提出并研究了一种煤基活性炭孔径分布的调控方法及调控机理.将煤样与不同质量的KOH混合后炭化,分别对炭化料进行酸洗,以控制其中的钾含量,然后对酸洗料进行蒸汽活化,制成活性炭.通过对所制活性炭进行氮气吸附实验、扫描电镜及能谱分析和吸附能力表征实验后发现:改变KOH加入量和采用质量浓度为5%的盐酸对炭化料进行酸洗,能够改变炭化料中的钾含量;随着KOH含量的提高,活性炭的口发附能力逐渐增强,平均孔径从2.379 nm逐渐增大到2.636nm,同时孔径分布由以微孔为主逐渐向以中孔为主转移,其中孔含量由30.9%提高到46.1%.
An approach to regulating the pore size distribution of coal-based activated carbon was proposed and studied by potassium-catalyzed steam activation. Activated carbons were prepared from coal in the presence of different amounts of KOH in the raw materials, and in the process of which, delicate acid washing was performed to change the amount of K-containing compounds left in chars after carbonization and before steam activation. Then, the activated carbons were characterized by nitrogen adsorption, scanning electron microscopy, and X-Ray energy spectrometry, and their adsorp-tion capacity was determined. Results show that the content of K-containing compounds left in the char can be controlled jointly by changing the amount of KOH added to the precursor and subsequent washing with 5% mass fraction acid after carbonization. With increasing amount of KOH, the adsorption capacity of the resulting activated carbon becomes grea-ter. The average pore size of the activated carbons gradually increases from 2.379 to 2.636nm, and the mesoporosity in-creases from 30.9 to 46.1%. The principles for the regulation of pore size distribution in activated carbon were dis-cussed.
参考文献
| [1] | 解强,丁曙光,乐政.缓慢炭化部分氧化对制备煤质活性炭的影响[J].燃料化学学报,1995(03):242-247. |
| [2] | Kyotani T. .Control of pore structure in carbon[J].Carbon: An International Journal Sponsored by the American Carbon Society,2000(2):269-286. |
| [3] | Elzbieta Frackowiak;Francois Beguin .Carbon materials for the electrochemical storage of energy in capacitors[J].Carbon: An International Journal Sponsored by the American Carbon Society,2001(6):937-950. |
| [4] | Stavropoulos, GG;Zabaniotou, AA .Production and characterization of activated carbons from olive-seed waste residue[J].Microporous and Mesoporous Materials,2005(1/2):79-85. |
| [5] | K. Legrouri;E. Khouya;M. Ezzine;H. Hannache;R. Denoyel;R. Pallier;R. Naslain .Production of activated carbon from a new precursor molasses by activation with sulphuric acid[J].Journal of hazardous materials,2005(1/3):259-263. |
| [6] | Zhonghua Hu;Huimin Guo;Ni Yaming;M.P.Srinivasan .A simple method for developing mesoporosity in activated carbon[J].Separation and Purification Technology,2003(1):47-52. |
| [7] | Ting Yang;Aik Chong Lua .Characteristics of activated carbons prepared from pistachio-nut shells by potassium hydroxide activation[J].Microporous and Mesoporous Materials,2003(1/3):113-124. |
| [8] | 陆安慧,Wolfgang Schmidt,Ferdi Schüth.结构有序、双重孔隙中孔炭材料的合成与表征[J].新型炭材料,2003(03):181-185. |
| [9] | 解强,张香兰,李兰廷,金雷.活性炭孔结构调节:理论、方法与实践[J].新型炭材料,2005(02):183-190. |
| [10] | 侯朝辉,李新海,刘恩辉,何则强,邓凌峰.同步合成模板炭化法制备双电层电容器电极用中孔炭材料的研究[J].新型炭材料,2004(01):11-15. |
| [11] | Shen WZ.;Zheng JT.;Qin ZF.;Wang JG. .Preparation of mesoporous carbon from commercial activated carbon with steam activation in the presence of cerium oxide[J].Journal of Colloid and Interface Science,2003(2):467-473. |
| [12] | Oya A.;Alcanizmonge J.;Linaressolano A.;Yoshida S. .FORMATION OF MESOPORES IN PHENOLIC RESIN-DERIVED CARBON FIBER BY CATALYTIC ACTIVATION USING COBALT[J].Carbon: An International Journal Sponsored by the American Carbon Society,1995(8):1085-1090. |
| [13] | S.B.Lyubchik;R.Benoit;F.Beguin .Influence of chemical modification of anthracite on the porosity of the resulting activated carbons[J].Carbon: An International Journal Sponsored by the American Carbon Society,2002(8):1287-1294. |
| [14] | Zhonghua Hu;M.P.Srinivasan .Mesoporous high-surface-area activated carbon[J].Microporous and Mesoporous Materials,2001(3):267-275. |
| [15] | P.Ariyadejwanich;W.Tanthapanichakoon;K.Nakagawa;S.R.Mukai;H.Tamon .Preparation and characterization of mesoporous activated carbon from waste tires[J].Carbon: An International Journal Sponsored by the American Carbon Society,2003(1):157-164. |
| [16] | Tamai H;Kouzu M;Yasuda H .Preparation of highly mesoporous and high surface area activated carbons from vinylidene chloride copolymer containing yttrium acetylacetonate[J].Carbon,2002,41:1645-1687. |
| [17] | D. Vamvuka;S. Troulinos;E. Kastanaki .The effect of mineral matter on the physical and chemical activation of low rank coal and biomass materials[J].Fuel,2006(12/13):1763-1771. |
| [18] | N. Yoshizawa;K. Maruyama;Y. Yamada .XRD evaluation of KOH activation process and influence of coal rank[J].Fuel,2002(13):1717-1722. |
| [19] | 何月德,刘洪波,张红波.活化剂用量对无烟煤基高比表面积活性炭电容特性的影响[J].新型炭材料,2002(04):18-22. |
| [20] | 张文辉,袁国君,李书荣.浸渍KOH研制煤基高比表面活性炭[J].新型炭材料,1998(04):55-59. |
| [21] | 张文辉,李书荣,陈鹏,梁大明,王岭.太西无烟煤镜质组、丝质组制备活性炭试验研究[J].新型炭材料,2000(02):61-64. |
| [22] | 马蓉,张丽芳,张双全,王新红,唐志红,朱文魁,严红.太西无烟煤制备微孔活性炭的试验研究[J].新型炭材料,2004(01):57-60. |
| [23] | Liu ZC.;Lu CX.;Liu L.;Wu D.;Ling LC. .Transformation of doped Fe in pitch sphere in carbonization and activation processes[J].Fuel,2000(15):1991-1996. |
| [24] | Khalili NR.;Sandi G.;Golas J.;Campbell M. .Production of micro- and mesoporous activated carbon from paper mill sludge - I. Effect of zinc chloride activation[J].Carbon: An International Journal Sponsored by the American Carbon Society,2000(14):1905-1915. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%