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文章编号: 1672-6987(2024)04-0028-08; DOI: 10.16351/j.1672-6987.2024.04.004
袁金秋, 金思毅*, 杜蕾(青岛科技大学 化工学院,山东 青岛 266042)
摘要: 研究以传统的苯酐法生产糖精过程为基础,对糖精生产工艺中的氨化反应,采用去甲苯的工艺条件,用环保溶剂水替代有机溶剂。在单因素优化的基础上,通过响应面优化法,建立相关的实验模型,分析了对反应影响较大的温度、配比和反应时间等参数之间的交互作用的影响以及对产品收率的影响。经优化后的最佳的工艺条件为n(氨水)∶n(2-甲氧羰基苯磺酰氯)=4∶1,反应温度为 7394 ℃,反应时间为3180 min,此条件下糖精收率为8885%。优化后的工艺条件不仅减少了甲苯等有机溶剂在生产过程中的风险,而且新生产工艺的反应条件温和相比与甲苯溶剂下的生产条件收率也有所提高。
关键词: 氨化反应; 响应面分析法; 工艺优化; 清洁生产
中图分类号: TQ 207+.2文献标志码: A
引用格式: 袁金秋, 金思毅, 杜蕾. 响应面法优化糖精生产新工艺及产物分析[J]. 青岛科技大学学报(自然科学版), 2024, 45(4): 28-35.
YUAN Jinqiu, JIN Siyi, DU Lei. Optimization of new process and product analysis of saccharin production by response surface methodology[J]. Journal of Qingdao University of Science and Technology(Natural Science Edition), 2024, 45(4): 28-35.
Optimization of New Process and Product Analysis of Saccharin
Production by Response Surface Methodology
YUAN Jinqiu, JIN Siyi, DU Lei
(College of Chemical Engineering, Qingdao University of Science and Technology, Qingdao 266042, China)
Abstract: The study was based on the traditional process of producing saccharin by the phthalic anhydride method, and the ammonification reaction in the saccharin production process was carried out by using the process conditions of de-toluenization and replacing organic solvents with environmentally friendly solvent water. Based on the single-factor optimization, a relevant experimental model was established by response surface optimization method to analyze the degree of influence of the interaction between parameters such as temperature, proportioning and reaction time, which have a large influence on the reaction, and the effect on the product yield. The optimized process conditions were n(ammonia)∶n(2-methoxycarbonylbenzenesulfonyl chloride)=4∶1, the reaction temperature was 7394 ℃, the reaction time was 3180 min, and the yield of saccharin was 8885% under this condition. The optimized process conditions not only reduced the risk of organic solvents such as toluene in the production process, but also improved the yield under mild reaction conditions compared with the production conditions under toluene solvent.
Key words: ammoniation reaction; response surface analysis; process optimization; cleaner production
收稿日期: 2023-05-26
基金项目: 重质油国家重点实验室开放基金项目(SKLOP201603003).
作者简介: 袁金秋(1999—),男,硕士研究生.*通信联系人.
