城 镇 中小 规 模污 水 处 理厂 碳 排 放分 析 及 碳削 减 对 策

Xiang Yu Zhang; Ye Hong Fan; Han Bin Zhu; Zheng Wei; Yi Fan Zhang; A. Ming Yang; Dun Kai Gu; Yan He

doi:10.13227/j.hjkx.202401090

城镇中小规模污水处理厂碳排放分析及碳削减对策

Xiang Yu Zhang
, Ye Hong Fan
, Han Bin Zhu
, Zheng Wei
, Yi Fan Zhang
, A. Ming Yang
, Dun Kai Gu
, Yan He^*

^*此作品的通讯作者

生态与环境科学学院

East China Normal University
Institute of Eco-Chongming
Shanghai Engineering Research Center of Biotransformation of Organic Solid Waste
Technology Innovation Center for Land Spatial Eco-Restoration in Metropolitan Area（Ministry of Natural Resources）
Shanghai Jiading Xincheng Sewage Treatment Co.，Ltd.
Shanghai Tongji Environmental Engineering and Technology Co.，Ltd.
Shanghai Fudan Water Engineering Technology Co.，Ltd.
Shanghai University of Engineering Science

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

The carbon emissions of three typical processes（AAO，MSBR，and oxidation ditch）were systematically analyzed from the perspective of the whole wastewater treatment process based on the annual data of eleven urban small and medium-scale WWTPs in the year 2022，and the effects of different influent characteristics（TP，TN，BOD₅，COD，influent volume，and COD/TN）on the carbon emissions were studied by using the partial least squares structural equation modeling（PLS-SEM）method. The results showed that indirect carbon emissions dominated the total carbon emissions of small and medium-scale WWTPs（69.5%），and carbon emissions from electricity consumption were the largest source（43.1%）；the evaluated carbon emission intensity of the MSBR process［（0.363±0.007）kg·m⁻³］was lower than that of the AAO process［（0.439±0.099）kg·m⁻³］and oxidation ditch process［（0.396±0.025）kg·m⁻³］，which had a superior level of low-carbon operation. The carbon intensity of the various components of small and medium-scale WWTPs was as follows：biological treatment（58.7%）> sludge dewatering+deodorisation（17.9%）> deep treatment（17.3%）> pre-treatment（6.1%）；the biological part accounted for 51.5%，53.9%，and 73.1% of the total carbon intensity of the three processes，respectively. In addition，the influent COD concentration and COD/TN had significantly positive （path coefficients of 0.584 and 0.5）and negative（path coefficient of −0.416）impacts on the direct carbon emissions（N₂O and CH₄，respectively），and the influent concentrations of TN，BOD₅，and TP had significantly positive effects on the indirect carbon emissions（electricity consumption）and indirect carbon emissions（material consumption），with path coefficients of 0.078，0.537，and 0.5，respectively. Carbon reduction in small and medium-scale WWTPs can be carried out by reducing carbon intensity，decreasing carbon operation levels，and strengthening government management.

投稿的翻译标题	Carbon Emission Analysis and Carbon Reduction Strategy of Small and Medium-scale Municipal Wastewater Treatment Plants in Cities and Towns
源语言	繁体中文
页（从-至）	107-117
页数	11
期刊	Huanjing Kexue/Environmental Science
卷	46
期	1
DOI	https://doi.org/10.13227/j.hjkx.202401090
出版状态	已出版 - 15 1月 2025

联合国可持续发展目标

此成果有助于实现下列可持续发展目标：

可持续发展目标 7 经济适用的清洁能源

关键词

carbon accounting
carbon emission
carbon reduction
low-carbon operation
wastewater treatment plants（WWTPs）

访问文件

10.13227/j.hjkx.202401090

其它文件与链接

链接到 Scopus 的出版物

引用此

@article{4476b037dff64364bb1a928ad35108d3,

title = "城镇中小规模污水处理厂碳排放分析及碳削减对策",

abstract = "The carbon emissions of three typical processes（AAO，MSBR，and oxidation ditch）were systematically analyzed from the perspective of the whole wastewater treatment process based on the annual data of eleven urban small and medium-scale WWTPs in the year 2022，and the effects of different influent characteristics（TP，TN，BOD5，COD，influent volume，and COD/TN）on the carbon emissions were studied by using the partial least squares structural equation modeling（PLS-SEM）method. The results showed that indirect carbon emissions dominated the total carbon emissions of small and medium-scale WWTPs（69.5\%），and carbon emissions from electricity consumption were the largest source（43.1\%）；the evaluated carbon emission intensity of the MSBR process［（0.363±0.007）kg·m−3］was lower than that of the AAO process［（0.439±0.099）kg·m−3］and oxidation ditch process［（0.396±0.025）kg·m−3］，which had a superior level of low-carbon operation. The carbon intensity of the various components of small and medium-scale WWTPs was as follows：biological treatment（58.7\%）> sludge dewatering+deodorisation（17.9\%）> deep treatment（17.3\%）> pre-treatment（6.1\%）；the biological part accounted for 51.5\%，53.9\%，and 73.1\% of the total carbon intensity of the three processes，respectively. In addition，the influent COD concentration and COD/TN had significantly positive （path coefficients of 0.584 and 0.5）and negative（path coefficient of −0.416）impacts on the direct carbon emissions（N2O and CH4，respectively），and the influent concentrations of TN，BOD5，and TP had significantly positive effects on the indirect carbon emissions（electricity consumption）and indirect carbon emissions（material consumption），with path coefficients of 0.078，0.537，and 0.5，respectively. Carbon reduction in small and medium-scale WWTPs can be carried out by reducing carbon intensity，decreasing carbon operation levels，and strengthening government management.",

keywords = "carbon accounting, carbon emission, carbon reduction, low-carbon operation, wastewater treatment plants（WWTPs）",

author = "Zhang, \{Xiang Yu\} and Fan, \{Ye Hong\} and Zhu, \{Han Bin\} and Zheng Wei and Zhang, \{Yi Fan\} and Yang, \{A. Ming\} and Gu, \{Dun Kai\} and Yan He",

year = "2025",

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doi = "10.13227/j.hjkx.202401090",

