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酸碱溶液改性竹基活性炭生物降解H_2S 被引量:4

Biodegradation of H_2S with modified bamboo activated carbon soaked with alkaline and acid solution
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摘要 对竹基活性炭采用酸、碱溶液浸渍的方法改性,并用化学和表面形态分析等表征方法测试了其改性前后的特性,研究了不同溶液对改性竹基活性炭在微生物挂膜和滴滤塔去除H2S方面的影响。研究结果表明,用10%NaOH溶液改性后的竹基活性炭较未改性的竹基活性炭碱性基团含量增加了0.614 mmol/L,平衡含水率增加了6.08%,碘吸附值增加了29.6 mL/g,这些物化性能的改变更有利于生物竹基活性炭去除H2S。对比5种改性方法对生物降解H2S性能的影响,在H2S入口浓度为150~4 500 mg/m3、循环液喷淋量0.2 L/h、pH 6.5~7.5、气体停留时间66 s的条件下,经NaOH溶液改性后的竹基活性炭,对H2S的去除率达93.4%以上,效果好于其他改性方法的竹基活性炭。 Characteristics of modified bamboo activated carbon (MBAC) soaked with alkaline and acid so- lution were studied. Chemical analysis and surface morphology analysis were used to evaluate the effects of differ- ent solutions on the biofilm MBAC and on removing H2S in the bio-triekling filter. Results showed that the num- ber of basic functional groups, equilibrium moisture content and iodine adsorption of the MBAC treated by 10% NaOH solution increased by 0. 614 mmol/L, 6.08% and 29.6 mL/g, respectively. Changes on physical and chemical properties are more beneficial for the biological MBAC to remove H2S. Comparing performances of the five modified methods on the biodegradation of H2S, the BAC treated by NaOH solution has a better removal rate, higher than 93.4% , under the conditions of H2S inlet concentration of 150 -4 500 mg/m3, spray rate of 0.2 L/h, pH of 6.5 - 7.5, and the gas retention time of 66 s.
出处 《环境工程学报》 CAS CSCD 北大核心 2012年第12期4591-4595,共5页 Chinese Journal of Environmental Engineering
基金 国家自然科学基金资助项目(50174042) 深圳市环境工程咨询中心资助项目
关键词 酸碱溶液 改性 竹基活性炭 H2S acid and alkaline solution modification bamboo activated carbon hydrogen sulfide
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  • 1张翼,付波,马德胜,张妍,高雪,阮琴,于婷.活性炭改性及对生物转盘挂膜性能的影响[J].化工进展,2009,28(11):2063-2067. 被引量:5
  • 2王学谦,宁平,蒋明,李子燕,杨月红.低浓度硫化氢在浸渍活性炭上的吸附及表征[J].武汉理工大学学报,2008,30(11):37-40. 被引量:6
  • 3Huiqi D. , Rong Y. , Lawrence C. C. , et al. Combined effect of adsorption and biodegradation of biological activa- ted carbon on H2S bio-trickling filtration. Chemosphere, 2007,66 ( 9 ) : 1684-1691.
  • 4Chung Yingchien, Lin Yuyen, Tseng Chingping. Removal of high concentration of NH3 and coexistent H S by biologi-cal activated carbon(BAC) bio-trickling filter. Bioresource Technology, 2005,96 ( 16 ) : 1812-1820.
  • 5左宋林,高尚愚,周建斌,胡成文,刘启明.活性炭及基材种类对活性炭成型物性能的影响[J].南京林业大学学报(自然科学版),2000,24(2):55-59. 被引量:6
  • 6国家环保局.空气和废气监测分析方法(第4版).北京:中国环境科学出版社,2003.
  • 7秦悦,张永春,陈绍云.浸渍改性活性炭脱除低浓度H_2S的研究[J].低温与特气,2009,27(4):20-22. 被引量:6
  • 8Mikhalovsky S. V. , Zaitsev Y. P. Catalytic properties of activated carbons I. Gas-phase oxidation of hydrogen sul- phide. Carbon, 1997,35(9) :1367-1374.
  • 9Svetlana Bashkova, Frederick S. , Wu Xianxian, et al. Activated carbon catalyst for selective oxidation of hydro- gen sulphide: On the influence of pore structure, surface characteristics, and catalytically-active nitrogen. Carbon, 2007,45 (6) : 1354-1363.
  • 10Huang Chenchia, Chen Chienhung, Chu Shumin. Effectof moisture on H2S adsorption by copper impregnated acti- vated carbon. Journal of Hazardous Materials, 2004,136 ( 3 ) :866-873.

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