Inorganic Chemicals Industry ›› 2024, Vol. 56 ›› Issue (2): 95-103.doi: 10.19964/j.issn.1006-4990.2023-0197
• Environment·Health·Safety • Previous Articles Next Articles
Study on preparation of low ash activated carbon by phosphoric acid method
ZHANG Li1(
), ZHANG Dan2, PAN Hongyan1(), DONG Yonggang1(), LI Wenfei2, QIN Hong2
- 1.School of Chemistry and Chemical Engineering, Guizhou University, Guiyang 550025, China
2.Guizhou Wengfu Chemical Co. , Ltd. , Guiyang 550002, China
-
Received:2023-04-06Online:2024-02-10Published:2024-02-06 -
Contact:PAN Hongyan, DONG Yonggang E-mail:3431183060@qq.com;cepanhongyan@163.com;ygdong@gzu.edu.cn
CLC Number:
Cite this article
ZHANG Li, ZHANG Dan, PAN Hongyan, DONG Yonggang, LI Wenfei, QIN Hong. Study on preparation of low ash activated carbon by phosphoric acid method[J]. Inorganic Chemicals Industry, 2024, 56(2): 95-103.
share this article
Fig.1
Preparation process of activated carbon by wet phosphate"
Fig.2
Performance, structure and particle size of activated carbon produced at different activation temperatures"
Table 1
Pore structure parameters of activated carbon prepared at different activation temperatures"
| 样品 | SBET/ (m2·g-1) | Smic/ (m2·g-1) | Smes/ (m2·g-1) | Vtotal/ (cm3·g-1) | Vmic/ (cm3·g-1) | Vmes/ (cm3·g-1) |
|---|---|---|---|---|---|---|
| AC-450 | 1 677 | 1 330 | 347 | 1.056 9 | 0.686 6 | 0.370 3 |
| AC-500 | 1 762 | 1 406 | 356 | 1.065 8 | 0.690 4 | 0.375 4 |
| AC-550 | 2 103 | 1 818 | 285 | 1.151 3 | 0.869 9 | 0.272 3 |
Fig.3
Performance,structure and particle size of activated carbon produced at different activation time"
Table 2
Pore structure parameters of activated carbon prepared at different activation time"
| 样品 | SBET/ (m2·g-1) | Smic/ (m2·g-1) | Smes/ (m2·g-1) | Vtotal/ (cm3·g-1) | Vmic/ (cm3·g-1) | Vmes/ (cm3·g-1) |
|---|---|---|---|---|---|---|
| AC-40 | 1 483 | 1 230 | 253 | 0.985 9 | 0.676 6 | 0.309 3 |
| AC-60 | 1 762 | 1 406 | 356 | 1.065 8 | 0.690 4 | 0.375 4 |
| AC-80 | 1 625 | 1 294 | 331 | 1.183 2 | 0.654 1 | 0.529 1 |
Fig.4
Performance,structure and particle size of activated carbon produced at different phosphoric acid concentrations"
Table 3
Pore structure parameters of activated carbon prepared at different phosphoric acid concentrations"
| 样品 | SBET/ (m2·g-1) | Smic/ (m2·g-1) | Smes/ (m2·g-1) | Vtotal/ (cm3·g-1) | Vmic/ (cm3·g-1) | Vmes/ (cm3·g-1) |
|---|---|---|---|---|---|---|
| AC-56 | 1 762 | 1 406 | 356 | 1.065 8 | 0.690 4 | 0.375 4 |
| AC-70 | 2 290 | 1 690 | 600 | 1.501 8 | 0.849 6 | 0.652 2 |
| AC-85 | 1 787 | 1 329 | 458 | 1.199 2 | 0.759 1 | 0.440 1 |
Fig.5
Performance,structure and particle size of activated carbon produced at different acid chip mass ratios"
Table 4
Pore structure parameters of activated carbon prepared at different acid chip mass ratios"