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number = "1",

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TY - JOUR

T1 - 城镇中小规模污水处理厂碳排放分析及碳削减对策

AU - Zhang, Xiang Yu

AU - Fan, Ye Hong

AU - Zhu, Han Bin

AU - Wei, Zheng

AU - Zhang, Yi Fan

AU - Yang, A. Ming

AU - Gu, Dun Kai

AU - He, Yan

PY - 2025/1/15

Y1 - 2025/1/15

N2 - The carbon emissions of three typical processes（AAO，MSBR，and oxidation ditch）were systematically analyzed from the perspective of the whole wastewater treatment process based on the annual data of eleven urban small and medium-scale WWTPs in the year 2022，and the effects of different influent characteristics（TP，TN，BOD5，COD，influent volume，and COD/TN）on the carbon emissions were studied by using the partial least squares structural equation modeling（PLS-SEM）method. The results showed that indirect carbon emissions dominated the total carbon emissions of small and medium-scale WWTPs（69.5%），and carbon emissions from electricity consumption were the largest source（43.1%）；the evaluated carbon emission intensity of the MSBR process［（0.363±0.007）kg·m−3］was lower than that of the AAO process［（0.439±0.099）kg·m−3］and oxidation ditch process［（0.396±0.025）kg·m−3］，which had a superior level of low-carbon operation. The carbon intensity of the various components of small and medium-scale WWTPs was as follows：biological treatment（58.7%）> sludge dewatering+deodorisation（17.9%）> deep treatment（17.3%）> pre-treatment（6.1%）；the biological part accounted for 51.5%，53.9%，and 73.1% of the total carbon intensity of the three processes，respectively. In addition，the influent COD concentration and COD/TN had significantly positive （path coefficients of 0.584 and 0.5）and negative（path coefficient of −0.416）impacts on the direct carbon emissions（N2O and CH4，respectively），and the influent concentrations of TN，BOD5，and TP had significantly positive effects on the indirect carbon emissions（electricity consumption）and indirect carbon emissions（material consumption），with path coefficients of 0.078，0.537，and 0.5，respectively. Carbon reduction in small and medium-scale WWTPs can be carried out by reducing carbon intensity，decreasing carbon operation levels，and strengthening government management.

AB - The carbon emissions of three typical processes（AAO，MSBR，and oxidation ditch）were systematically analyzed from the perspective of the whole wastewater treatment process based on the annual data of eleven urban small and medium-scale WWTPs in the year 2022，and the effects of different influent characteristics（TP，TN，BOD5，COD，influent volume，and COD/TN）on the carbon emissions were studied by using the partial least squares structural equation modeling（PLS-SEM）method. The results showed that indirect carbon emissions dominated the total carbon emissions of small and medium-scale WWTPs（69.5%），and carbon emissions from electricity consumption were the largest source（43.1%）；the evaluated carbon emission intensity of the MSBR process［（0.363±0.007）kg·m−3］was lower than that of the AAO process［（0.439±0.099）kg·m−3］and oxidation ditch process［（0.396±0.025）kg·m−3］，which had a superior level of low-carbon operation. The carbon intensity of the various components of small and medium-scale WWTPs was as follows：biological treatment（58.7%）> sludge dewatering+deodorisation（17.9%）> deep treatment（17.3%）> pre-treatment（6.1%）；the biological part accounted for 51.5%，53.9%，and 73.1% of the total carbon intensity of the three processes，respectively. In addition，the influent COD concentration and COD/TN had significantly positive （path coefficients of 0.584 and 0.5）and negative（path coefficient of −0.416）impacts on the direct carbon emissions（N2O and CH4，respectively），and the influent concentrations of TN，BOD5，and TP had significantly positive effects on the indirect carbon emissions（electricity consumption）and indirect carbon emissions（material consumption），with path coefficients of 0.078，0.537，and 0.5，respectively. Carbon reduction in small and medium-scale WWTPs can be carried out by reducing carbon intensity，decreasing carbon operation levels，and strengthening government management.

KW - carbon accounting

KW - carbon emission

KW - carbon reduction

KW - low-carbon operation

KW - wastewater treatment plants（WWTPs）

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U2 - 10.13227/j.hjkx.202401090

DO - 10.13227/j.hjkx.202401090

M3 - 文章

C2 - 39721619

AN - SCOPUS:85212654709

SN - 0250-3301

VL - 46

SP - 107

EP - 117

JO - Huanjing Kexue/Environmental Science

JF - Huanjing Kexue/Environmental Science

IS - 1

ER -

城 镇 中小 规 模污 水 处 理厂 碳 排 放分 析 及 碳削 减 对 策

摘要

联合国可持续发展目标

关键词

访问文件

其它文件与链接

指纹

引用此

城镇中小规模污水处理厂碳排放分析及碳削减对策