减量化

  • 网络reduction;reduce;Re-duce
减量化减量化
  1. 循环经济要求以减量化(Reduce)、再使用(Reuse)、再循环(Recycle)的3R原则为社会经济活动的准则。

    Cycle economy requires that social economic activity follow the three R 's ( Reduce , Reuse , Recycle ) principle as the guideline .

  2. 根据我国目前矿产品需求大的现状,分析了矿业循环经济减量化的实质,提出了用高回收(Recovery)代替减量化(Reduce)的矿业循环经济新3R原则。

    The new 3R principle is put forward by analyzing the quiddity of reduce of mining circular economy . It is suggested that with the Recovery to replace the Reduce in mining circular economy according to the present situation of which the minerals demand is bigger than supplies in China .

  3. 阐述了人工神经PID(比例-微分-积分校正)控制技术在有机垃圾减量化处理设备中的应用。

    In this paper , introduced the application of neural PID control to organic garbage decomposition vanished machinery .

  4. SBR反应器污泥减量化研究

    Research on sludge reduction in SBR unit

  5. 化学解偶联剂和OSA联合工艺对剩余污泥的减量化作用

    Reduction of Excess Sludge Production by Uncoupling Metabolism of TCS and OSA Process

  6. 蔗渣浆木聚糖酶促进漂白中AOX的减量化效应

    Reduction of AOX in Bagasse KP Bleaching Effluent by Xylanase Pretreatment

  7. 本实验在前期实验室研究的基础上,建立了处理污水量为400m3/d的CAS系统的污泥加碱超声波减量化中试工艺。

    Based on previous laboratory studies , we established a sewage treatment capacity of 400 m3 / d of CAS system with the alkali ultrasonic technology .

  8. 采用序批式活性污泥反应器试验研究了解偶联剂2,4-二氯酚(DCP)的污泥减量化效果。

    The effect of excess sludge reduction by uncoupler of 2,4-dechlorophenol ( DCP ) was studied using Sequencing Batch Reactor .

  9. 辽宁省区域内物质消费量先增加后减少,不同于GDP的变化趋势,说明辽宁省在经济发展的同时稳步地进行物质减量化的进程。

    Sewage emissions increase every year . Fifth , domestic material consumption first increased and then decreased , which is not synchronized with the change in GDP , which means Liaoning Province steadily developed the economic during process of dematerialization .

  10. 明确SFSBR中颗粒污泥稳定运行、亚硝化稳定维持和N2O减量化的关键工艺条件,对于新工艺更好的实际应用并实现节能减排具有重要的意义。

    It is of great significance for better practical application of the new technology and to achieve energy conservation .

  11. 提出了采用DNA探针及定量PCR技术对生物脱氮中影响N2O产生的关键酶进行量化研究来实现N2O减量化控制的研究思路。

    In the study , a train of thoughts was put forward with the purpose of achieving the N_2O production decrement control by using DNA probe and PCR technology for quantitative analysis on nitrous oxide reductase in biological denitrification .

  12. 可持续建筑包涵输入端、循环端、输出端三个方面,并符合减量化、再利用、资源化的3R原则。

    Sustainable building , which conforms to the " 3R " principle of reducing , reusing and recycling , includes three terminals of input , circulation and output .

  13. 在简要介绍EDCs检测方法的基础上,介绍了EDCs在环境中的分布研究,以及生物法、化学法和膜组件对EDCs减量化的最新研究进展。

    Then the distribution of EDCs in water environment and research progress on EDCs removal by biological method , chemical method and membrane equipment is overviewed .

  14. 20世纪90年代以来,运用循环经济减量化、再使用、循环利用原则(简称3R原则)来进行生活垃圾处置日益受到国内外普遍关注。

    Since the 1990s , universal attention has been paid on disposing domestic waste under the 3R principles of circular economy , namely , reduction , reuse , recycling .

  15. 调控微生物群落结构对N20的减量化起着重要的作用。

    Regulating and controlling the microbial community structure plays an important role in the reduction of N2O .

  16. 循环经济是一种新型的经济形态,强调最有效地利用资源和保护环境,以减量化、再使用、再循环的3R原则作为经济活动的行为准则。

    As a new economic pattern , recycling economy emphasizes on the effective use of resource and protection of environment according to the behavior rules of " reduction , reuse and recycle " .

  17. 本文在考察以前和现有的污泥减量化技术工艺研究的成果的基础上重点研究了剩余污泥减量化的解偶联代谢数学模型和好氧沉淀缺氧(OSA)工艺。

    This paper emphasized the research on the uncoupled metabolism model of excess sludge reduction and OSA process on the review of the technical and the theory of sludge reduction of past and present .

  18. N2O是一种重要的温室气体,针对污水处理生物脱氮过程中N2O的产生量、产生机理、影响因素及减量化控制等进行了综述。

    Nitrous oxide ( N_2O ) is an important greenhouse gas . Review was made on the N_2O production capacity , production mechanism , affecting factors , and production decrement control in biological denitrification of wastewater treatment process .

  19. 好氧沉淀缺氧(OSA)工艺虽然其污泥减量化的效果可能不及添加化学解偶联剂的作用明显,但可改善污泥的沉降性能,而且也不必对现有的工艺装置进行改造,运行成本较低。

    Oxic-settling-anoxic ( OSA ) process may not be effective as the control of excess sludge production by chemical uncouplers . The OSA process can improve the settleability of sludge , and it needs no modification on the conventional activated sludge and less running cost .

  20. 各种代谢解偶联剂效果的差异与其酸性大小有关,pKα值越低,污泥的减量化效果越好,这证实了解偶联剂所造成的产生ATP质子动力势(pmf)弱化的理论分析。

    The acidity constant ( pATa ) of a metabolic uncoupler highly influenced its effectiveness in sludge reduction , i.e. metabolic uncoupler with a lower pKa value has a higher potential to reduce sludge production which confirmed the theoretical analysis that uncoupler weaken the proton motive potential producing ATP .

  21. 本文以德国Wuppertal气候、能源、环境研究所提出的物质流账户系统为基础,计算了1990年~2002年中国经济系统的直接物质投入,并对其进行了减量化分析和国际比较。

    This essay is based on the material flow account developed by Wuppertal climate , energy , environment institute in German . Direct material input has been calculated from 1990 ~ 2002 in China , and dematerialization analysis and international compassion have been done in this essay .

  22. 解偶联代谢技术用于活性污泥减量化的研究进展及发展方向

    Progress and Development of Activated Sludge Reduction by Using Uncoupling Metabolism

  23. 生物捕食污泥减量化系统的污泥特性

    Characteristics of activated sludge in biomass reduction system by microbial predation

  24. 成都市生活垃圾资源化与减量化思考

    Thinking about Reclamation and Reduction of Domestic Waste in Chengdu City

  25. 城市生活垃圾多元减量化及分类收集

    The Overview of Collecting Multiple Solid Wastes by Reduction and Classification

  26. 论循环经济发展中企业的减量化义务

    On the Duty of Enterprise 's Reduction in Circular Economy Development

  27. 给水厂污泥减量化及性能改善研究

    Research on mass reduction and property improvement of sludge in waterworks

  28. 南京市居民生活垃圾调查及减量化分析

    Survey and Minimization Analysis of Municipal Domestic Waste of Nanjing City

  29. 南昌市生活垃圾填埋处理的问题及减量化处理对策

    Landfill of Nanchang City 's Household Garbage and Strategy on Its Minimization

  30. 水产养殖固体废弃物减量化与资源化利用

    Reduction and Reuse of Solid Wastes in Aquaculture System RESOURCE