A technology of highly effective turbidity removal from surface water at low temperature in north China is investigated.
采用无机高分子混凝剂聚合氯化铝铁(PAFC),并结合管式微涡混合器、网格反应池、小间距斜板沉淀池、快滤池组合而成的一体化净水装置,对北方地区低温地表水的除浊进行试验研究。
Experimental Investigation of Non-boiling Spray Cooling with Low Surface Temperature and Big Water Flow Rate
低温表面大流量无沸腾喷雾冷却试验研究
It shows that the temperature on bridge deck pavement is a bit lower than that on the road pavement.
研究结果表明:桥面铺装的温度略低于路面温度。
Study on the Fluoride Rubber Surface Modification by the Low Temperature Plasma Technique;
低温等离子体对氟橡胶表面改性研究
The Surface Frosting Mechanism Research of Fin-tube Heat Exchanger under Low-temperature;
低温翅片管换热器表面结霜机理研究
The Surface Modification of the High-properties Fibre by Low-temperature Plasma;
高性能纤维的低温等离子体表面改性
Surface Nanocrystallization and Plasma Nitriding of Pure Titanium at Low Temperatures
纯钛表面纳米化及低温离子渗氮研究
Effect on PTFE Surface Property Treated by Low Temperature Plasma
低温等离子处理对PTFE表面性能的影响
Cryogenic Cold Shield System in Space with Surface Temperature Distribution
空间低温冷屏蔽系统及表面温度分布研究
THE SURFACE MODIFICATION OF LDPE BY LOW TEMPERATURE PLASMA
低温等离子体对低密度聚乙烯材料的表面改性
the layer of air near the earth is cooler than an overlying layer.
靠近地表的空气层比其上面的层气温低。
THE SURFACE MODIFICATION OF AIR LOW TEMPERATURE PLASMA ON TERYLENE FIBER SURFACES
空气低温等离子体对涤纶纤维的表面改性作用
Gas Carburization Characteristics of Sub-micron Structure on Fe Surface at Low Temperature;
铁表面亚微米结构的低温气体渗碳特性
Surface Nanocrystalline Treatment and Low Temperature Gas Nitriding of Steels;
钢铁表面纳米化处理与低温气体渗氮研究
Study about the Characteristic of Bamboo Surface and Interface by the Treatment of Low Temperature Plasma;
低温等离子体改性后竹材表界面特性的研究
Study on multi-element Penetrating Property of low Temperature gas on the Surface of 27SiMn steel
27SiMn钢表面低温气体多元共渗性能的研究(英文)
Research progress of non-polar plastics surface treated by low-temperature plasma
难粘塑料表面低温等离子体处理研究进展
Surface modification of PBO fiber with low-temperature oxygen plasma
氧气低温等离子体对PBO纤维的表面改性
Research Progress of the Surface Modification of Polymer Materials Modified by Low Temperature Plasma
低温等离子体表面改性高分子材料研究进展
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