1.
Study on the Influence and Removal of Turbidity to the Reclaimed Water Reused in the Cooling System;
中水浊度对循环冷却水系统的影响及除浊技术研究
2.
Membrane separation technology and its application in turbidity removal of low-alcohol liquor
膜分离技术及其在低度白酒除浊中的应用
3.
The Research of Technology on Turbidity Sensor Used in Deep Sea and Signal Processing;
深海浊度探头及其信号处理技术研究
4.
On influential factors on processing technique of low temperature and low turbidity water and its analysis
低温低浊水处理技术影响因素及分析
5.
Research on the water purification and scale inhibiting techniques of turbid circulating water in ore-dressing
选矿浊环水水质净化及阻垢技术研究
6.
Ultrasound B-flow Imaging for Detecting Turbid Breast Cystic Lesions
B-flow超声显像技术诊断乳腺混浊性囊性肿块
7.
Study on Mechanism and Controlling Technology of Formation of the Second Haze in Apple Juice Concentrate;
苹果浓缩汁二次混浊形成机理及控制技术研究
8.
Applying Enzyme Technology on Resolving the Turbidity and Sedimentation in ShanXi Super-Mature Vinegar;
应用酶技术解决山西老陈醋浑浊沉淀的研究
9.
Study on Treatment of Low Temperature and Low Turbidity Water by Enhanced Coagulation;
强化混凝技术处理低温低浊水试验研究
10.
Research on Air Flotation Technology Treating Raw Water of High Algae and Low Turbidity;
高藻低浊水源水气浮处理技术试验研究
11.
The Intelligent Turbidimeter Employing Technology of Modulating Light Magnitude of Lamp House;
光源光强调制技术的智能浊度仪的研究
12.
The Application of Cloud Point Extraction on the Determination of Trace Metal Ions;
浊点萃取技术在痕量金属离子测定中的应用
13.
Design of Portable Turbidimeter Based on Cygnal Microcomputer
基于Cygnal技术便携式浊度仪的设计与应用
14.
A Recycled Produced Water Treating Technology by Using Turbidity Control
浊度控制法处理油田产出水技术研究与应用
15.
Cloud-Point Extraction and Its Application to the Separation/Preconcentration and Speciation of Metal Ions;
浊点萃取技术在金属离子分离富集及形态分析中的应用
16.
AN ANALYSIS OF INVERSION OF CLEAR-TURBID WATER IN THE POYANG LAKE AND THE YANGTZE RIVER BASED REMOTE SENSING TECHNIQUES
基于遥感技术的鄱阳湖-长江水体清浊倒置现象的分析
17.
Application of the separation of oil from water to the treatment reform of turbid circulating water in steelworks
油水分离技术在钢厂浊循环水处理改造中的应用
18.
the total phosphorous lowering 0.5 mg/l, construction cost reducing by more than 20%, running cost deducing by more than 25% and energy consumption reducing by more than 30%.
除磷技术的出水总磷