摘要
餐厨垃圾产量大、危害大、回收价值高,合理利用其中磷的资源价值,可规避其污染风险。综合利用情景分析与物质流分析方法,基于情景分析和养分流动概念模型,对苏南地区餐厨垃圾厌氧消化副产物以3种情景进行处理[沼液进行水处理,沼渣焚烧(情景1,S1);沼液还田,沼渣制有机肥(情景2,S2);沼液进行水处理,沼渣制有机肥(情景3,S3)],以100 t的餐厨垃圾处理规模为参考,分析总磷(TP)的物质流。结果表明:S1的餐厨垃圾中有0.99 kg TP还田,最终有0.96 kg TP进入水稻;S2的餐厨垃圾中有64.05 kg TP还田,最终有62.10 kg TP进入水稻;S3的餐厨垃圾中有8.67 kg TP还田,最终有8.49 kg TP进入水稻。结合经济性能对3种情景进行综合评价,发现S2为餐厨垃圾资源化的最优模式,TP的资源化利用率为91.53%,远高于S1和S3。
The output of kitchen waste is large,the recycling value is high,the harm is great,and it is urgent to rationally utilize the value of its phosphorus resources to avoid its pollution risk.Scenario analysis and material flow analysis methods were comprehensively used and,based on the scenario analysis concept model and nutrient flow concept model,the material flow analysis of total phosphorus(TP)was conducted for three by-product treatment scenarios of anaerobic digestion of kitchen waste in southern Jiangsu Province.Among the scenarios,Scenario 1(S1)was water treatment of biogas slurry and biogas residue incineration,Scenario 2(S2)was biogas slurry returned to the field and biogas residue to organic fertilizer,and Scenario 3(S3)was water treatment of biogas slurry and biogas residue to organic fertilizer.Taking the 100 t scale of kitchen waste treatment as a reference,the results showed that for S1,0.99 kg of TP in the kitchen waste was returned to the field,and finally 0.96 kg TP entered the rice.For S2,64.05 kg of TP was returned to the field in the kitchen waste,and 62.10 kg TP eventually entered the rice.For S3,8.67 kg of TP was returned to the field in the kitchen waste,and eventually 8.49 kg TP entered the rice.Combined with the economic performance,the three scenarios were comprehensively evaluated,and it was found that S2 was the optimal mode of kitchen waste resource utilization,and the resource utilization rate of TP was 91.53%,which was much higher than that of S1 and S3.
作者
周海云
张桐
边博
袁思佳
刘波
杨珍珍
顾凰琳
ZHOU Haiyun;ZHANG Tong;BIAN Bo;YUAN Sijia;LIU Bo;YANG Zhenzhen;GU Huanglin(Jiangsu Provincial Environmental Engineering Technology Co.,Ltd.;School of Environment,Nanjing Normal University;Jiangsu Environmental Protection Group Co.,Ltd.;Jiangsu Province Engineering Research Center of Synergistic Control of Pollution and Carbon Emissions in Key Industries)
出处
《环境工程技术学报》
CAS
CSCD
北大核心
2024年第1期224-230,共7页
Journal of Environmental Engineering Technology
基金
江苏省碳达峰碳中和科技创新专项(BE2022604)
江苏省重点研发计划(社会发展)专项(BE2021627)
江苏省环保集团科技项目计划(JSEP-TZ-2021-2008-RE)。
关键词
餐厨垃圾
沼液
沼渣
物质流分析
情景分析
kitchen waste
biogas slurry
biogas residue
substance flow analysis
scenario analysis
