1) effluent BOD concentration
出水BOD浓度
2) minimum effluent substrate concentration
出水最低浓度
1.
Based on Monod kinetics and the relationship between biomass growth and substrate biodegradation,the minimum effluent substrate concentration(S_(E,MIN)) and the minimum influent substrate concentration(S_(0,min)) of constant stirred anaerobic reactor treating low strength organic wastewater were deduced.
以Monod模式和微生物增长与底物降解的基本关系为基础,推导了描述完全混合式厌氧反应器处理低浓度有机废水的出水最低浓度Se,m in和进水最低浓度S0,m in的数学模型,并对影响厌氧反应动力学参数的因素进行了讨论。
3) outfall concentration
污水排出口浓度
4) output concentration
出口浓度
1.
Solving the output concentration of multiple mixed flow reactors in series by three methods;
三种方法求全混流反应器多级串联的出口浓度
2.
On the multiple mixed flow reactors in series for a second-order reactions,the formula of output concentration of the Nth re- actor includes N nesting squarts.
在多级串联全混流反应器中进行二级反应时,第N级反应器的出口浓度表达式中含有N个套起来的根号。
3.
In order to get the output concentration of every reactor on the multiple mixed flow reactors in series for 3/2-order reactions.
在全混流反应器多级串联作3/2级化学反应时,为了求各级反应器的出口浓度,就具体实例利用图解法、递推法和计算机程序法求解。
5) leachable contents of elements
溶出浓度
6) CONCENTRATIONS OF EXTRACT
浸出浓度
1.
INFLUENCE OF THE MAIN SOAKING CONDITIONS ON THE CONCENTRATIONS OF EXTRACT OF CONCENTRATED TEA;
浓缩茶浸取主要技术条件对浸出浓度的影响
补充资料:BOD sensor
分子式:
CAS号:
性质:一种能测定生物耗氧量(BOD)的微生物传感器。BOD传感器氧电极和生物膜两部分组成。生物膜为表面已固定化微生物(如细菌等)的纤维素膜。测定原理基于微生物对有机物的耗氧代谢,导致氧电极输出电流的变化。
CAS号:
性质:一种能测定生物耗氧量(BOD)的微生物传感器。BOD传感器氧电极和生物膜两部分组成。生物膜为表面已固定化微生物(如细菌等)的纤维素膜。测定原理基于微生物对有机物的耗氧代谢,导致氧电极输出电流的变化。
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