1) modeling of biotrickling filter
生物滴滤模型
2) bio-trickling filter
生物滴滤
1.
An approach to purification of toluene waste gas by a cross-flow bio-trickling filter;
错流式生物滴滤床净化甲苯废气
2.
Study on removal rate of methyl mercaptan and ethanethiol by bio-trickling filter;
生物滴滤塔降解甲硫醇和乙硫醇的速率研究
3) biotrickling filter
生物滴滤
1.
In this paper,the study about biotrickling filter(BTF) till now was introduced,including mechanisms,the effect factor of treatment and present research among domestic and foreign.
生物滴滤净化挥发性有机污染物技术是近年发展起来的一项新技术。
2.
The method of biotrickling filter for treating low concentration hydrogen sulfide gas is investigated.
对生物滴滤法处理低浓度H2S恶臭气体进行了研究,考察并分析了喷淋水量、pH值、停留时间对H2S去除率的影响。
3.
Odor gas removal from biological waste decomposition machine using a biotriclding filter was studied,with investigation of the start-up of biotrickling filter.
文章利用生物滴滤塔对有机垃圾处理机排放的恶臭气体进行了脱臭研究。
4) Biotrickling filtration
生物滴滤
1.
Biotrickling filtration,a new technique for purifying aromatic organic compounds,has become the hot topic among current researches of air pollution control.
介绍了生物滴滤技术的研究现状,包括工艺操作性能、填料、降解微生物、降解机理、动力学模型以及工业化应用。
5) biotrickling
生物滴滤
1.
hree biological processes to treat waste gases are the bioscrubber, the bio filter and the biotrickling.
生物法净化废气通常可分为生物洗涤、生物过滤及生物滴滤等几种形式。
2.
The research is to explore the technics conditions of biotrickling filter for removal MEK and the influence of inlet mass loading, inlet gas loading, recycling liquid flowrate, idling of filter on removal efficiency and elimination capacity.
本研究旨在摸索生物滴滤法净化MEK的工艺条件,弄清进口负荷、进口气量、循环液流量和设备闲置等影响因素对净化效率和消除能力的影响,探索净化过程中气相向生物相的传质机理。
3.
The bacteria were selected and cultivated from native, then the bacteria were transferred to the packing in the elimination system-biotrickling filter.
在生物滴滤塔中对低浓度甲苯废气进行连续动态净化实验研究。
6) bio-trickling
生物滴滤
1.
Purification of toluene contained waste gas by enlarged cross-flow bio-trickling filter
扩体错流式生物滴滤床净化甲苯废气
补充资料:无柄液滴法、躺滴法、座滴法等
分子式:
CAS号:
性质:又称无柄液滴法、躺滴法、座滴法等。根据液面外形求算表(界)面张力的一种方法。当待测液液滴稳定地停在水平固体表面上,其外形与液体表面张力γ有关。根据巴什弗思–亚当斯(Bashforth-Adams)方程可有以下关系式ρ1和ρ2分别为待测液体及液滴外介质的密度,g为重力加速度,β为形状因子,b为大小因子。当液体与固体表面接触角大于90°时可根据测出的液滴的赤道半径及其与液滴顶点的垂直距离数值查表得出相应的β及b值,从而算出表面张力γ。本法简便,适用于吸附平衡时间长的体系和低表面张力的测定;也能用于测定界面张力及熔融金属的表(界)面张力。
CAS号:
性质:又称无柄液滴法、躺滴法、座滴法等。根据液面外形求算表(界)面张力的一种方法。当待测液液滴稳定地停在水平固体表面上,其外形与液体表面张力γ有关。根据巴什弗思–亚当斯(Bashforth-Adams)方程可有以下关系式ρ1和ρ2分别为待测液体及液滴外介质的密度,g为重力加速度,β为形状因子,b为大小因子。当液体与固体表面接触角大于90°时可根据测出的液滴的赤道半径及其与液滴顶点的垂直距离数值查表得出相应的β及b值,从而算出表面张力γ。本法简便,适用于吸附平衡时间长的体系和低表面张力的测定;也能用于测定界面张力及熔融金属的表(界)面张力。
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参考词条