生态环境学报2026,Vol.35Issue(1):88-98,11.DOI:10.16258/j.cnki.1674-5906.2026.01.008
基于WRF-CAMx模型的舟山群岛新区大气环境承载力测算及多污染物协同控制研究
Calculation of Atmospheric Environmental Carrying Capacity and Coordinated Control of Multi-Pollutants in Zhoushan Archipelago New Area Based on the WRF-CAMx Model
摘要
Abstract
To resolve the core contradiction between"emission increment-carrying capacity threshold"in the Zhoushan Archipelago New Area,this study takes the region as the research object.Based on the WRF-CAMx coupled model,and by integrating 2022 ambient air quality data,air pollution source inventories,and projected emission increments from planning scenarios,it quantifies the monthly atmospheric environmental capacity of SO2,NOx,and VOCs under the constraint of PM2.5(with a control target of 20 µg·m-3).The results show that,1)In 2022,pollutant emissions in Zhoushan exhibited distinct industry-specific characteristics.The annual NOx emission was 30076 tons per year(t·a-1),of which 60.3%came from portside marine diesel engines and 17.3%from coal-fired power plants.The annual VOCs emission was 44562 t·a-1,with 70%derived from petrochemical processes and solvent use in the shipbuilding and repair industry.2)Environmental capacity calculations indicate that under the baseline scenario(Scenario A,current emissions):when considering individual pollutant increments,the allowable additional emissions of NOx,VOCs,and SO2 were 30859 t·a-1,40117 t·a-1,and 11436 t·a-1,respectively;when considering the synergistic increment of the three pollutants,the allowable additional emissions were 16842,22081,and 9276 t·a-1,respectively,with no environmental capacity available only in January and December.Under the enhanced baseline scenario(Scenario B,incorporating planned emission increments:8413 t·a-1 for SO2,17299 t·a-1 for NOx,and 2006 t·a-1 for VOCs):When considering individual pollutant increments,the allowable additional emissions of the three pollutants decreased to 9237,12015,and 4892 t·a-1,respectively;when considering synergistic increment,the values dropped to 5053,6631,and 2998 t·a-1,respectively.No environmental capacity was available throughout the entire winter(January-February and December).3)A PM2.5 concentration of 23 µg·m-3 was identified as the critical threshold:when PM2.5 concentrations were below this value,the environmental carrying capacity was dominated by local emissions;when concentrations exceeded this value,the impact of regional pollution input became significant.The results demonstrate that the atmospheric environmental carrying capacity of the Zhoushan Archipelago New Area is generally consistent with existing plans.Targeted measures such as zoned management and control,staggered production,and regional joint prevention are required to enhance this carrying capacity.关键词
大气环境承载力/氮氧化物/挥发性有机物/大气细颗粒物协同控制/舟山临港工业区Key words
atmospheric environmental carrying capacity/nitrogen oxides/volatile organic compounds/coordinated control of fine particles/Zhoushan Harbor-front Industrial Zone分类
资源环境引用本文复制引用
FU Shouqi,YU Chaoyi,WU Lehuan,ZHANG Qi,YUAN Xiaoqian,YANG Ganghong,PAN Yuepeng..基于WRF-CAMx模型的舟山群岛新区大气环境承载力测算及多污染物协同控制研究[J].生态环境学报,2026,35(1):88-98,11.基金项目
国家自然科学基金青年基金项目(42405103) (42405103)
广东省基础与应用基础研究基金项目(2023A1515110527) (2023A1515110527)
广西壮族自治区自然科学基金项目(2023GXNSFBA026358 ()
2025GXNSFDA04240005) ()
