1) two phase anaerobic digestion system
二相厌氧消化
1.
In this work the operation characters of the two phase anaerobic digestion system incorporated by a packed bed acidification reactor and an UASB methanorization reactor were studied.
研究填充床酸化反应器及其与UASB甲烷化反应器组成的二相厌氧消化系统的运行特性。
2) two-phase anaerobic digestion
两相厌氧消化
1.
Start-up experiment of pilot-scale mesophilic two-phase anaerobic digestion of mixed sludge;
混合污泥中温两相厌氧消化中试的启动试验
2.
The mesophilic(35 ℃) two-phase anaerobic digestion(TPAD) process was used to treat mixed sludge from primary sedimentation and secondary sedimentation tanks(1 ∶1) to realize sludge stabilization.
采用中温(35℃)两相厌氧消化工艺处理初沉污泥与剩余污泥的混合样(1∶1),以实现污泥的稳定化。
3.
The principle of two-phase anaerobic digestion(TPAD),the method of phase separation,affecting factors and evaluation indexes as well as the present situation of their researches and application both at home and abroad are described systematically in this paper.
论述了两相厌氧消化(TPAD)的原理、相分离的方法、影响因素和评价指标及国内外研究应用现状,展望了在废水处理领域中的广阔前景。
3) two phase anaerobic digestion
两相厌氧消化
1.
Research development and its appliation of two phase anaerobic digestion technology;
两相厌氧消化工艺的研究进展及其应用
2.
Research development on two phase anaerobic digestion was also reviewed.
本文介绍了两相厌氧消化在各种有机废物处理上的基质特异性和应用 ,简要分析了两相厌氧消化的研究动态 ,并指出了当前两相厌氧消化在有机废物处理方面存在的问题以及发展前
4) Signal phase anaerobic digestion
单相厌氧消化
5) anaerobic digestion
厌氧消化
1.
Pretreatment technologies for anaerobic digestion of petrochemical residual activated sludge;
石化废水剩余污泥厌氧消化预处理技术
2.
Mesophilic anaerobic digestion of sewage sludge and kitchen garbage;
污水厂污泥和厨余垃圾的混合中温厌氧消化
3.
Domestication of inoculums in treating food waste by thermophilic anaerobic digestion;
餐厨垃圾高温厌氧消化接种物的驯化研究
6) two-phase anaerobic digestion
二相厌氧
1.
Technological design and operation test of two-phase anaerobic digestion and coagulation process in comprehensive wastewater treatment of paper and pulp industry;
二相厌氧-混凝法处理制浆造纸综合废水的工艺设计及调试
补充资料:厌氧消化
分子式:
CAS号:
性质:有机物质被厌氧菌在厌氧条件下分解产生甲烷和二氧化碳的过程。因氧是在空气缺乏的条件下从有机物中移出而生成CO2的。无论是酸性发酵,还是沼气发酵,参与生化反应的氧都是来自于水、有机物、硝酸盐或被分解的亚硝酸盐。厌氧消化的优点是有机质经消化产生了能源,残余物可作肥料。厌氧消化开始用于废物处理,现在厌氧消化已应用于多个领域,如工业废水处理、城市垃圾的处理及潜在能源的开发、作燃料与动力、并且已建立了大规模的厌氧消化工厂。
CAS号:
性质:有机物质被厌氧菌在厌氧条件下分解产生甲烷和二氧化碳的过程。因氧是在空气缺乏的条件下从有机物中移出而生成CO2的。无论是酸性发酵,还是沼气发酵,参与生化反应的氧都是来自于水、有机物、硝酸盐或被分解的亚硝酸盐。厌氧消化的优点是有机质经消化产生了能源,残余物可作肥料。厌氧消化开始用于废物处理,现在厌氧消化已应用于多个领域,如工业废水处理、城市垃圾的处理及潜在能源的开发、作燃料与动力、并且已建立了大规模的厌氧消化工厂。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条