1) amine liquid concentration
胺液浓度
2) strong solution concentration
浓溶液浓度
1.
Concludes that the severe cracking of heat exchanger tube of the high temperature heat exchanger results in the decrease of cooling capacity according to the analysis of strong solution concentration.
通过对浓溶液浓度的分析,得出溴化锂冷水机组制冷效果不佳是高温换热器传热管大面积破裂所致,给出了具体的处理方法。
3) size concentration
浆液浓度
1.
Development of on-line measurement system for size concentration by ultrasonic technology;
纺织浆液浓度超声波在线检测系统的研制
2.
Trial Analyses of Size Concentration Control Principle of HS30 PW Sizing Machine;
HS30 PW型浆纱机浆液浓度控制原理浅析
3.
The relation between size pick-up and size concentra- tion as well as the importance of measuring size concentration are discussed in this article.
讨论了上浆率和浆液浓度之间的关系,以及测量浆液浓度的意义。
4) consistency of bleaching liquid
漂液浓度
5) solution concentration
溶液浓度
1.
Influence of absorption pressure, solution concentration, temperature and flow rate of the cooling water in the lithium bromide absorption chiller on the absorption process;
吸收压力、溶液浓度、冷却水温度和流量对溴化锂吸收式制冷机吸收过程的影响
2.
Improvement of measuring the salt solution concentration by laser speckle method;
用激光散斑法测盐水溶液浓度的改进
3.
To eliminate the measurement errors arisen from light source intensity and wavelength fluctuation,a method of measuring solution concentration by glancing incidence was proposed.
提出用掠入射法测量溶液浓度的方法,该法不受光源强弱和波长变化的影响,测量环境宽松。
6) slurry concentration
浆液浓度
1.
Measurement of slurry concentration in stirred vessel based on AE measurement by wavelet transform;
声波的多尺度分解与搅拌釜中浆液浓度的测量
2.
A method for calculating the slurry concentration inside the reactor was developed in this paper through determining the slurry density of polypropylene with double - flange pressure transmitter.
论述了通过双法兰差压变送器测定聚丙烯浆液密度,从而求出聚合反应釜中浆液浓度的方法,并进一步讨论了浆液浓度与平均停留时间、料位和聚合量等工艺参数之间的关系。
3.
The slurry concentration, minimum agitation speed and slurry suspension height, as the basic parameters in the solid-liquid system, is very important to the design and optimization of the reactors.
搅拌釜式反应器中的浆液浓度、临界搅拌转速、淤浆悬浮高度和环管反应器中的浆液浓度等参数,既是反应器的设计、优化的重要依据,也是实际生产运行过程中的重要控制变量。
补充资料:皂化液极限浓度
分子式:
CAS号:
性质:皂胶盐析时;皂粒与废液间的盐深度达到一个平衡,沸煮这一析开体系并逐步加水降低废液含盐浓度,这样每加一次水,皂粒与废液二相内盐浓度将建立新的平衡,如此,继续加水,废液盐浓度越来越低,最后达到一个可以重新溶解肥皂的浓度,这一浓度称之谓皂化液极限浓度(L.L.C.)。
CAS号:
性质:皂胶盐析时;皂粒与废液间的盐深度达到一个平衡,沸煮这一析开体系并逐步加水降低废液含盐浓度,这样每加一次水,皂粒与废液二相内盐浓度将建立新的平衡,如此,继续加水,废液盐浓度越来越低,最后达到一个可以重新溶解肥皂的浓度,这一浓度称之谓皂化液极限浓度(L.L.C.)。
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