| 样品 | SBET/ (m2·g-1) | Smic/ (m2·g-1) | Smes/ (m2·g-1) | Vtotal/ (cm3·g-1) | Vmic/ (cm3·g-1) | Vmes/ (cm3·g-1) |
|---|---|---|---|---|---|---|
| AC-1.5 | 1 522 | 1 314 | 208 | 0.90 | 0.70 | 0.20 |
| AC-2.0 | 1 762 | 1 406 | 356 | 1.07 | 0.69 | 0.38 |
| AC-2.5 | 1 831 | 1 573 | 258 | 1.12 | 0.85 | 0.27 |
| AC-3.5 | 1 547 | 401 | 1 146 | 1.44 | 0.26 | 1.18 |
Fig.6
Performance,structure and particle size of activated carbon produced under different atmospheres"
Table 5
Pore structure parameters of activated carbon prepared under different atmospheres"
| 样品 | SBET/ (m2·g-1) | Smic/ (m2·g-1) | Sext/ (m2·g-1) | Vtotal/ (cm3·g-1) | Vmic/ (cm3·g-1) | Vmes/ (cm3·g-1) |
|---|---|---|---|---|---|---|
| AC-N2 | 1 762 | 1 406 | 356 | 1.07 | 0.69 | 0.38 |
| AC-air | 1 561 | 1 158 | 403 | 0.81 | 0.46 | 0.35 |
Fig.7
Effect of washing conditions on properties of activated carbon"
Table 6
Elemental and industrial analysis results of wood chips %"
| 元素分析 | 工业分析 | |||||||
|---|---|---|---|---|---|---|---|---|
w (C) | w (H) | w (O) | w (N) | w (水分) | w(挥 发分) | w(固定碳) | w(灰分) | |
| 46.46 | 5.34 | 40.45 | 0.32 | 11.65 | 73.88 | 18.81 | 1.76 | |
Table 7
Analysis results of ion species and content in wet-process phosphoric acid"
| w(Na+) | w(Mg2+) | w(Ca2+) | w(Fe3+) | w(Al3+) | w(As3+) | w(SiO32-) | w(SO42-) | w(F-) |
|---|---|---|---|---|---|---|---|---|
| 11.10 | 1.92 | 2.00 | 3.41 | 0.78 | 0.14 | 2.54 | 1.82 | 6.00 |
Table 8
XRF analysis results of wood chips and activated carbon"
| 样品 | 元素质量分数/% | |||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Ca | K | Fe | S | Sc | Mn | Cu | P | Ti | Zn | Pb | Sr | Mo | Si | |
| 木屑 | 71.07 | 11.60 | 7.10 | 3.80 | — | 2.44 | 1.51 | 1.82 | 1.12 | 1.00 | — | 0.16 | — | — |
| 活性炭 | 27.70 | — | 3.74 | 5.79 | — | — | 0.95 | 59.75 | 0.79 | — | — | 0.09 | 0.15 | 1.04 |
Fig.8
TG curves(a) and DTG curves(b) of awdust and phosphoric acid-sawdust precursors,and XRD pattern(c) and FT-IR spectrum(d) of activated carbon from wet-process phosphoric acid"
Fig.9
SEM images(a~c) and TEM images(d~f) of activated carbon prepared from wet-process phosphoric acid"
| 1 | 邓美玲.关于活性炭市场调研的建模分析[J].科技与创新,2022(20):109-111. |
| DENG Meiling.Modeling and analysis of activated carbon market research[J].Science and Technology & Innovation,2022(20):109-111. | |
| 2 | 任学勇,祁项超,曹畅,等.“双碳”战略下生物质活性炭材料生产与应用发展探析[J].林产工业,2022,59(4):48-51,63. |
| REN Xueyong, QI Xiangchao, CAO Chang,et al.Research on production and application of biomass activated carbon under “double carbon” strategy[J].China Forest Products Industry,2022,59(4):48-51,63. | |
| 3 | 孙昊,孙云娟,缪存标,等.我国活性炭产业发展典型案例分析:以福建元力活性炭股份有限公司为例[J].生物质化学工程,2021,55(1):1-9. |
| SUN Hao, SUN Yunjuan, MIAO Cunbiao,et al.A typical case analysis of activated carbon industry development in China:Fujian Yuanli active carbon Co.,Ltd.[J].Biomass Chemical Engineering,2021,55(1):1-9. | |
