昆明城市生活垃圾处理研究

对昆明市生活垃圾的处理进行了研究。根据昆明市生活垃圾的特性，其生活垃圾宜采用分选回收、焚烧和卫生填埋于一体的综合处理方法。该方法实现了生活垃圾的资源化、减量化和无害化，降低了生活垃圾处理的工程投资、运行和管理费用。     

大型垃圾填埋场渗滤水氨氮衰减规律

大型试验场 ((30 0 0× 4)m3 )中填入 10 80 0t垃圾 ,对试验场渗滤液氨氮质量浓度进行长达 3 5年的测定 (1— 2周测定一次 ) ,建立了填埋场渗滤液NH3 N质量浓度随时间变化的数学模型 ,并利用模型预测了上海老港填埋场渗滤液NH3 N质量浓度通过自然衰减达到排放标准所需时间 ,同时提出填埋场的规划和设计可以由传统的渗滤液及时外排处理式转变为不及时外排 ,使其在填埋场内NH3 N质量浓度大幅度自然衰减后抽出处理 ,这样可以大量节省费用 ,简化操作工艺 .     

SBR技术的变型及组合工艺的研究与进展

概述与分析了液膜分离技术,重点介绍了液膜法处理含酚废水、含(NH4)2S废水、含氰废水的工艺和方法.     

浅议国外城市生活垃圾处理及思路

通过对国内外城市生活垃圾处理处置的现状叙述 ,阐明城市垃圾只有进行资源化处理 ,才是根本解决垃圾问题的重要途径。城市垃圾资源化处理从收集、运输、分选和最终处置形成系统 ,文章并提出我国较为适宜的垃圾处理对策     

浅谈生活垃圾的焚烧技术

阐述了生活垃圾的性质、焚烧前预处理、焚烧工艺及影响生活垃圾焚烧的因素。希望对从事生活垃圾焚烧技术研究开发工作的人员有参考作用。     

Conversion of organic carbon in the decomposable organic wastes in anaerobic lysimeters under different temperatures

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城市生活垃圾（MSW）厌氧消化处理研究

提出了城市生活垃圾的高固体含量厌氧消化处理方法并对此进行了研究。结果表明，城市生活垃圾的高固体含量厌氧消化处理是生活垃圾最好的处理方式之一，垃圾不仅可以得到即时即地的大量处理，最大限度地减少垃圾的污染，同时，还可以产生很好的经济效益和巨大的环境效益，这种垃圾处理方式值得应用和推广。     

城市污水与垃圾处理市场化研究

应用公共经济学的理论和国内外的实证数据对我国城市污水与垃圾处理市场化前景进行了分析研究．并对制约城市污水与垃圾处理市场化的因子进行了研究，指出我国城市污水与垃圾处理具有相当的芾场化前景：而投资渠道单一、运营管理效率低下、收费政策不够完善是城市污水与垃圾处理市场化程度低的突出问题。最后．针对性地提出了加快我国城市污水与垃圾产业化和市场化的BOT融资模式、排污收费和公众参与等对策。     

(M)VOC and composting facilities. Part 1: (M)VOC emissions from municipal biowaste and plant refuse

GOAL, SCOPE AND BACKGROUND: Malodorous volatiles derived from the decomposition of biowaste within the process of composting might pose a risk to human health. Different techniques of process engineering have been developed to minimise the burden of malodorous compounds in air possibly affecting compost workers and residents in the vicinity. METHODS: In the present study, three different composting facilities were examined for the emission of volatiles to estimate the impact of process engineering on the dispersal of odorous compounds and to discuss its relevance for human health. RESULTS AND DISCUSSION: Concentrations of single compounds belonging to alcohols, ketones, furanes, sulfur-containing compounds and especially terpenes ranged from 10(2) up to nearly 10(6) ng/m3 depending on the sampling sites and the process engineering. The ratio of MVOC and total VOC measured changed throughout the process of biodegradation. A certain combination of volatile compounds coincided with the occurrence of typical compost odour. CONCLUSION: The type of process engineering seemed to have a major impact on the emission of volatiles, as amounts of (microbial) volatiles emitted were characteristic for the different techniques used. Thus, the MVOC emission basically depends on the degree of biodegradation. It is likely that the concentrations workers are exposed to can have an impact on human health. RECOMMENDATIONS AND OUTLOOK: It is obvious that less sophisticated types of process engineering give rise to greater amounts of bioaerosols and volatiles and, therefore, technical devices have to be improved and controlled regularly to minimise adverse health effects on workers.     

垃圾焚烧发电的应用前景分析及应对措施

介绍了城市生活垃圾的危害和处置方式，通过对各种处置方式存在问题的比较，得出垃圾焚烧发电前景广阔，符合垃圾利用减量化、资源化、无害化的利用原则。同时对垃圾焚烧发电的应用提出了一些应对措施。