Advanced optimization algorithms for enhanced urban block-scale carbon accounting: A case study from Beijing, China

Urban carbon emissions have garnered significant attention following the establishment and implementation of global carbon neutrality goals. Accurate carbon accounting in urban areas is crucial for formulating effective emission reduction strategies and assessing their effectiveness. However, the mi...

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Published in:Applied energy Vol. 394; p. 126158
Main Authors: Zhao, Jing, Ren, Yujie, Tang, Xiaolan
Format: Journal Article
Language:English
Published: Elsevier Ltd 15.09.2025
Subjects:
Beijing
carbon
case studies
China
Community living circle
emissions factor
energy
inventories
land use
Optimization algorithm
residential areas
Urban carbon accounting
Urban functional land
China
Beijing
Urban carbon accounting
Optimization algorithm
Community living circle
Urban functional land
ISSN:0306-2619
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Abstract Urban carbon emissions have garnered significant attention following the establishment and implementation of global carbon neutrality goals. Accurate carbon accounting in urban areas is crucial for formulating effective emission reduction strategies and assessing their effectiveness. However, the mixed-use nature of urban land presents significant challenges to precise carbon accounting. This study adopts the perspective of urban community living circles and leverages optimization algorithms and the inventory method to propose a novel carbon accounting method that addresses these challenges. Furthermore, this method's reliability was validated through an analysis of eight land parcels with varying spatial configurations in the Beijing area, along with comprehensive sensitivity analyses, while its practical applications were also explored. The findings are as follows: (1) The urban block-scale carbon accounting method optimizes population allocation across industries and incorporates land-use policies into objective function constraints, enhancing both accuracy and applicability. (2) In Beijing's functional core area, annual carbon emissions within the 5–15-min standard-scale living circles were 8.43 ktC, 24.95 ktC, and 151.95 ktC, respectively, with an emission intensity of 810.42 tC/ha in the 10–15-min zone. (3) Urban functional and residential land collectively accounted for approximately 97 % of total emissions, with urban functional land exerting a greater impact. This study presents a reliable, robust, and systematic urban block-scale carbon accounting method that integrates carbon management with land-use policies, demonstrating significant practical value. [Display omitted] •A novel carbon accounting method was proposed based on optimization algorithms.•The method's robustness was validated via case studies and sensitivity analyses.•Carbon emissions in Beijing's 5–15-min living circles were 8.43, 24.95, 151.95 ktC/yr.•Urban functional and residential land contributed around 97 % of total emissions.•An effective link between carbon accounting and land use policies was established.
AbstractList Urban carbon emissions have garnered significant attention following the establishment and implementation of global carbon neutrality goals. Accurate carbon accounting in urban areas is crucial for formulating effective emission reduction strategies and assessing their effectiveness. However, the mixed-use nature of urban land presents significant challenges to precise carbon accounting. This study adopts the perspective of urban community living circles and leverages optimization algorithms and the inventory method to propose a novel carbon accounting method that addresses these challenges. Furthermore, this method's reliability was validated through an analysis of eight land parcels with varying spatial configurations in the Beijing area, along with comprehensive sensitivity analyses, while its practical applications were also explored. The findings are as follows: (1) The urban block-scale carbon accounting method optimizes population allocation across industries and incorporates land-use policies into objective function constraints, enhancing both accuracy and applicability. (2) In Beijing's functional core area, annual carbon emissions within the 5–15-min standard-scale living circles were 8.43 ktC, 24.95 ktC, and 151.95 ktC, respectively, with an emission intensity of 810.42 tC/ha in the 10–15-min zone. (3) Urban functional and residential land collectively accounted for approximately 97 % of total emissions, with urban functional land exerting a greater impact. This study presents a reliable, robust, and systematic urban block-scale carbon accounting method that integrates carbon management with land-use policies, demonstrating significant practical value.
Urban carbon emissions have garnered significant attention following the establishment and implementation of global carbon neutrality goals. Accurate carbon accounting in urban areas is crucial for formulating effective emission reduction strategies and assessing their effectiveness. However, the mixed-use nature of urban land presents significant challenges to precise carbon accounting. This study adopts the perspective of urban community living circles and leverages optimization algorithms and the inventory method to propose a novel carbon accounting method that addresses these challenges. Furthermore, this method's reliability was validated through an analysis of eight land parcels with varying spatial configurations in the Beijing area, along with comprehensive sensitivity analyses, while its practical applications were also explored. The findings are as follows: (1) The urban block-scale carbon accounting method optimizes population allocation across industries and incorporates land-use policies into objective function constraints, enhancing both accuracy and applicability. (2) In Beijing's functional core area, annual carbon emissions within the 5–15-min standard-scale living circles were 8.43 ktC, 24.95 ktC, and 151.95 ktC, respectively, with an emission intensity of 810.42 tC/ha in the 10–15-min zone. (3) Urban functional and residential land collectively accounted for approximately 97 % of total emissions, with urban functional land exerting a greater impact. This study presents a reliable, robust, and systematic urban block-scale carbon accounting method that integrates carbon management with land-use policies, demonstrating significant practical value. [Display omitted] •A novel carbon accounting method was proposed based on optimization algorithms.•The method's robustness was validated via case studies and sensitivity analyses.•Carbon emissions in Beijing's 5–15-min living circles were 8.43, 24.95, 151.95 ktC/yr.•Urban functional and residential land contributed around 97 % of total emissions.•An effective link between carbon accounting and land use policies was established.
ArticleNumber 126158
Author Tang, Xiaolan
Ren, Yujie
Zhao, Jing
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  givenname: Xiaolan
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Keywords Beijing
Urban carbon accounting
Optimization algorithm
Community living circle
Urban functional land
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Snippet Urban carbon emissions have garnered significant attention following the establishment and implementation of global carbon neutrality goals. Accurate carbon...
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SubjectTerms Beijing
carbon
case studies
China
Community living circle
emissions factor
energy
inventories
land use
Optimization algorithm
residential areas
Urban carbon accounting
Urban functional land
Title Advanced optimization algorithms for enhanced urban block-scale carbon accounting: A case study from Beijing, China
URI https://dx.doi.org/10.1016/j.apenergy.2025.126158
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