Effects of the structure of polyoxypropylene ether surfactants and the salinity of water on oil-water interfacial tension;
聚氧丙烯醚型表面活性剂结构及矿化度对油水界面张力的影响
Study on adaptation tolerance of high salinity of mixed strain of Thiobacillus ferrooxidans and Leptospirillums ferrooxidans in bioleancing uranium;
耐高矿化度浸矿菌在铀矿浸出中的应用
Influence of salinity on the viscosity of hydrophobic associated polymer solution;
矿化度对疏水缔合聚合物溶液粘度的影响
The sources of the uncertainty of measurement of mineralization in underground water were analyzed and the uncertainty of measurement of mineralization in underground water was evaluated.
分析质量法测量地下水矿化度的测量不确定度来源,评定了地下水矿化度的测量不确定度,在各不确定度中,称量引入的不确定度较大。
Based on the monitoring data of shallow groundwater quality in downstream of Panlongjiang River,through the analysis of ion concentration,mineralization,chemical types,have discovered that the influence degree of human activities to the groundwater was getting strengthened continually in the north urban areas of Kunming.
根据盘龙江下游浅层地下水水质监测数据,通过对离子浓度、矿化度和水化学类型的分析,发现昆明市区北部人类活动对地下水的影响程度不断加强;市区则因为市政设施的建设,地下水变化趋于稳定;滇池草海北端因为治理强度加大,使地下水水质不断好转,而南部的湖滨平原,因为农业活动的影响,使地下水水质不断恶化。
Carbon dioxide, sulfate-reducing bacteria (SRB) and mineralization are the three main factors ascertained affecting corrosion by the analysis on the wastewater quality of Longdong Oil Field.
通过对陇东油田采出水水质的分析 ,确定出 CO2 、硫酸盐还原菌 ( SRB)、矿化度是造成采出水系统腐蚀的三个主要因素 ,并针对上述因素进行了静态和动态实验研究 。
According to about 10 - year monitoring data of hydro - chemistry of the Yellow River basin, it analyzes the regional distribution of degree of mineralization, total hardness and types of hydro - chemistry of river runoff, counts the variations along the main river and the variations of hydro - chemistry of its main tributaries and contrast with the outcomes of water resources ev.
根据近10年来黄河流域的水化学监测资料,分析了河川径流矿化度、总硬度和水化学类型的地区分布,统计了黄河干流沿程变化及主要支流水化学变化情况,并与20世纪80年代初第一次黄河流域水资源评价的结果进行了对比。
value of selected degree of mineralization and total hardness ofNingxia General Hydrometric Station.
依据宁夏水文总站多年水质监测资料,选择矿化度、总硬度等特征值,来分析该区河流和排水沟地表水水化学成份的时空分布规律。
Analyzed the salt content and degree of mineralization of ground water of plough level in the irrigated area where in the east of Hebei, according to different standard to divide the rice belt into suitable district, halophytic vegetation district, salt-tolerant crop district and dry crop district, then it proposed relevant planting technique and assorted technical measure.
分析了冀东滦下灌区四县稻田土壤耕层的全盐含量和地下水矿化度,并依据我国盐渍土壤划分标准和不同作物的耐盐能力,将该稻区划分为宜稻区、盐生植物种植区、耐盐作物种植区和大田旱作物种植区,并提出了各个区域的种植技术方案及配套的工程技术措施。
Geophysical method to detect mineralization degree of groundwater;
地下水矿化度检测的地球物理方法
The study of the mineralization degree,water type and ion combination coefficient of the Pre-Tertiary formation water in Chaluhe fault depression,Yitong Basin,reveals that total mineralization degree of the water is relatively low,and NaHCO3 water type,while the formation water has obvious vertical mineralization zonation with a high metamorphic grade.
对伊通盆地岔路河断陷古近系地层水的矿化度、水型及变质系数、脱硫系数的研究表明,该区地层水总体为NaHCO3型水;总矿化度偏低;平面上,孤店斜坡的油气保存条件最差,梁家构造带最好,垂向上,具明显的垂向分带性,万昌组保存条件最差;变质程度高。
The distribution of natural water chemistry characteristics, including mineralization degree, total hardness, and water chemistry type, is analyzed based on the field data of water chemistry in the Huaihe River Basin and Shandong Peninsula from 1950's to 1980's as well as terrain features, morphological features, and soil features.
