454000河南理工大学 资源环境学院,河南 焦作 454000||河南省煤系非常规资源成藏与开发重点实验室,河南 焦作 454000河南理工大学 资源环境学院,河南 焦作 454000||河南省煤系非常规资源成藏与开发重点实验室,河南 焦作 454000

资源环境

生命周期评价污水处理碳足迹碳排放减碳路径单元过程分析

life cycle assessmentwastewater treatmentcarbon footprintcarbon emissionscarbon mitiga-tion pathwaysunit process analysis

《河南理工大学学报(自然科学版)》 2026 (1)

40-48,9

国家自然科学基金资助项目(41502241)河南省重点研发专项(241111320400)河南省重点研发与推广专项(科技攻关)项目(252102321066)河南省一流本科课程(豫教[2121]21962)河南理工大学"非标准答案"考试改革专题研究项目(FBZDA-1024194)河南理工大学校级课程思政项目(KCSZ-KC24193)

10.16186/j.cnki.1673-9787.2025080038

评论