摘要
为提高生态环境保护水平,以A市为例,通过对该市生活垃圾焚烧发电项目基本情况的了解,采用改进的CDM(Clean Development Mechanism,清洁发展机制)方法学计算温室气体减排量,并设计多种情景,预测不同情景下的温室气体减排量。结果表明,相比垃圾焚烧发电产生的直接排放量,基准线排放量始终更高,温室气体减排量呈现升高的变化规律,预测该市未来垃圾焚烧发电项目的生态效益和经济效益逐步提高,垃圾焚烧发电在该市社会经济和生态环境可持续发展中具有潜力,其中超低能耗情景的减排能力最显著,对该市生态环境保护和资源充分利用有参考意义。科学垃圾焚烧发电技术的应用可促进该市的可持续发展,提升城市竞争力。
To enhance the level of ecological and environmental protection,taking City A as an example,by examining the basic overview of the municipal solid waste incineration power generation project in the city,an improved CDM(Clean Development Mechanism)methodology was applied to calculate greenhouse gas emission reductions,and multiple scenarios were designed to forecast greenhouse gas emission reductions under different scenarios.The results indicate that compared to the direct emissions generated from waste incineration power generation,the baseline emissions remain consistently higher,and the greenhouse gas reduction follows an upward trajectory,suggesting progressively improving ecological and economic benefits for future waste-toenergy projects in the city.The waste incineration power technology exhibits significant potential for supporting the city's socioeconomic and ecological sustainable development,with the ultra-low energy consumption scenario demonstrating the most pronounced reduction capability.These findings provide valuable references for ecological protection and optimal resource utilization in the city.The scientific application of waste incineration power technology can effectively promote urban sustainable development and enhance city competitiveness.
作者
常蓉
李芳
杨彩花
孟翠萍
李翠莲
CHANG Rong;LI Fang;YANG Caihua;MENG Cuiping;LI Cuilian(Yunnan Academy of Ecological and Environmental Sciences,Kunming 650034,Yunnan,China;Yunnan Chenyu Jiayuan Technology Co.,Ltd.,Kunming 650000,Yunnan,China;Yunnan Hubo Environmental Protection Science and Technology Co.,Ltd.,Kunming 650000,Yunnan,China)
出处
《能源与节能》
2025年第9期75-78,共4页
Energy and Energy Conservation
关键词
城市发展
生活垃圾焚烧发电
情景设计
减排量
预测
urban development
municipal solid waste incineration power generation
scenario design
emission reduction
prediction
作者简介
第一作者:常蓉(1969-),女,陕西西安人,本科,高级工程师,主要从事环境咨询管理及大气环境保护方面的研究。