根据20世纪50年代至80年代初淮河流域及山东半岛水化学监测资料,结合地形、地貌及土壤特征,分析了矿化度、总硬度和水化学类型等天然水化学特征的分布规律,并与2000年水化学特征进行了对比。
Application of electronic resistivity sounding method detected the TDS of groundwater——Yinchuan Plain as an example;
用电阻率测深法探测地下水的矿化度——以银川平原为例
Study on the chemistry of the Ordovician,Silurian and Carboniferous formation waters in Tazhong area suggests that these waters are of CaCl2 type with high TDS and contains mainly cations K++Na+ and anion Cl-.
塔中地区主要含油层系奥陶系、志留系和石炭系地层水化学研究结果表明,奥陶系、志留系和石炭系地层水矿化度很高,是阴、阳离子分别以C l-和K++Na+为主的氯化钙型水,钠氯系数平均值在0。
The analysis of Ordovician high salinity development and utilization of geothermal fluid in Tianjin
奥陶系高矿化度地热流体在天津地热开发利用中的分析
Experimental study on profile control agent for high salinity formation
适用于高矿化度地层调剖剂实验研究
Experimental evaluation of the high temperature,high salinity and high condensate foaming agent
抗高温、高矿化度、高凝析油起泡剂的实验评价
RECYCLE ON HIGH-SALINITY MINE WATER IN SHENDONG MINING AREA
神东矿区高矿化度矿井水资源化探讨
Analysis on the Comprehensive Treatment and Utilization of Highly Mineralized Mine Water
高矿化度矿井水综合处理与利用浅析
Experimental Study on Sulfate and Haroness Removal from Mine Waste Water with High Degree of Mineralization;
高矿化度矿井水硫酸盐、总硬度去除的实验研究
Dissolution of aluminosilicate mineral in high-salinity formation water
高矿化度地层水中(铝)硅酸盐矿物溶解作用
APPLICATION OF REVERSE OSMOSIS TECHNOLOGY IN THE TREATMENT OF HIGHLY MINERALIZED MINE WATER
反渗透技术用于高矿化度矿井水处理的研究
Research on chemical water plugging agent in high salinity reservoir at 85 ℃
85℃下高矿化度地层化学堵水剂研究
The spontaneous potential is closely related to salinity in formation and mud filtrate.
自然电位的形成与地层水矿化度和钻井液滤液矿化度密切相关。
Analysis on the Change of Groundwater Salinity and Hardness in Hutuohe Plain
滹沱河平原地下水矿化度和硬度变化分析
AN APPROACH TO MINERALIZATION TREND-SURFACE ANALYSIS IN BOSTEN LAKE
博斯腾湖水矿化度趋势面分析初探
Experimental study on profile control agent for high salinity formation
适用于高矿化度地层调剖剂实验研究
Experiment on CO_2 Foam Profile Control in High Temperature and High Salinity Reservoir
高温高矿化度油藏CO_2泡沫调堵实验
Effent on Melting Temperature and Viscosity by Adding Mineralizers to the Slag
矿化剂对矿渣熔化温度与黏度的影响
Study on Temperature Change and Dynamic Leaching Law of Sulfide Ore Heap
硫化矿尾矿堆的温度变化和动态淋溶规律研究
Mineralization intensity of a placer gold source area is a geological parameter newly put forwardfor gold mineralization.
砂金矿源区金矿化强度()新提出来的一个金矿化地质参数.
Effect of Turbulence of Pulp in Flotation Cell on Flotation of Oxidized Ore
浮选机槽内矿浆紊流强度对氧化矿浮选的影响
Effect of Indian Fine Ore on Reduction Degradation Index of Sinter at Low Temperature in Angang
印度粉矿对鞍钢烧结矿低温还原粉化指标影响
Study the whiteness of nano-titanium dioxide loaded on bauxite-tailings
铝土矿浮选尾矿负载纳米氧化钛白度研究
Ore spotting and pit supervision, to minimize ore loss and dilution.
测定矿石点位,监督矿坑工作,将矿石损失和贫化降低到最小程度。
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