利用活性炭分离去乙酰基头孢菌素C 被引量：1

Isolation of desacetyl cephalosporin C by activated carbon

下载PDF

导出

摘要利用粉状活性炭为吸附剂，处理头孢菌素C生产过程中的废弃液，实现了去乙酰头孢菌素C（DCPC）和头孢菌素C（CPC）及其他杂质的有效分离．以乙醇-水和异丙醇水体系作为洗脱剂，得到纯度80％的DCPC溶液．乙醇-水体系收率可达75％，异丙醇-水体系收率可达80％．实验表明，15％乙醇-水和15％异丙醇水体系分离效果较差；10％乙醇水和10％异丙醇-水体系洗脱力较弱；12％～13％乙醇水和12％～13％异丙醇水体系的洗脱和分离效果较好；13％异丙醇-水体系优于13％乙醇水体系。 The effective separation of desacetyl cephalosporin C（DCPC） from cephalosporin C（CPC） and other impurities was achieved by using the powdery activated carbon as an adsorbent to deal with the waste drainage from the current process for CPC production. By eluting the carbon cake with ethanol-water system or isopropanol water system, a DCPC solution of 80% purity was obtained. The yield for ethanolwater system was 75 %, and that for isopropanol-water system could reach 80 %. The experiments showed that separation was not good by eluting the adsorbent with 15% ethanol solution or 15% isopropanol solution, and 10% ethanol solution or 10% isopropanol solution was weak in elution. The good results of elution and separation were obtained by using 12%- 13% ethanol solution or 12%-13% isopropanol solution; furthermore, 13% isopropanol solution had a better effect than 13% ethanol solution.

作者于海军陈立功赵子荐董荣梅谭清钟

机构地区天津大学化工学院河北中润制药有限公司

出处《化工学报》 EI CAS CSCD 北大核心 2006年第2期331-335,共5页 CIESC Journal

关键词粉状活性炭去乙酰头孢菌素C 乙醇-水异丙醇-水 powdery activated carbon desacetyl cephalosporin C（DCPC） ethanol-water isopropanolwater

分类号 TQ028.8 [化学工程] TQ460.64 [化学工程—制药化工]

引文网络
相关文献

参考文献8

1Diez B,Mellado E,Rodríguez M,Fouces R,Barred J L.Recombinant microorganisms for industrial production of antibiotics.Biotechnol.& Bioeng.,1997,55(1):216-226
2王益民,陈昶.大孔吸附树脂法分离7－氨基头孢烷酸和头孢菌素C的条件探索[J].中国抗生素杂志,1995,20(4):278-281. 被引量：3
3Lee J W,Park H C,Moon H.Adsorption and desorption of cephalosporin C on nonionic polymeric sorbents.Separation and Purification Technology,1997,12:1-11
4Yamanaka H,Chiba T,Kawabata K,Takasugi H,Masugi T,Takaya T.Studies on β-lactam antibiotics(Ⅸ):Synthesis and biological activity of a new orally active cephalosporin,cefixime (FK027).J.Antibiotics,1985,38(12):1738-1751
5Gonz(a)lez M,Rodríguez Z,Tolón B,Rodríguez J C,Velez H,Valdés B,López M A,Fini A.An alternative procedure for preparation of cefdinir.IL Farmaco,2003,58:409-418
6Kamachi H,Narita Y,Okita T,Abe Y,Iimura S,Tomatsu K,Yamasaki T,Okumura J,Naito T,Oki T,Kawaguchi H.Synthesis and biological activity of a new cephalosporin,BMY-28232 and its prodrug-type esters for oral use.J.Antibiotics,1988,41(11):1602-1615
7Naito T,Aburaki S,Kamachi H,Narito Y,Okumura J,Kawaguchi H.Synthesis and structure-activity relationship of a new series of cephalosporins,BMY-28142 and related compounds.J.Antibiotics,1986,36(8):1092-1107
8Gu Juefen(顾觉奋),Wang Luyan(王鲁燕),Ni Mengxiang(倪孟祥).Antibiotic(抗生素).Shanghai:Shanghai Scientific & Technical Publishers,2001:144-145

共引文献2

1于海军,陈立功,耿海波,赵子荐.去乙酰头孢菌素C的分离纯化[J].化工学报,2010,61(1):91-98. 被引量：2
2李丽娅,崔嵘,乔春明.溶媒法或喷雾干燥法制备头孢菌素C钠盐[J].中国抗生素杂志,2003,28(9):571-571. 被引量：2

