Effect of biomass addition on the surface and adsorption characterization of carbon-based adsorbents from sewage sludge 被引量：11

Effect of biomass addition on the surface and adsorption characterization of carbon-based adsorbents from sewage sludge

原文传递

导出

摘要 Sewage sludge with the additive corn cob was used as prescusor to prepare sludge-based carbon adsorbents by pyrolysis method. And then, the carbonizated products were activated with potassium hydroxide. The mixing ratio of the corn cob to sewage sludge was investigated. The surface area and pore size distribution, elemental composition, surface chemistry structure and the surface physical morphology were determined and compared. The results demonstrated that the addition of corn cob into the sewage sludge sample could effectively improve the surface area （from 287 to 591 m 2 /g） and the microporosity （from 5% to 48%） of the carbon based adsorbent, thus enhancing the adsorption behavior. The sulfur dioxide adsorption capacity was measured according to breakthrough test. It was found that the sulfur dioxide adsorption capacity of the adsorbents was obviously enhanced after the addition of the corn cob. It is presumed that not only highly porous adsorbents, but also a high metallic content of these materials are required to achieve good performances. Sewage sludge with the additive corn cob was used as prescusor to prepare sludge-based carbon adsorbents by pyrolysis method. And then, the carbonizated products were activated with potassium hydroxide. The mixing ratio of the corn cob to sewage sludge was investigated. The surface area and pore size distribution, elemental composition, surface chemistry structure and the surface physical morphology were determined and compared. The results demonstrated that the addition of corn cob into the sewage sludge sample could effectively improve the surface area （from 287 to 591 m 2 /g） and the microporosity （from 5% to 48%） of the carbon based adsorbent, thus enhancing the adsorption behavior. The sulfur dioxide adsorption capacity was measured according to breakthrough test. It was found that the sulfur dioxide adsorption capacity of the adsorbents was obviously enhanced after the addition of the corn cob. It is presumed that not only highly porous adsorbents, but also a high metallic content of these materials are required to achieve good performances.

作者 Changzi Wu Min Song Baosheng Jin Yimin Wu Yaji Huang

机构地区 Key Laboratory of Energy Thermal Conversion and Control

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2013年第2期405-412,共8页 环境科学学报（英文版）

基金 supported by the National Hi-Tech Research and Development Program (973) of China (No.2011CB201505, 2010CB732206) the National Natural Science Foundation of China (No.20907008) the Specialized Research Fund for the Doctoral Program of Higher Education (No.20090092120010) support of the Foundation for Southeast University Excellent Young Teacher

关键词 sewage sludge activated carbon biomass SO2 adsorption porosity sewage sludge activated carbon biomass SO2 adsorption porosity

分类号 X703 [环境科学与工程—环境工程]

引文网络
相关文献

参考文献35

1Ahmadpour A, Do D D, 1996. The preparation of active carbons from coal by chemical and physical activation. Carbon, 34(4): 471-479.
2Ahmedna M, Marshall W E, Rao R M, 2000. Production of granular activated carbons from select agricultural by-products and evaluation of their physical, chemical and adsorption properties. Bioresource Technology, 71(2): 113-123.
3Bagreev A, Bashkova S, Locke D C, Bandosz T J, 2001. Sewage sludge-derived materials as efficient adsorbents for removal of hydrogen sulfide. Environmental Science and Technology, 35(7): 1537-1543.
4Bagreev A, Bandosz T J, 2004. Efficient hydrogen sulfide adsorbents obtained by pyrolysis of sewage sludge derived fertilizer modified with spent mineral oil. Environmental Science and Technology, 38(1): 345-351.
5Bagreev A, Bashkova S, Bandosz T J, 2002. Adsorption of SO2 on activated carbons: the effect of nitrogen functionality and pore sizes. Langmuir, 18(4): 1257-1264.
6Bashkova S, Bagreev A, Locke D C, Bandosz T J, 2001. Adsorption of SO2 on sewage sludge-derived materials. Environmental Science and Technology, 35(15): 3263-3269.
7Cao Q, Xie K C, Lü Y K, Bao W R, 2006. Process effects on activated carbon with large specific surface area from corn cob. Bioresource Technology, 97(1): 110-115.
8Carabineiro S A C, Ramos A M, Vital J, Loureiro J M, \\'{O}rfào J J M, Fonseca I M, 2003. Adsorption of SO2 using vanadium and vanadium-copper supported on activated carbon. Catalysis Today, 78(1-4): 203-210.
9Cha J S, Choi J C, Ko J H, Park Y K, Park S H, Jeong K E et al., 2010. The low-temperature SCR of NO over rice straw and sewage sludge derived char. Chemical Engineering Journal, 156(2): 321-327.
10Chen X G, Jeyaseelan S, Graham N, 2002. Physical and chemical properties study of the activated carbon made from sewage sludge. Waste Management, 22(7): 755-760.

