Target soils include oil, grease, wax, tar, flux, and biological debris.
目标土壤包括石油,油脂,蜡,焦油,通量和生物残骸。
Apart from pre-treatment products: powder paint, stripped from agents and removing wax water, antirust oil; Electronics and solder flux.
烤漆前处理产品:除油粉、漆剂、油除蜡水、锈油等;电子、锡助焊剂。
The parameters such as oil film pressure, oil flux and so on are obtained from joint solution of Reynolds and energy equations of SFD.
文中根据雷诺边界条件,通过联立求解SFD的雷诺方程、能量方程得到了SFD的压力分布、滑油流量等参数。
The optimization models of heavy oil consumption and the on-line measurement model of heavy oil flux are central contents of this paper.
重油消耗量最优化模型和重油流量在线计量模型是本文研究的核心内容。
A measuring method combining main magnetic flux and magnetic flux leakage for approaching the residual wall thickness of the oil well tubing in-service was presented.
提出采用主磁通与漏磁通相结合的方法检测在用油管剩余壁厚的方法。
Based on the magnetic leakage flux technique, the principle of localized defect inspection and wall thickness measurement in oil well tubing has been researched.
文中研究了油管局部缺陷和壁厚减薄缺陷的漏磁场检测原理。
There are varying noises in output signal obtained from magnetic flux leakage nondestructive testing of oil pipeline.
在采用漏磁法对输油管道进行无损检测过程中,信号会受到各种噪声的干扰。
Magnetic flux leakage (MFL) nondestructive evaluation commonly used in the nondestructive evaluation of ferromagnetic material is an efficient method in inspection of oil pipelines in recent years.
漏磁无损检测普遍用于铁磁材料的无损检测中,是近年来输油管道检测中常用的一种有效方法。
A mathematical model of heavy oil flux about rotary anode furnace in copper refining based on warm-up burning air was established based on principle of energy balance.
根据能量平衡原理,建立了基于燃烧风预热下铜精炼阳极炉重油流量数学模型,并根据不同预热燃烧风温度对铜精炼阳极炉氧化期重油流量数学模型进行计算。
Parameter, such as temperature, pressure and flux are tested by this system guaranteeing oil extraction worked safely.
该系统可测试井下温度,压力,流量等参数,以保证采油工作的安全进行。
The results show that the oil droplet size, flow rate of the emulsion along the membrane surface, liquid-liquid interfacial tension and membrane flux can significantly affect oil-removing efficiency.
实验结果表明,水相中油珠的粒径、乳浊液的流速、两液相的界面张力以及膜通量都会影响除油率。
There are varying noises in output signal obtained from magnetic flux leakage (MFL) nondestructive testing of oil pipeline.
在采用漏磁法对输油管道进行无损检测过程中,信号会受到各种噪声的干扰。
Under such optimum operating conditions, the changing situation of membrane flux, oil content and COD with time is studied.
在此合理的操作条件下研究了膜通量、含油量、COD随时间的变化情况。
Magnetic flux leakage (MFL) internal inspection technology is most widely used in many on-line oil-gas pipeline inspections.
在多种油气输送管道内检测技术中,漏磁内检测技术应用最为广泛。
The solder and flux residue around the surface, oil pollutants, dust, etc. should be 100% cleaned and removed, water cleaning equipment can be used for cleaning.
清洗 (cleaning) 焊点及周围表面的焊剂残留物、油污、灰尘等应进行100%的清洗,清洗可采用水清洗设备进行。
The principle of magnetic flux leakage testing of oil and gas pipelines, and the operational principle and structure of the intelligent pipeline magnetic flux leakage tester developed are described.
介绍油气管道漏磁检测的基本原理以及在线检测装置的工作原理和结构。
The principle of magnetic flux leakage testing of oil and gas pipelines, and the operational principle and structure of the intelligent pipeline magnetic flux leakage tester developed are described.
介绍油气管道漏磁检测的基本原理以及在线检测装置的工作原理和结构。
应用推荐