重力分离

预曝气斜管隔油池具有气浮和强化重力分离的双重作用，表面负荷可达4m3/（m2·h），除油效率高。

Pre-aerated tube oil-water separators have the enhanced function of flotation and gravity separation with surface loading of 4 m 3 / ( m 2 · h ) .

油水重力分离原理及聚结破乳机理初探重力分离自蔓延法制备a-Al2O3基复合陶瓷内衬管

Principle of the Oil-Water Gravity Separation and Elementary Researches on Coalescent Demulsification Composite Pipes with Interior Coating of a-Al_2O_3 Ceramics Produced by Gravitational Separation Self-propagating High-temperature Synthesis

SiO2对重力分离-SHS法制备Al2O3/Fe复合管组织的影响

Influence of SiO_2 on macrostructure of Al_2O_3 / Fe composite pipe fabricated by gravitational separation-SHS method

结果表明油水重力分离过程基本都处于Stokes沉降区，可直接采用Stokes解进行液滴的有关受力计算；

Result shows that they are basically in the stokes settlement area .

重力分离SHS法内衬陶瓷层中裂纹形成机理的研究

Cracks Formation Mechanism in Lined ceramics Produced by Gravitational Separation SHS Method

重力分离SHS陶瓷内衬复合管界面现象

Interface phenomenon in ceramic - lined composite pipe produced by G-T SHS technique

重力分离SHS陶瓷涂层致密化的研究

Densification of Ceramic Layers Made by SHS G-T Process

重力分离SHS陶瓷衬管合成过程的研究

Study on Sythesis Process of Ceramic lined Composite Pipes Using Gravitational Separation SHS Method

重力分离SHS过程的预测

The Predetermination of the Gravitational Separation SHS Process

SiO2在SHS铝热-重力分离法制备陶瓷内衬复合钢管中的作用

The roles of sio_2 in the ceramic - lined pipes produced by SHS granitational separation thermit method

CrO3对重力分离SHS陶瓷内衬弯管的影响

Influences of CrO_3 on Curved Ceramic-Lined Pipes Produced by Gravitational Separation SHS Process

采用SHS重力分离技术制备陶瓷内衬复合管，通过改变主燃烧配系组元Ni的含量，研究分析了金属Ni对陶瓷内衬复合管制备的燃烧特性及机械性能的影响。

On the basis of using gravitational separation SHS process to produce ceramic-lined composite pipes , the influence of Ni content on combustion characteristics and mechanical properties is investigated .

试验证明，建立合理的复合添加剂体系和优化合成工艺可有效地提高重力分离SHS陶瓷内衬复合管品质。

It was found that reasonable additive system and improvement of synthesis technology are the keys to improve quality of the ceramic lined pipes .

通过两组对比沉降实验发现，附加稀土NdFeB形成永磁场后，磁性颗粒的重力分离可以显著缩短自由沉降和压缩沉降时间，而离心分离则主要缩短压缩沉降时间。

Two groups of comparative experiments were carried out . It was found out that presence of Nd-Fe-B magnet gave much shorter free settling and pressing time in gravitational separation and shorter pressing time in centrifugal separation .

本文用SHS-重力分离法制备陶瓷内衬复合钢管，研究了玻璃粉添加剂在制备陶瓷内衬层中的作用。用金相显微镜、SEM、XRD分析了陶瓷层组织和结构。

Ceramic-lined steel pipes were prepared by SHS gravitational-thermite process The effect of the glass powder on the preparation of the ceramic-lined pipe was studied The structure of the ceramics coat was analyzed by metallographical microscope ?

研究了重力分离SHS法制备的陶瓷内衬复合管，在还原气氛下进行高温处理过程前后，复合管中陶瓷与钢管间的过渡层组织形态、组织分布的变化和过渡层中的裂纹的变化情况。

Before and after heat-treatment in reductive gas , transformation of microstructure morphology and distribution of the coatings and interface in pipes produced by SHS gravitational separation method are studied in details .

