1·Using AB-8 resin as solid phase, the expansion character and liquid mixing performance in the expanded bed were studied.
以AB - 8大孔树脂为固相,对膨胀床的膨胀特性及流体混合性能进行了研究。
2·The separation process demonstrated the integration advantage of expanded bed adsorption and the excellent properties of the novel mixed-mode expanded bed adsorbent.
该分离过程充分体现了扩张床吸附的集成化优势和新型混合模式扩张床吸附剂的优良性能。
3·The variation of characteristics of the biofilm in anaerobic attached microbial film expanded bed (AAFEB) reactor during start up and steady state condition was studied.
研究了厌氧附着膜膨胀床(AAFEB)反应器在起动和稳态运行过程中生物膜性状的变化。
4·A kinetics model of polyether chemical industry wastewater treatment in an anaerobic expanded bed has been established based on the dispersing model and the porous pellet model.
本文运用多孔丸模型与分散模型,建立了厌氧膨胀床处理聚醚类化工废水的动力学模型。
5·In a reactor with up flow slightly expanded bed and using Middle East residue as the feedstock, the effects of temperature, space velocity on the removal percent of impurity were studied.
在上流式微膨胀床反应器内,以中东渣油为原料,考察了温度、空速对杂质脱除率的影响。
6·The changes of characteristics of the anaerobic activated sludge in the anaerobic attached microbial film expanded bed (AAFEB) reactor and their relation to the reactor performance were studied.
对厌氧附着膜膨胀床(AAFEB)反应器运行过程中活性污泥的性状变化及其与反应器效能的关系作了研究。
7·These expanded granular sludge bed (EGSB) reactors rely on the bacteria staying in the tank but high-solid waste would push them out.
这些膨胀颗粒污泥床(EGSB)反应容器依靠里面容纳的细菌,不过高固体含量的废弃物会把细菌排出容器。
8·The change law of organic loading in the course of high strength organic wastewater treatment by expanded granular sludge bed (EGSB) was studied.
研究了厌氧颗粒污泥膨胀床(EGSB)反应器处理高浓度有机废水过程中的有机负荷变化规律。
9·With water sample prepared by glucose as treatment object, the operation rules of EGSB (expanded granular sludge bed) reactor in treatment of high strength organic wastewater was studied.
以葡萄糖配制水样为处理对象,研究了接种颗粒污泥的EGSB(厌氧颗粒污泥膨胀床)反应器处理高浓度有机废水的运行规律。
10·The design of the three-phase separator is the key to the successful running of an anaerobic granular-sludge expanded-bed (EGSB) reactor.
三相分离器的设计是厌氧颗粒污泥膨胀床(EGSB)反应器成功运行的关键。