对羟基苯甲酸丙酯的强酸性阳离子交换树脂催化合成研究

以对羟基苯甲酸和正丙醇为原料，强酸性阳离子交换树脂为催化剂，经过回流脱水酯化法直接合成对羟基苯甲酸丙酯。探讨了反应温度、反应时间、原料配比、催化剂用量等条件对合成反应的影响。得到的最佳合成工艺条件为：对羟基苯甲酸用量为0.1mol的前提下，反应温度85-90℃、反应时间2.5h、丙醇与对羟基苯甲酸的摩尔比为3.0∶1、催化剂用量为反应物料总质量的2.0%，此时反应的酯化率为97.5%。催化剂不经处理可循环使用多次，而且具有价格低廉、催化活性好、不腐蚀设备、无环境污染等优点。

乙酸甲酯催化精馏水解工艺研究

采用阳离子交换树脂为催化剂 ,研究了乙酸甲酯催化精馏水解工艺。反应区充填离子交换树脂催化剂捆束包 ,提馏段充填Mo Ti金属板波纹丝网填料。在小试、中试 (塔径为 2 0 0mm)和工业化 (塔径为1 0 0 0mm)实验中 ,系统地研究了水酯摩尔比、回流进料比和空速对酯分解率和分解液中酸水质量比的影响 ,获得不改变现有聚乙烯醇生产中乙酸甲酯分解回收工艺流程的最佳分解率为 50 %— 60 % ,由此导致比原工艺节能约 30

重组毕赤酵母中腺苷甲硫氨酸的纯化

腺苷甲硫氨酸(S-Adenosy-L-methionine,SAM)是人体中重要的中间代谢物,具有重要的生理功能。从重组毕赤酵母中生产SAM是一个有应用潜力的方式。该研究报道了一个完整的从具有重组SAM合成酶的毕赤酵母中纯化SAM的工艺。首先利用1 mol/L乙酸乙酯和1 mol/L硫酸的混合溶液破碎细胞,然后利用弱酸性阳离子大孔树脂吸附SAM,最后以流速为0.2 m L/min的100 mmol/L的硫酸洗脱SAM。SAM的收率达到80.03%,纯度为92%。

Kinetic modeling of adsorption of vanadium and iron from acid solution through ion exchange resins

This study assessed the adsorption process and the reaction kinetics involved in the selective recovery of vanadium from an acid solution containing iron as an impurity.Four commercial resins were studied:Lewatit^(®)MonoPlus TP 209 XL,Lewatit^(®) TP 207,Dowex^(TM)M4195(chelating resin)and Lewatit^(®) MonoPlus S 200 H(strong cationic exchange resin).To investigate the effect of time on the adsorption process,batch experiments were carried out using the following initial conditions:pH 2.0,298 K,and a proportion of 1 g of resin to 50 mL of solution.The variation of pH over time was analyzed.Chelating resin released less H+ions as the adsorption occurred,resulting in a lower drop of pH when compared to S 200 H resin.Ion adsorption by the resins was also evaluated through FT-IR and SEM−EDS before and after the experiments.Among the evaluated kinetic models(pseudo-first order,pseudo-second order,Elovich and intraparticle diffusion models),the pseudo-second order model best fits the experimental data of the adsorption of vanadium and iron by all of the four resins.M4195 resin showed the highest recovery of vanadium and the lowest adsorption of iron.Kinetic data,which are fundamental to industrial processes applications,are provided.

STUDY ON CONTINUOUS ELECTROREGENERATION OF ION EXCHANGE RESIN

In this Paper, the continuous electroregeneration of ion exchange resin is investegated. The mixed resin is inserted between a canon exchange membrane and an auto n exchange membrane. The effuent water of fresh water room meets the demand for power plant on water treatment. The B_2 that is the cumulative formation constant of the metal complexes of resin is very differente with or without electric fied. It indicates that the dissociation degree of metal complexes of resin is greater hath electric field than that without electric field.