水解反应

  • 网络hydrolysis reaction;hydrolytic reaction;hydration reaction
水解反应水解反应
  1. 超声波技术与PTC在椰子油水解反应中的应用研究

    Applications of Ultrasound and PTC in Hydrolysis of Coconut Oil

  2. 方法:采用25%浓度的NaOH液碱,对苯乙腈原料进行水解反应;

    Method : Use 25 % concentration NaOH liquid alka - li , hydrolysis the mandelonitrile materials .

  3. BP神经网络在油脂亚临界水解反应中的应用

    Application of BP neural network in subcritical hydrolysis of oil

  4. Na2SnF6水解反应的高温高压实验方法研究

    A study on the experimental method of na_2snf_6 hydrolysis reaction in hydrothermal solutions

  5. 本文对双甲脒在不同pH的缓冲溶液中的水解反应进行了研究。

    In this paper , the . hydrolytic reactions of amitraz in the buffer solution at different pH values are studied .

  6. 在甲醇溶液中木瓜蛋白酶催化酪蛋白水解反应的最适pH为8.5,最适温度为70℃;

    The optimum pH of methanol solution was 8.5 and the optimum temperature was 70 ℃ for catalytic activity of papain .

  7. γ-Al2O3催化剂上羰基硫水解反应本征及宏观动力学研究

    A study of the intrinsic and macroscopic kinetics of COS hydrolysis over γ - al_2o_3 catalyst

  8. 碱改性γ-Al2O3催化剂上羰基硫的低温水解反应Ⅰ.催化剂活性及补偿效应

    Carbonyl sulfide hydrolysis on alkalized y-a_2o_3 catalyst at lower temperature ⅰ . catalyst activity and compensation effect

  9. 采用脉冲法测定了蔗糖水解反应在连续搅拌釜式反应器内的停留时间分布,求得了停留时间分布密度函数E(t)、平均停留时间以及模型参数。

    Residence time distribution for sugar hydrolysis reaction in a contineous flow stirred tank reactor was m : asured by pulse input method .

  10. 对硝基苯酚丙酸酯水解反应的CTAB胶团催化作用

    An Investigation on the CTAB Micelle Catalytic Hydrolysis of p Nitrophenyl Propionate

  11. La-Al/堇青石蜂窝状催化剂上COS的水解反应

    Reaction of COS Hydrolysis over La-Al / Cordierite Honeycomb Catalyst

  12. NBO分析表明水合反应能使Cd钝化,而水解反应则可以活化Cd。

    According to the NBO analysis , hydration can passivate Cd while hydrolysis can activate Cd . 2 .

  13. 钙诱发乳腺癌细胞G1期调节蛋白的水解反应及其差异的观察

    Observation of proteolysis of G1 phase regulatory proteins in breast tumor cells induced by calcium

  14. 确定了水解反应的最佳条件:氯化亚铜作催化剂,于130℃反应4h。

    Hydrolysis was carried out with cuprous chloride as catalyst at130 ℃ for4 h.

  15. 以5甲基2氨基吡啶为起始原料,通过重氮盐水解反应,合成了5甲基2(1H)吡啶酮,并对其合成工艺进行了研究,其结构经IR确证。

    5-Methyl-2 ( 1H ) - pyridone was synthesized by hydrolyzation of diazonium salt of 2-amino-5-methylpyridine and its structure was characterized by IR .

  16. Na2SiF6水解反应的机理研究表明pH对水解反应影响很大,是调控白炭黑结构与性能的重要因素;

    The research about hydrolysis reaction of Na_2SiF_6 shows that the effect of pH is very large on it and pH is important factor deciding silica ′ s structure and properties .

  17. 探讨了初始原料SIA的选择性水解反应。

    Regioselective hydrolysis of SIA at C-14 position was explored .

  18. 结果表明,水解反应的适宜温度为90℃,水解剂为NaOH。

    The experimental results showed that the suitable temperature for hydrolysis was 90 ℃ and the suitable hydrolytic reagent was NaOH .

  19. 动力学控制的PGA催化的合成反应面临的主要障碍是伴随着的水解反应,因此,合成/水解比常作为合成过程有效性的指标。

    Therefore , synthesis / hydrolysis ratio is often regarded as an effective index for the synthetic process .

  20. CTAB胶束溶液对正脂肪酸乙酯碱性水解反应的催化动力学行为研究

    Study on the Catalytic Kinetics of Basic Hydrolysis of Ethyl Esters of Normal Aliphatic Acids in CTAB Aqueous Micelle Solution

  21. 本文综述了化学核酸酶的研究新进展。讨论了化学核酸酶模型催化磷酸酯的水解反应,DNA和RNA的裂解和水解等反应,并对它催化各类反应的作用机制进行了评述。

    The recent advance in chemical nuclease is reviewed , and the mechanisms of hydrolysis or cleavage of phosphate ester . DNA and RNA catalyzed by chemical nuclease are discussed by the way .

  22. 水解反应机理用三角双锥(TBP)中间体概念得到合理解释。

    These hydrolysis mechanisms can be satisfactorily explained in the light of trigonal bipyramidal ( TBP ) intermediates concept .

  23. 考察了温度对FSIA水解反应的影响,发现温度对于水解反应是正效应,不同的pH值,温度的正效应不同,pH越低,温度的正效应越大。

    The result shows that effects of temperature on FSIA hydrolysis is positive , and this positive effect is different at different pH value .

  24. 以邻位取代的苯胺为原料,经Michael加成、水解反应、Friedel-Crafts反应、N-烷基化反应、醛酮缩合等反应合成了15个目标化合物。

    Starting from ortho-substituted aniline , 15 target compounds were synthesized via Michael addition , hydrolysis , Friedel-Crafts , N-alkylation , and Claisen-Schimidt condensation .

  25. 含聚醚链的Schiff碱锰(III)配合物在胶束溶液中催化BNPP水解反应的研究

    Study of the BNPP Hydrolysis Catalyzed by the Schiff Base Magnesium ( III ) Complexes Bearing Polyether Side Chains in the Micelle Solution

  26. 水解反应温度120℃:反应时间0.5h;

    Hydrolyzation reaction temperature was 120 ℃;

  27. 泛素羧基端水解酶UCH家族水解反应动力学研究

    Study on the Activity and Kinetics of Ubiquitin C-terminal Hydrolase

  28. 并通过商品脂肪酶(Candidarugosalipase)及芽孢杆菌E-53脂肪酶催化的萘普生甲酯的不对称水解反应得到了证实。

    They were experimentally verified by the commercial preparation lipase ( Candida rugosa ) and Bacillus E 53 lipase catalyzed asymmetric hydrolysis of racemic naproxen methyl ester .

  29. 采用连续搅拌釜式反应器(continuousstirredtankreactor简称CSTR)在常压、30~60℃的温度范围内,对醋酸酐水解反应的宏观动力学进行了探讨。

    The main object of this paper is to study the kinetics of the reaction of acetic anhydride hydrolysis in Continuous Stirred Tank Reactor and at the temperature ranging from 30 to 60 ℃ and 1 atm .

  30. 适当地增加循环流量,可以减轻水解反应器的酸化程度,避免挥发性脂肪酸(VFA)的积累对水解微生物的活性产生抑制。

    Increase in recycling flux would alleviate acidification degree in the hydrolytic reactor and decrease volatile fatty acids ( VFA ) accumulation .