[北京医药健康产业典型园区污染共治与碳减排路径]。

Q2 Environmental Science
Xu Liu
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引用次数: 0

摘要

北京医药健康产业的碳排放集聚效应逐步增强。要实现经济发展、污染减排和绿色低碳的协同发展,开展园区污染与碳减排共治路径研究至关重要。基于 2020 年制造业和研发业两个典型园区的生产活动数据,选取六项污染与碳减排共治措施,建立协同发展情景,探索不同类型园区的协同发展路径。结果表明:①两个园区的主要碳排放源为天然气、电力等能源消耗,主要污染源为重点污染企业。研发园区的排放量明显低于制造园区,大气污染物排放占制造园区排放量的 25%。② 能源结构和强度以及污染物减排措施对研发园区污染减排和碳减排的贡献率分别为 62.6%和 37.4%,对制造园区污染减排和碳减排的贡献率分别为 81.6%和 13.5%。调整园区能源结构,优先治理重点污染企业,可以实现协同减排,减排率主要体现在大气污染物上。降低能源强度也能促进协同减排,碳减排速度快。由于园区产业结构的特殊性,优化产业结构可能导致不同程度的污染和碳排放协同增加或不协同增加。园区产业结构的特殊性会导致不同程度的污染和碳排放协同增长或不协同增长 ④将调整能源结构、降低能源强度和污染物排放的措施纳入协同路径应优先考虑。制造业园区应适当扩大重点污染企业的治理范围。除减少企业污染物排放外,还应注重研发园区公共环保设施的协同效应。园区层面的产业结构优化措施应因地制宜,科学引导产业转型和高新技术企业落户。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Path of Co-control of Pollution and Carbon Emissions Reduction in Typical Parks of Pharmaceutical and Health Industry in Beijing].

The agglomeration of carbon emissions from the pharmaceutical and health industry has been growing gradually in Beijing. Conducting research on the path of co-control of pollution and carbon emission reduction in industrial parks is essential to realize synergy between economic development, pollution reduction, and green low-carbon. Based on the production activity data in 2020 of two typical parks of manufacturing and R&D, we selected six measures for co-control of pollution and carbon emission reduction and set up a synergistic development scenario to explore the collaborative development path of different types of parks. The results showed that: ① The primary carbon emission source in the two parks was energy consumption, such as natural gas and electricity, whereas the major pollution source was from key polluting enterprises. The emissions in the R&D park were significantly lower than those in manufacturing parks, with atmospheric pollutant emissions accounting for 25% of the manufacturing park's emissions. ② Energy structure and intensity, along with pollutant emission reduction measures, contributed 62.6% and 37.4% to pollution and carbon emission reduction for the R&D park and 81.6% and 13.5% for manufacturing park, respectively. ③ Adjusting the energy structure of the park and prioritizing the management of key polluting enterprises could achieve synergistic emission reduction, with the rate of emission reduction primarily reflecting atmospheric pollutants. Reducing energy intensity could also facilitate synergistic emission reduction, with a rapid rate of carbon emission reduction. Optimizing the industrial structure could lead to different degrees of pollution and carbon emissions increasing synergistically or not synergistically, owing to the particularity of the industrial structure of the park. ④ Applying measures to adjust the energy structure and reduce energy intensity and pollutant emissions into the collaborative path should be a priority. The governance scope of key polluting enterprises should be appropriately expanded in manufacturing parks. The synergistic effect of public environmental protection facilities of R&D parks should be focused on, in addition to reducing corporate pollutant emissions. Measures to optimize industrial structure at the park level should be adjusted to local conditions and scientifically guide industrial transformation and the settlement of high-tech enterprises.

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环境科学
环境科学 Environmental Science-Environmental Science (all)
CiteScore
4.40
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15329
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