本文详细介绍了阳光控制膜幕墙玻璃的性能特点及用途。
The properties, characteristics and applications of solar control costing glass (curtain wall glass) is discussed.
选择的膜通量是膜生物反应器控制膜污染的有效手段之一。
Choice of appropriate flux is an effective way to control membrane fouling.
试验结果表明:通过调节电泳电压和电泳时间,可以控制膜厚。
It has shown that the film thickness can be controlled by adjustment of voltage and time.
本文对膜污染的成因进行了分析,并介绍了控制膜污染的几种方法。
This article has carried on the analysis to the membrane pollution origin, and introduced control membrane pollution several methods.
通过本发明可以有效地控制膜污染,使膜蒸馏装置的运行更稳定,更高效。
The method can effectively control membrane pollution and ensures the stable and high-efficiency operation of a membrane distillation device.
更重要的是,研究表明,在次临界通量条件下运行反应器可以有效控制膜污染。
Moreover, for better controlling membrane fouling and identification of appropriate operating conditions, the concept of critical flux was proposed.
光学薄膜的厚度对光学元件的性能有决定性的影响,因此精确控制膜厚就成为了关键。
Because the capacity of the optical component lies crucially on the thin film thickness, monitoring the deposition thickness becomes the key to the precise production.
对于利用超声控制膜污染,适于本试验系统的超声电功率范围在60~150W之间。
And when ultrasound was applied, an ultrasonic power range of 60~150 W was suitable for the membrane fouling control in the experimental system.
从膜生物反应器的类型、气水比和粉末活性炭的投加浓度等方面研究了控制膜污染的方法。
Through the study of the type of membrane bioreactor, air-water ratio as well as concentration of powdered activated carbon, the methods of preventing membrane fouling are studied.
并针对硅微压传感元件研制中存在的问题,提出采用化学腐蚀技术,选择性腐蚀工艺控制膜厚。
In view oi the problems existing in the silicon micro pressure sensors, this paper proposes the chemical etching techniques and the selective etching processes to control diaphragm thickness.
主要论述了一次水加压直供空调水系统的形式、工作原理及工况分析;通过控制膜流状态确定溢流回水管管径;
The forms of primary flow pressurized direct connection of air conditioning system, operational principle and condition analysis are discussed.
采用纳米技术和生物微电子机械系统技术制备纳米多孔硅膜,可准确控制膜的厚度、几何形状、孔大小、孔分布和孔隙率。
Fabricating the nanoporous silicon membrane with nanotechnology and Bio-MEMS technology, the thickness of membrane, pore size and distribution, geometry shape and porosity can precisely controlled.
本质上来说生物膜很难收到控制。
Skylifter计划使用数个上述装置来控制飞行器的水平运动,并在表膜层内置浮力控制系统来调节垂直升降。
Skylifter plans to use several such drives to control the craft's horizontal motion and to aid a buoyancy-control system within the envelope in moving the vehicle up and down.
这个模拟器证明当淡水和海水混合时,浓度会一直扩散,直到在液体中盐分完全均等。 如果在淡水和海水中放置一张选择膜,就可以控制扩散程度、获得潜在能量。
The simulator proves that when sweet and salt water join, the concentration will diffuse until the salinity is equal in the total fluid.
目的:探讨复方氧化锌涂膜剂的制备及质量控制方法。
OBJECTIVE To study the preparation method of zinc oxide film and quality control.
计算机自动控制保证了的镀膜过程的精确控制、可靠性和重复性,从而导致更高的生产一致性和膜层质量。
Process accuracy, reliability and repeatability are guaranteed by the automatic computer control system, resulting in much higher consistency of production and much better film quality.
该电路应用于溅射镀膜机上,可较精确地控制多层合金膜镀层。
It has been applied in sputtering coater system to obtain multi-layer alloy film accurately.
通过控制聚酰亚胺膜的厚度,可以对银空芯波导在特定的波长处有降低损耗的作用。
By controlling the thickness of coated polyimide, the loss of the hollow waveguide can be reduced at different wavelength.
利用固定生物膜滤池控制硫化氢气体是一种经济有效的方法。
The control of hydrogen sulfide using biological fixed-film filter is an economical and effective method.
利用简化的动态模型过程,推导了热浸镀条件下的膜层控制方程,并通过实验手段对此方程作了验证。
The equation for the membrane thickness controlling in hot-dipping process was expressed using abridged kinetic model process. The equation was demonstrated by experiment.
临界通量在膜污染控制中是个非常重要的概念。
Critical flux is an important parameter to control membrane fouling.
吸附过程受膜扩散动力学控制。
The adsorption process is controlled by membrane diffusion dynamics.
利用IC/5镀膜自动控制仪在现有镀膜机组上镀制出了高性能的高反膜。
The IC/5 deposition controller is applied in the existing coating system, and the high precise high-reflective film is made.
生物滤池处理甲苯废气,是以气膜控制为主的传质控制过程。
The treatment of waste gas of tolual by bio-filter is a transfer process that is mainly controlled by gas-film.
在离子束溅射镀膜机的膜厚控制系统的研究中,由于采用了现代检测手段,使测量精度大大提高。
In the research of the membrane thickness control system of IBS plating machine, as having adopted modern detection means, measure precision improves greatly.
在离子束溅射镀膜机的膜厚控制系统的研究中,由于采用了现代检测手段,使测量精度大大提高。
In the research of the membrane thickness control system of IBS plating machine, as having adopted modern detection means, measure precision improves greatly.
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