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对垃圾填埋场厌氧产甲烷及控制温室气体综合低碳技术治理方案进行了研究。经过高效分选,对有机和果蔬垃圾进行厌氧发酵,生产有机肥和生物甲烷。提纯后,部分生物甲烷可用于发电机或接入市政管道;部分生物甲烷输入到车间中的多台催化燃烧低碳机理炉窑中,用于尾矿、粉煤灰固废转化类宝石色釉面艺术材料,达到近零污染物排放。催化燃烧产生的二氧化碳,对植物光合作用有显著效果,提高了固碳潜力,推动“碳达峰”和“碳中和”目标的实现。
Abstract:A comprehensive low-carbon technology governance plan has been studied for landfill sites' anaerobic methane production and greenhouse gas control. The organic fertilizers and biomethane were produced by anaerobic fermentation of organic and fruit and vegetable waste through efficient sorting. After purification, some biomethane can be used for generators or connecting to municipal pipelines. Some biomethane can be input to the catalytic combustion furnaces of low carbon mechanism with near zero pollutant emissions in the workshop. The gemstone surface art materials can be conversed from solid waste of tailings and fly ash in the furnaces. There was a significant effect on plant photosynthesis of carbon dioxide produced by catalytic combustion. It has improved carbon sequestration potential and driven the achievement of “Carbon peak” and “carbon neutrality” goals.
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基本信息:
DOI:10.19740/j.2096-9872.2024.06.12
中图分类号:X705
引用信息:
[1]张世红,于宗群,王祺.垃圾填埋场中从源头控制温室气体的低碳技术综合治理方案研究[J].北京建筑大学学报,2024,40(06):109-114.DOI:10.19740/j.2096-9872.2024.06.12.
基金信息:
供热、供燃气、通风及空调工程北京市重点实验室基金