1)Carbon foam precursor泡沫碳前驱体
英文短句/例句
1.Insulation Property of Phenolic-Based Carbon Foam Precursor With Nanometer Pore纳米孔径酚醛树脂基泡沫碳前驱体的隔热性能
2.A Study of Interfacial Dilational Properties and Foam Properties of Foam Combination Flooding Model Systems;泡沫复合驱模拟体系界面扩张粘弹与泡沫性质研究
3.A Study of Surface Properties and Foam Properties of Model Surfactant Systems for Foam Combination Flooding;泡沫复合驱模拟体系的表面性质及泡沫性能研究
4.Laboratory Study on Foam Combination Flooding System without Alkali and Low Interfacial Tension无碱低张力泡沫复合驱油体系室内试验研究
5.High Performance Carbom Foam Used on FRP/CM Ship Hull高性能碳泡沫在纤维增强塑料船体中的应用
6.Study on laboratory experiment of combined thermal carrier foam flooding after polymer flooding聚合物驱后复合热载体泡沫驱提高采收率实验研究
7.Preparation of silicalite-1 coating on SiC foam ceramics by support self-transformation在泡沫碳化硅载体上自转化合成silicalite-1型沸石晶体
8.The Technology Research of Foam Expanding Swept Volume in the Process of CO_2 Displacement in the Low-Permeability Field低渗透油田CO_2驱过程中泡沫扩大波及体积技术研究
9.Study on Formability and Foam Stability of Calcium Carbonate Nanoparticles-surfactant Mixtures纳米碳酸钙—表面活性剂混合体系的泡沫性能研究
10.Preparation of polyurethane foam/ carbon nanotube composites and adsorption properties for humic acid碳纳米管泡沫体的制备及其对腐植酸的吸附性能
11.Laboratory displacement experiment result shows that the displacement efficiency of foam complex system is 30%(OOIP) higher than water displacement.室内驱油实验结果表明,泡沫复合体系的驱油效率比水驱提高30%(OOIP)以上。
12.The Present Real Estate Bubble and the Bubble Economy in China;浅谈我国当前的房地产泡沫及泡沫经济
13.Study of Reservior Numerical Simulation for Enhanced Recovery by Air-foam Injection空气泡沫驱提高采收率数值模拟研究
14.A Mathematical Model of Polymer Enhanced Foam Flooding聚合物强化泡沫驱数学模型及其应用
15.Nitrogen foam profile control in waterflooding heavy oil reservoir注水开发稠油油藏氮气泡沫调驱技术
16.RESEARCH OF THE AIR-FOAM FLOODING TECHNIQUE TEST IN THE MALING OIL-FIELD空气-泡沫驱技术在马岭油田试验研究
17.Numerical simulation of nitrogen foam flooding in QHD32-6 OilfieldQHD32-6油田氮气泡沫调驱数值模拟研究
18.Carbonated drinks are fizzy.含二氧化碳的饮料会起泡沫。
相关短句/例句
foam precursor泡沫前驱体
3)carbon matrix precursor碳前驱体
4)precursor carbon前驱体碳
5)foam flood泡沫驱
1.The CO2 gas flood pilot project performed at Caoshe oil field,North Jiangsu,was uneffective and a CO2 foam flood project is adopted instead.苏北草舍水驱油田CO2气驱先导试验效果不佳,转而采用CO2泡沫驱。
6)foam flooding泡沫驱
1.Optimized design of parameters of enhanced foam flooding in west block of Chengdong oilfield;埕东油田西区强化泡沫驱参数优化设计
2.Technology of enhanced foam flooding was studied for the purpose of enhancing oil recovery in oil reservoirs with strong heterogeneity and big channel.针对强非均质油藏和大孔道油藏提高采收率的需要,开展了强化泡沫驱油技术研究。
3.The result shows that oil recovery was increase by 20 percent after using DP - 4 foaming agent and the single foam flooding was not efficient under higher residual oil content .结果表明,DP-4复合泡沫驱可提高采收率20%以上,在残余油含量较高时,单一DP-4泡沫驱油效果差,但在高渗模型没有残余油的情况下,DP-4泡沫剂使高、低渗模型产液量完全反转,低渗模型采收率提高。
延伸阅读
前驱体配位化合物分子式:CAS号:性质:金属配位化合物的电子传递(迁移)反应过程中第一步形成的物种的统称。配位化合物的电子传递(迁移)反应,不论是内层机理还是外层机理都分为三步:(1)形成前驱配位化合物。(2)前驱配位化合物的活化生成后继配位化合物。(3)后继配化合物分裂为产物如[Co(NH3)5H2O]3+与[Fe(CN)4]4-反应按外层机理进行,参加电子传递的两个配离子通过扩散而穿过溶剂分子相互接近,两者处在溶剂分子所组成的“笼”内,形成前驱配位化合物[{Co(NH3)5(H2O)}3+||{Fe(CN)6}4-。[CoCl(NH3)5]2+与[Cr(H2O)6]2+反应按内层机理进行,两者发生取代,配体桥联成双核配位化合物[(NH3)5CoIII-Cl…CrII·(H2O)5]4+而形成前驱配位化合物。前驱配位化合物必须有适当的稳定性,才有利于电子传递(迁移)。
