cumene hydroperoxide
英
美
异丙苯过氧化氢;氢过氧化枯烯
双语例句
- The reasons of temperature distribution in a cumene hydroperoxide decomposition reactor was found by analysis reactor fluid mold, reactionoperating mode and calculations of heat transfer.
通过对现有反应器流型、工况的反应和传热计算分析,找到了CHP分解反应器中温度分布不均匀的原因。 - Then a hydrophobic monomer, butyl methacrylate ( BMA), its crosslinker, 1,4 divinyl benzene ( DVB) and an oxidant, cumene hydroperoxide ( CHPO) which is soluble in the continuous phase are added.
然后加入亲油性单体甲基丙烯酸丁酯(BMA)及其交联剂1,4-二乙烯基苯(DVB)以及可溶于连续相的氧化剂过氧化羟基异丙苯(CHPO)。 - An oxidant, cumene hydroperoxide and a reductant, ferrous sulfate constituted the interface initiator.
界面引发体系由过氧化羟基异丙苯和硫酸亚铁组成。 - Difference between sound velocities of cumene and its peroxide is utilized to design an on-line apparatus for cumene hydroperoxide determination.
利用异丙苯及其过氧化物二者之间声速的差异,制成在线装置,应用于生产现场。 - Injurious effect of cumene hydroperoxide on human endothelial cells in culture
氢过氧化枯烯对培养人血管内皮细胞的损伤作用 - Study of Process for Catalytic Synthesis of Cumene Hydroperoxide
氢过氧化异丙苯催化合成工艺 - Effect of cumene hydroperoxide on DNA of heart cells in cultured neonatal rat
氢过氧化枯烯对培养心肌细胞DNA的影响 - Evaluation on the Method of Measuring the Concentration of Cumene Hydroperoxide of the Phenol-Acetone Unit
苯酚丙酮装置CHP浓度测定方法评价 - Influence of Catalytic Reaction Conditions on Epoxidation of Propylene with Cumene Hydroperoxide
过氧化氢异丙苯环氧化丙烯的催化工艺 - Improve on Cumene Hydroperoxide Decomposition Reactor
过氧化氢异丙苯分解反应器的改进 - On-line Determination of Cumene Hydroperoxide Concentration in Cumene Oxidation Products by Liquid Ultrasonic Velocimeter The Failure and Countermeasure of Heat Exchange Tube in Cumene Oxidation Tower
超声波液体声速仪在线测定异丙苯氧化液中过氧化氢异丙苯的浓度异丙苯氧化塔内换热管的失效与对策 - Decomposition of Cumene Hydroperoxide Catalyzed by Resins in a Three Phase Circulating Fluidized Bed Reactor ⅱ. Kinetics and Mass Transfer
三相循环床中树脂催化过氧化氢异丙苯分解Ⅱ.反应动力学及扩散传递 - Epoxidation of Propylene with Cumene Hydroperoxide over MoO_3/ SiO_2 Catalyst Prepared by Sol-Gel Method
在溶胶-凝胶法制备的MoO3/SiO2催化剂上丙烯的环氧化反应 - Injurious effect of cumene hydroperoxide on cultured cardiac cells
脂质过氧化对培养心肌细胞的损伤作用 - Resin Catalytic Decomposing Cumene Hydroperoxide for Making Phenol and Acetone
树脂催化分解过氧化氢异丙苯制苯酚丙酮 - Synthesis of Ti-MCM-41 and Its Application in Epoxidation of Propylene by Using Cumene Hydroperoxide as the Oxidant
Ti-MCM-41的合成及其在过氧化氢异丙苯氧化丙烯反应中的应用 - Process was optimized by replacing high efficiency tray of acetone refining tower and using cumene hydroperoxide decompressing decomposition technology. The output of acetone increased greatly and the rate of high-grad production could reach 100% after renovation.
采取了更换丙酮精制塔高效塔盘、过氧化氢异丙苯减压分解技术等措施对装置进行了工艺优化,优化后丙酮的产量得到大幅地提高,产品质量的优级品率达到100%。 - Since Na+ exists in the water phase rather than the oil phase ( cumene hydroperoxide), the separation of oil and water for Na+ removal reaches equilibrium after water washing and standing for 30 min.
原料过氧化氢异丙苯(CHP)中的Na+存在于油相中的微量水中,水洗30min后油水分层达到平衡。 - The epoxidation of propylene to propylene oxide, using cumene hydroperoxide as oxidant, molybdenum glycol complex as catalyst and ethanol as solvent, has been investigated.
研究了以钼醇配合物为催化剂,过氧化氢异丙苯为环氧化剂,乙醇为溶剂的丙烯一步氧化制环氧丙烷的反应。 - Conversely, a weaker PDGF-B chain mRNA expression in endothelial cells was observed after exposure to cumene hydroperoxide.
并且以氢过氧化枯烯作用后内皮细胞PDGF-B链mRNA的水平比正常组有所减低。 - Catalytic wet air oxidation Study of Process for Catalytic Synthesis of Cumene Hydroperoxide
湿式催化氧化技术的研究与发展概况氢过氧化异丙苯催化合成工艺 - The oxidative desulfurization performances were investigated in a fixed bed reactor using cumene hydroperoxide ( CHP) as oxidant, and the toluene solution of dibenzothiophene ( DBT) as the model fuel under mild conditions.
在温和条件下,以过氧化羟基异丙苯(CHP)为氧化剂,二苯并噻吩(DBT)的甲苯溶液作为模拟油品,采用固定床反应器考察催化剂的氧化脱硫活性。 - Cumene hydroperoxide played an important role in this reaction, the reaction rate increased with CHP decomposition rate.
CHP在该反应过程中起重要作用,反应速率随着CHP分解速率的增加而增加。 - When we used the cumene hydroperoxide ( CHP) as substrate to detect the activity of non-selenium-dependent glutathione peroxidases, the GSTs in all the 9 tissues were found the specific activities.
以枯烯过氧化氢(CHP)为底物,发现9个组织中均有硒非依赖性的谷胱甘肽过氧化物酶活性。