同被引文献153

1任爱玲,王启山,贺君.城市污水处理厂污泥制活性炭的研究[J].环境科学,2004,25(S1):48-51. 被引量：78
2高赛男,王俊儒,黄翔峰,关炜,陆丽君,刘佳.采油废水生物法处理出水活性炭吸附试验研究[J].环境科学与技术,2010,33(12):56-61. 被引量：11
3李刚,李伟光,王广智,李鑫,公绪金.污泥基活性炭的制备、表征及其应用[J].环境工程,2012,30(S2):489-493. 被引量：8
4石太宏,陈坚,温颖宏,刘阳,邹书剑,童立志,赵程远.污泥活性炭的制备及其用于重金属废水处理的研究进展[J].给水排水,2009,35(S1):288-292. 被引量：9
5王刚.国内外污泥处理处置技术现状与发展趋势[J].环境工程,2013,31(S1):530-533. 被引量：34
6王家宏,张迪,尹小龙,刘少冲.污泥活性炭的制备及其对酸性红G的吸附行为[J].环境工程学报,2015,9(1):58-64. 被引量：14
7何莹,舒威,廖筱锋,尤太阳,廖利.污泥-秸秆基活性炭的制备及其对渗滤液COD的吸附[J].环境工程学报,2015,9(4):1663-1669. 被引量：22
8庄明龙,柴立元,闵小波,唐宁,龙腾发.改性污泥处理含铍废水的吸附特性研究[J].应用化工,2005,34(1):25-27. 被引量：8
9陈仁辉,邵素华.活性炭的无机成分──活性炭的无机成分对其制造过程和性能的影响[J].炭素,1995(3):28-35. 被引量：11
10余兰兰,钟秦,冯兰兰.剩余污泥制备活性炭吸附剂及其应用研究[J].安全与环境学报,2005,5(4):39-42. 被引量：48

引证文献11

1张瑜,王雪梅,季宏兵.污泥活性炭的热解制备及应用研究进展[J].化工新型材料,2022,50(S01):109-116. 被引量：4
2牛志睿,刘羽,郭博,李大海,朱延强.污泥基活性炭制备及影响因素研究[J].环境卫生工程,2014,22(1):37-41. 被引量：3
3刘羽,陈迁,牛志睿,汪仙仙,雷耀和,杨孔阳.花生壳基污泥活性炭的制备及其对含油废水的处理效果研究[J].环境污染与防治,2016,38(9):43-47. 被引量：16
4刘羽,侯庆林,牛志睿.污泥基活性炭的制备及表征[J].陕西科技大学学报（自然科学版）,2016,34(5):99-102. 被引量：2
5蔡金玲,李德良,李二平,胡晴,陈浩云.污泥-水稻秸秆复合活性炭的制备工艺与结构表征[J].广东农业科学,2017,44(10):32-39. 被引量：5
6张镭,刘俊新,郑天龙,郭雪松.利用污泥制备水处理吸附剂的研究进展[J].工业用水与废水,2018,49(1):1-6. 被引量：8
7张俊杰,邵敬爱,黄河洵,安瑞,金前争,张世红,陈汉平.利用污泥制备活性炭及其吸附特性的研究进展[J].化工进展,2017,36(10):3876-3886. 被引量：18
8董智伟,左宁,王彦,周昱伟,陈芳媛.热解污泥生物炭化学组成及环境效应研究进展[J].环境污染与防治,2019,41(4):479-484. 被引量：14
9李亚飞,杨毅,王一博,张亚楠,陈元,熊慧玲.污泥复合玉米芯碳化吸附剂对Pb^(2+)的吸附特性[J].应用化工,2021,50(5):1211-1217. 被引量：2
10张瑞.生物炭的制备及其活化过硫酸盐的应用进展[J].农业与技术,2021,41(18):108-110. 被引量：4

