The computing formula of equivalent viscosity coefficients of emulsions was obtained, by measuring the effective viscosity of emulsion with various oil fractions.
通过对乳化液在不同油相浓度时的有效粘度的测量,获得乳化液当量粘度系数的计算公式。
Because of the low viscosity of emulsion, valve type orifice was used in emulsion motor and the volumetric efficiency was ensued.
针对乳化液黏度低的特点,将所设计的乳化液马达采用了阀式配流,从而保证了较高的容积效率。
The conventional heavy oil viscosity reducer was compared with emulsion and viscosity reducer after using nano-assistant.
对常规稠油降粘剂和加入纳米助剂后的乳化降粘剂进行了对比评价。
The viscosity reduction property of the viscosity reduction agent and the stability of the emulsion can meet the need of the heavy oil production.
降粘剂的乳化降粘性能和所形成的乳状液稳定性均符合稠油生产要求。
An increase of the dispersed phase leads to an increase of the viscosity of the final emulsion, due to droplets close pack network.
一个分散相的增加会导致乳剂最终稳定性的增加,从而引起小滴靠拢成为网状群集。
The viscosity of the emulsion is closely linked to the surfactant structure and its HLB value.
乳剂的粘滞性将表面活性剂的结构及其HLB值紧密地联系在一起。
The results showed that the viscosity of the emulsion is a function of volume fraction of dispersing phase and drop size;
结果表明:乳状液的粘度是分散相体积分数和粒径的函数并获得了相应的关联式;
The viscosity equations of emulsion flow will be different under different conditions of water content.
对于不同的含水条件,乳状液的黏度表达式不同;
The viscosity equations of emulsion flow will be different under different conditions of water content.
对于不同的含水条件,乳状液的黏度表达式不同;
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