磁性瓜子壳基活性炭的制备及其吸附研究
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摘要
以瓜子壳为原料,磷酸为活化剂,通过微波法制备出具有高吸附效率的活性炭,与四氧化三铁结合成磁性活性炭粒子,研究活化温度、磷酸浓度、浸渍比、微波时间对活性炭吸附性能的影响,通过XRD、红外光谱对其外貌与官能团进行分析,通过吸附等温线、吸附动力学探讨了其机理。结果表明,最佳制备活性炭的工艺条件为:活化温度120℃,浸渍比4 g/15 m L,磷酸浓度20%,微波时间25 min,测得其碘吸附值为887. 349 mg/g,亚甲基蓝吸附量70 mg/g,磁性活性炭最佳碳/四氧化三铁为60%。红外谱图显示四氧化三铁与活性炭之间通过油酸相结合,有大量的羧酸基团。吸附等温线与吸附动力学表明,磁性活性炭粒子为均匀单层化学吸附。
Activated charcoal was used as raw material and phosphoric acid as activator. Activated carbon with high adsorption efficiency was prepared by microwave method. It was combined with Fe3 O4 to form magnetic activated carbon particles,the influence of activation temperature,phosphoric acid concentration,impregnation ratio and microwave time on activated carbon adsorption preformance were studied. The appearance and functional groups were analyzed by XRD and infrared spectroscopy,and the mechanism was explored through adsorption isotherms and adsorption kinetic models. The result showed that the optimum conditions were as follows: activation temperature 120 ℃,impregnation ratio 4 g/15 m L,phosphoric acid concentration 20%,microwave time 25 min,and iodine adsorption value 887. 349 mg/g. The methylene blue adsorption amount was 70 mg/g. The best carbon/iron tetroxide for magnetic activated carbon is60%. According to the infrared spectrum,triiron tetraoxide and activated carbon are combined by oleic acid,and there are a large number of carboxylic acid groups. The adsorption isotherm and adsorption kinetics showed that the magnetic activated carbon particles were homogeneous monolayer chemical adsorption.
Activated charcoal was used as raw material and phosphoric acid as activator. Activated carbon with high adsorption efficiency was prepared by microwave method. It was combined with Fe3 O4 to form magnetic activated carbon particles,the influence of activation temperature,phosphoric acid concentration,impregnation ratio and microwave time on activated carbon adsorption preformance were studied. The appearance and functional groups were analyzed by XRD and infrared spectroscopy,and the mechanism was explored through adsorption isotherms and adsorption kinetic models. The result showed that the optimum conditions were as follows: activation temperature 120 ℃,impregnation ratio 4 g/15 m L,phosphoric acid concentration 20%,microwave time 25 min,and iodine adsorption value 887. 349 mg/g. The methylene blue adsorption amount was 70 mg/g. The best carbon/iron tetroxide for magnetic activated carbon is60%. According to the infrared spectrum,triiron tetraoxide and activated carbon are combined by oleic acid,and there are a large number of carboxylic acid groups. The adsorption isotherm and adsorption kinetics showed that the magnetic activated carbon particles were homogeneous monolayer chemical adsorption.
引文
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[10] Angela Leao Andrade,Luis Carlos Duarte Cavalcante,Jose Domingos Fabris,et al. Preparation and characterization of Fe3O4-Pt nanoparticles[J]. Hyperfine Interact,2017,23(8):53.
[2]陈英,张文庆.葵花籽壳生物质活性炭的制备及其吸附研究[J].绵阳师范学院学报,2015,34(8):68-72.
[3]陈丽萍,段毅文,陈艺红,磷酸改性向日葵秸秆对Cr6+的吸附性能[J].化学工程,2010,38(10):114-116.
[4]李慧,胡远卓,徐琼.磷酸活化-微波炭化法制备炭基磺酸及其催化性能研究[J].湖南师范大学自然科学学报,2017,40(6):62-65.
[5]许伟,孙康,缪存标,等.水蒸气活化制备竹质成型活性炭及其对二硫化碳的吸附性能[J].林业工程学报,2018,3(2):40-46.
[6]刘雪梅,檀俊利,林明涛,等.椰壳热解活化制备活性炭及其机理研究[J].安徽农业科学,2017,45(26):140-143.
[7] Phuong Ha-Lien Tran1,Thao Truong-Dinh Tran1,Toi Van Vo1,et al. Promising iron oxide-based magnetic nanoparticles in biomedical engineering[J]. Arch Pharm Res,2012,35(12):2045-2061.
[8] Mohammad Ali,Ghaz-Jahanian,Farzin Abbaspour-Aghdam,et al. Application of chitosan-based nanocarriers in tumor-targeted,drug delivery[J]. Mol Biotechnol,2015,57:201-218.
[9] Wang Xiuping,Cai Aijun,Wen Xiaolei,et al. Graphene oxide-Fe3O4nanocomposites ashigh-performance antifungal agents against plasmoparaviticola[J]. Sci China Mater,2017,60(3):258-268.
[10] Angela Leao Andrade,Luis Carlos Duarte Cavalcante,Jose Domingos Fabris,et al. Preparation and characterization of Fe3O4-Pt nanoparticles[J]. Hyperfine Interact,2017,23(8):53.
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