摘要:该产品为品为抗癫痫的药物、也是抗心律的失常药,治疗癫痫病的首选药物、精神运动性的发作治疗、局部性的发作治疗。也可以用于三叉骨神经疼痛和心律失常的治疗。比较适合于全身强直性阵孪发作、局部性发作等的治疗等。同时也还可以用来控制性障碍发作的机制(包括生气、忧虑、失眠和极度兴奋等疾病的治疗)等。苯妥英钠是比较独特的且专一性强的型抗癫痫药物,具有很好的抗癫痫治疗效果和高安全性,不但可以用作比较困难性抗癫痫的治疗,而且他的应用范围也渐渐拓展到新型诊断抗癫痫的单独治疗,在治疗抗癫痫冰的领域有这非常广泛的运用前景和发展前景。因此苯妥英钠工艺路线优化度的研究广泛受到人们的关注和关心。80995
本设计综述了国内外苯妥英钠的国内外生成现状及进展,分析了现有的装置的优点和不足,然后针对这些不足,结合本课题设计需求,对现在的生产设备工艺进行改进和处理,设计出一条即克服现工艺设备所存在的问题同时经济效益高、安全、环保的新型工艺路线。
毕业论文关键字:苯妥英钠、生产工艺、设备计算、AutoCAD软件
Study on process design of 100 tons
sodium phenytoin
Abstract :The product is an antiepileptic drug[1], antiarrhythmia drug, which is the first choice for treating epilepsy, psychoactive epilepsy treatments and partial epilepsy treatments。 And it can also be used to cured trigeminal neuralgia and arrhythmia。 It is more fit treatment of generalized strong epileptic seizures, partial seizures, etc。 It can also for control the mechanisms of disease (including anger, anxiety, insomnia, and extreme excitement)。 Phenytoin is the unique and specificity of antiepileptic
drugs,antiepileptic treatment effect is good, high safety, not only can be used as a separately difficult to treat epilepsy treatment, its application gradually expanded to new diagnostic antiepileptic antiepileptic application prospect for the treatment of an ice rink, broad prospects for development。 As a result, the study of the optimization of the process line of the biminol process is valued and concerned。 Phenytoin is this design reviewed current production situation and progress The advantages and disadvantages of the existing methods at home and abroad are analyzed and solve these problems according to design requirements, and put forward the production equipment of a processing design is to overcome the existing problems and processing equipment of high economic benefit and safety environmental protection new technology 。
Keywords:Phenytoin, production process, equipment calculation and AutoCAD software
目录
1总论 1
1。1苯妥英钠国内外研究情况 1
1。1。1苯妥英钠国内外研究背景 1
1。1。2苯妥英钠国内外研究进展 1
1。2合成苯妥英钠的路线 2
1。2。1合成路线一 2
1。2。2合成路线二 3
1。2。3结论 3
2苯妥英钠催化剂和苯妥英钠新剂型 4
2。1催化剂 4
2。2新型催化剂 4
2。3苯妥英钠的新剂型 5
3苯妥英钠基本原理及生产工艺流程 6
3。1设计依据及基础资料 6
3。2基本原理