Evaluation of multiple air pollutant emission reductions in northern China district via resource sharing

• Published in: Journal of cleaner production Vol. 379; p. 134743
• Main Authors: Zhang, Jingwang, Zhu, Mingyue, Yu, Miao, Wang, Ke, Zhang, Ruiqin
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 15.12.2022
• Subjects: Air pollutant emissions reduction; Degree of synergy; Multiregional input–output optimization model; Resource sharing; Multiregional input–output optimization model; Air pollutant emissions reduction; Degree of synergy; Resource sharing
• ISSN: 0959-6526; 1879-1786
• DOI: 10.1016/j.jclepro.2022.134743

The inter-provincial inequalities of economic developments and air pollutant emissions revealed the need for the cross-regional emission reduction strategy in China. Resource sharing could make those provinces with low emissions intensities offer more products with production shifts and trade adjustments, which would reduce emission intensities and total emissions of the whole region. Taking eight contiguous cities/provinces in northern China district as a case, a multi-regional input–output optimization model was developed to evaluate multiple air pollutant emissions reductions via regional resource sharing. Under constraints of provincial gross domestic products and various domestic demands, the application of resource sharing increased inter-provincial trades, shifted production responsibilities to low-emitting provinces, reduced regional emission intensities, and finally resulted in multiple pollutant emission reductions. Using the latest China's multi-regional input–output data of 2012, we estimated that resource sharing would reduce emissions of fine particulate matters, inhalable particles, sulfur dioxide, nitrogen oxides, and volatile organic compounds by 11%, 11%, 11%, 10% and 9%, respectively in the studied region. Those provinces which had low emission intensities and adequate production capacities should supply more products and do more for improving regional degree of synergy, especially in industry and power subsectors. The emission transfers were increased, but total emissions were declined obviously. It was indicated that there was still an urgent need of promoting the scope and level of regional cooperation. Those provincial subsectors with low emission intensities and production increases were important for achieving emission reductions of the study region. This study might be helpful to conduct regional emission mitigations with existing technologies and propose a multiple pollutant emission reductions strategy based on resource sharing. •Emission reductions of resource sharing in northern China were evaluated.•A multi-regional input-output optimization model was developed.•Multiple pollutants emission reductions were gained with sequencing step method.•Air pollutant emissions of northern China were reduced by 9–11% by resource sharing.•Trades were increased to transfer 70% of productions to low-emitting subsectors.