二级引证文献92

1韩彩云,张晶宇,欧阳云,席劲瑛,丁永伟,陈鹏.利用污泥吸附硫化物控制H_(2)S排放的试验研究[J].给水排水,2020(S01):186-191. 被引量：1
2张瑜,王雪梅,季宏兵.污泥活性炭的热解制备及应用研究进展[J].化工新型材料,2022,50(S01):109-116. 被引量：4
3汪爱河,张纯,张伟,胡成文.硫酸活化市政污泥吸附Pb^(2+)[J].环境工程学报,2015,9(6):2887-2892. 被引量：3
4姚志昌,徐茂锋,杨志伊.振动用加速度传感器性能的测试与分析[J].中国设备管理,2000(5):39-40.
5盛蒂,朱兰保,丁燕兰.微波法污泥活性炭的制备技术研究[J].西南民族大学学报（自然科学版）,2015,41(1):40-44. 被引量：6
6曹冬梅,张伟,杜国辉,姜海英,谢巍.响应面分析法优化复方益母草口服液提取工艺研究[J].河北中医药学报,2015,30(3):44-46. 被引量：1
7王崇均,彭怡,谭雪梅,丁社光,陈盛明,卢鹏,傅敏.低有机质剩余污泥微波法制备活性炭及其吸附性能研究[J].西南师范大学学报（自然科学版）,2016,41(1):159-163. 被引量：4
8刘羽,陈迁,牛志睿,汪仙仙,雷耀和,杨孔阳.花生壳基污泥活性炭的制备及其对含油废水的处理效果研究[J].环境污染与防治,2016,38(9):43-47. 被引量：16
9牛志睿,汤睿,刘羽,徐样,刘乐,艾思秀.废旧Zn-C电池-活性污泥炭优化制备的研究[J].环境科学学报,2016,36(9):3292-3299. 被引量：4
10刘羽,侯庆林,牛志睿.污泥基活性炭的制备及表征[J].陕西科技大学学报（自然科学版）,2016,34(5):99-102. 被引量：2

1陆继东,华玉龙,孙路石,邓曙天.污水污泥的燃烧特性[J].燃烧科学与技术,2001,7(3):271-274. 被引量：19
2乔华.利用污水污泥制取吸附剂[J].西南给排水,1993(1):35-38.
3傅若农.气相色谱中碳固定相的演变[J].化学试剂,2015,37(1):1-7. 被引量：3
4华玉龙,陆继东,孙路石,邓曙天,李辉,曾振平.污水污泥的燃烧特性[J].燃料化学学报,2000,28(6):542-545. 被引量：5
5Hui ZHANG,Le XU,Yifei ZHANG,Mengchan JIANG.The transformation of PAHs in the sewage sludge incineration treatment[J].Frontiers of Environmental Science & Engineering,2016,10(2):336-340. 被引量：2
6闻振涛,万颖.有序介孔碳吸附剂的研究进展[J].化学世界,2011,52(7):434-436. 被引量：4
7陈鹏,胡相红,陈超,谷锦,陈勇.负载型TiO_2光催化剂研究进展[J].材料开发与应用,2013,28(4):117-124. 被引量：12
8崔秀文.制取碳质吸附剂的原料及主要方法[J].国外炼焦化学,1996,15(5):318-320.
9宋燕,凌立成,等.超级活性炭的制备和结构及其性能研究进展[J].煤炭转化,2001,24(3):27-31. 被引量：29
10陆益民,梁世强.活性炭纤维在催化领域中的应用[J].合成纤维工业,2005,28(2):51-54. 被引量：12

Journal of Environmental Sciences

2013年第2期

浏览历史

内容加载中请稍等...

Effect of biomass addition on the surface and adsorption characterization of carbon-based adsorbents from sewage sludge 被引量：11

参考文献35

同被引文献153

引证文献11

二级引证文献92

相关作者

相关机构

相关主题

浏览历史