同被引文献22

1王益民,陈昶.大孔吸附树脂法分离7－氨基头孢烷酸和头孢菌素C的条件探索[J].中国抗生素杂志,1995,20(4):278-281. 被引量：3
2于海军,白国义,李阳,闫喜龙,陈立功.两步酶法制备去乙酰基7-氨基头孢烯酸[J].精细化工,2006,23(7):667-670. 被引量：3
3Diez B, Mellado E, Rodriguez M, Fouces R, Barred J L. Recombinant microorganisms for industrial production of antibiotics. Biotechnol. & Bioeng. , 1997, 55 ( 1 ): 216-226.
4Yamanaka H, Chiba T, Kawabata K, Takasugi H, Masugi T, Takaya T. Studies on β-lactam antibiotics ( Ⅸ ) : Synthesis and biological activity of a new orally active cephalosporin, cefixime (FK027). J. Antibiotics, 1985,38 (12): 1738- 1751.
5Kunmar H V, Ramesh D, Mohan K J. Process for the preparation of cefuroxime: US, 6235896. 2001.
6Chennai P B D, Chennai P N D, Chennai B P K, et al. Process for the preparation of cefuroxime sodium: US, 0092735A1. 2004.
7Naito T, Aburaki S, Kamachi H, Narito Y, Okunmra J, Nawaguchi H. Synthesis and structure activity relationship of a new series of cephalosporins, BMY- 28142 and related compounds. J. Antibiotics, 1986, 39 (8): 1092-1107.
8Pavia E S, Rozzano W C, Concorezzo D M T, et al. Process for the preparation of beta- lactam derivatives: US, 0004336A1. 2003.
9Wildfeuer M E. Aqueous acetylation of desacetyl glutaryl 7-aminocephalosporanic acid (7ACA) and speculation on the origin of desacetyl cephalosporin C in fermentation broth. J. Antibiotics, 1994, 47 (1): 64- 71.
10Totsuka K, Shimizu K, Konishi M. Metabolism of S-1108, a new oral cephem antibiotic, and metabolic profiles of its metabolites in humans. Antimicrob. Agents Chemother., 1992, 36:757 -761.

引证文献1

1于海军,陈立功,耿海波,赵子荐.去乙酰头孢菌素C的分离纯化[J].化工学报,2010,61(1):91-98. 被引量：2

二级引证文献2

1蔡邦肖,夏仙兵.海带工业中甘露醇的纳滤膜渗滤纯化(Ⅰ) 纳滤提取甘露醇的机理与实践[J].化工学报,2010,61(11):2843-2848. 被引量：3
2徐燕,冯涛,储炬.利用CRISPR/Cas9系统构建低DCPC杂质含量的CPC工业高产菌种[J].华东理工大学学报（自然科学版）,2021,47(4):427-437. 被引量：1

1于海军,陈立功,耿海波,赵子荐.去乙酰头孢菌素C的分离纯化[J].化工学报,2010,61(1):91-98. 被引量：2
2两步酶法制备去乙酰基7-氨基头孢烯酸[J].化工中间体,2007(2):37-38.
3鲍建芝,李杰,卢华,陈尧,周天舒,张立平,韩培胜,张晓艳.头孢菌素C发酵液可压缩性及膜分离工艺研究[J].膜科学与技术,2010,30(5):77-79.
4于海军,白国义,李阳,闫喜龙,陈立功.两步酶法制备去乙酰基7-氨基头孢烯酸[J].精细化工,2006,23(7):667-670. 被引量：3
5周天舒,李杰,秘彦坤,张晓艳.头孢菌素C发酵液可压缩性及膜分离的工艺研究[J].广州化工,2009,37(6):128-129.
6赵梦清,于桂花,张波,鲍建芝,马文婵,鲍桂荣.大孔吸附树脂对头孢菌素C的吸附动力学研究[J].河北工业科技,2008,25(2):76-78. 被引量：2
7李晓东,王志军,纪峰,李金库.粉状活性炭在水处理工艺的应用[J].城镇供水,1999(3):8-10. 被引量：1
8卜欣立,王玉环,尚平.高黏度头孢菌素C发酵液的超滤研究[J].河北化工,2007,30(11):46-47.
9康辉,于洁茹,马文婵.XAD-1600树脂在头孢菌素C提取过程中的应用[J].河北化工,2008,31(4):38-40. 被引量：1
10鲍建芝,李杰,张晓艳,陈尧,曹云峰,卢华,安志强,董荣梅.头孢菌素C发酵液流变特性的研究[J].中国抗生素杂志,2006,31(7):392-394. 被引量：7

化工学报

2006年第2期

浏览历史

内容加载中请稍等...