根据铝热&重力分离SHS法制备复合弯管的原理，设计制造了一种燃烧合成复合弯管的自动化生产设备。

An automation equipment for combustion synthesis curved ceramic - line composite pipes was designed and manufactured according to the principle of CS ( Combustion Synthesis ) thermit - gravitational separation process .

通过向主燃烧配系引入不同含量的ZrO2（4mol%Y2O3）组元，采用SHS重力分离技术制备了内衬（Al2O3+ZrO2）复相陶瓷的复合管。

ZrO2 ( 4mol % Y_2O_3 ) of various contents being introduced into the main combustion system , the composite pipe lined ( Al_2O_3 + ZrO_2 ) multi-phase ceramics can be fabricated with the SHS gravitational separation technique .

研究得出，重力分离SHS合成过程经历燃烧合成、液相分离和陶瓷凝固三个基本过程，陶瓷层致密化贯穿于三个过程之中；

It was obtained that synthesis process underwent three basic processes in the consequence of combustion synthesis , liquid liquid phase separation and ceramic solidification , and densification of ceramic layers run through the three processes .

研究了重力分离SHS复合管内衬（Al2O3+ZrO2）复相陶瓷的显微组织与形成过程.研究得出：陶瓷基体主要由Al2O3与ZrO2的层片状或棒状共晶组织形成。

The microstructure of lined ( Al 2O 3 + ZrO 2 ) multi phase ceramics of gravitational separation SHS composite pipes is investigated , and the formation mechanism of the multi phase ceramics is also analyzed .

本文在采用重力分离SHS法制备陶瓷内衬复合钢管的基础上，分析了SiO2添加剂在复合钢管制备过程中对燃烧过程、液相重力分离过程及陶瓷层致密度的影响。

Abstract Based on ceramic lined composite pipes produced by gravitational separation SHS method , the effect of SiO_2 additions on combustion process , liquid liquid phases gravitational separation process and ceramic densification during synthesis of the composite pipes has been investigated .

采用重力分离SHS技术结合旋转工艺制备了陶瓷内衬复合弯管，在添加SiO2的基础上，重点研究了NaF添加剂对复合弯管合成过程及组织性能的影响。

The curved ceramic lined pipes have been produced by gravitational separation SHS method in combination with rotating technology . Based on SiO 2 addition the influences of NaF additive on synthesis process , structure and properties of curved pipes have been investigated .

基于重力分离SHS法制备陶瓷内衬复合管，采用CrO3+TiO2+C+Al+NiO燃烧体系合成出具有钢基体、中间过渡合金与内衬陶瓷三层结构的复合管。

On basis of using gravitational separation SHS process to produce ceramic lined composite pipes , CrO 3 + Al + ( TiO 2 + C + Al + NiO ) combustion system is used with three layer structure of steel , intermediate alloy and ceramics .

采用均匀设计方法，研究了SiO2，CrO3添加剂对重力分离自蔓延高温合成法制造陶瓷内衬复合钢管的燃烧速度的影响，并回归出一个方程式。

Using uniform design , the influence of additions SiO 2 and CrO 3 on the combustion velocity of gravitational separation SHS in producing ceramic-lined composite pipes has been studied and an equation has been gotten by regression analysis .

采用重力分离SHS法制备了大直径钢管陶瓷内衬，研究了物料配比和添加剂（SiO2和CrO3）对于SHS合成过程和组织结构的影响。

The method for producing big diameter metal pipes with ceramic lining by gravitational separation SHS method is described . The influence of the reactant and additives CrO 3 and SiO 2 on combustion synthesis , microstructure and properties of the ceramic layer is investigated .

重力分离数学模型研究及应用

Study and Application on the mathematical model of gravity separation

本文介绍了作者提出的重力分离地球动力理论。

He paper raises the theory of the earth gravitational separation dynamics .

油水重力分离设备技术及进展

The Technology of Gravity oil Water Separation Equipment s and its progress

铝热-重力分离法制备陶瓷复合钢管

Ceramic Lined Steel Pipes Made by Thermite-gravitational Separation Process

油水重力分离过程油滴浮升规律的实验研究

Experimental Study on Rising Behavior of Oil Droplets in Oil-Water Gravity Separation Process