| 4 | 解强,张香兰,梁鼎成,等.煤基活性炭定向制备:原理·方法·应用[J].煤炭科学技术,2021,49(1):100-127. |
| XIE Qiang, ZHANG Xianglan, LIANG Dingcheng,et al.Directional preparation of coal-based activated carbon:Principles,approaches and applications[J].Coal Science and Technology,2021,49(1):100-127. | |
| 5 | 王硕,张健本,谢彩锋.生物质活性炭制备及吸附含硫化合物研究进展[J].应用化工,2022,51(12):3608-3613. |
| WANG Shuo, ZHANG Jianben, XIE Caifeng.Preparation and adsorption of sulfur compounds by biomass activated carbon[J].Applied Chemical Industry,2022,51(12):3608-3613. | |
| 6 | TRIFONOV S V, MURYGIN A V, TIKHOMIROV A A.Physical-chemical method for desalting organic waste for agricultural cycl-es[J].IOP Conference Series:Earth and Environmental Science,2021,839(4):042062. |
| 7 | 张会均,欧阳晚秋,陈琳莉.磷酸法茶渣活性炭的制备及吸附性能[J].应用化工,2019,48(12):2947-2950. |
| ZHANG Huijun, OUYANG Wanqiu, CHEN Linli.Characteristics and optimization of activated carbon from tea waste using H3PO4 [J].Applied Chemical Industry,2019,48(12):2947-2950. | |
| 8 | 郭奇,许伟,刘军利.磷酸法木质素基活性炭的制备及其电化学性能研究[J].林产化学与工业,2022,42(2):31-38. |
| GUO Qi, XU Wei, LIU Junli.Preparation and electrochemical performance of lignin-based activated carbon by phosphoric acid activation[J].Chemistry and Industry of Forest Products,2022,42(2):31-38. | |
| 9 | KAMAL S, AHMED B.Experimental tests of cadmium and trace metals adsorption on natural clays and activated carbon from wet phosphoric acid[J].Inorganic Chemistry Communications,2022,144:109866. |
| 10 | MUNAWAR I, MUHAMMAD S, ZAHID A,et al.Paracetamol and amoxicillin adsorptive removal from aqueous solution using phosphoric acid activated-carbon[J].Zeitschrift Für Physikalische Chemie,2023,237(3):257-271. |
| 11 | HIGAI D, HUANG Zhebin, QIAN E W.Preparation and surface characteristics of phosphoric acid-activated carbon from coconut shell in air[J].Environmental Progress & Sustainable Energy,2021,40(2):e13509. |
| 12 | 李文飞,王凤霞,杨坤.湿法净化磷酸与热法磷酸在微生物发酵应用中的差异研究[J].广州化工,2021,49(3):46-49. |
| LI Wenfei, WANG Fengxia, YANG Kun.Study on difference between purified wet phosphoric acid and thermal method phosphoric acid in microbial fermentation[J].Guangzhou Chemical Industry,2021,49(3):46-49. | |
| 13 | 马航,冯霄.基于湿、热法磷加工体系共生耦合的磷资源产业可持续性发展研究[J].无机盐工业,2018,50(11):1-6. |
| MA Hang, FENG Xiao.Study on sustainable development of phosphorus industry based on symbiotic coupling of wet and thermal phosphorus processing systems[J].Inorganic Chemicals Industry,2018,50(11):1-6. | |
| 14 | 梅毅,樊蕾,梁雪松,等.热法磷酸与湿法工业磷酸的技术经济分析[J].无机盐工业,2011,43(1):4-7. |
| MEI Yi, FAN Lei, LIANG Xuesong,et al.Techno-economic analysis on phosphoric acid by furnace process and phosphoric acid by wet process[J].Inorganic Chemicals Industry,2011,43(1):4-7. | |
| 15 | 王保明,吕中豪,李会勇,等.湿法磷酸制备磷酸脲的研究进展[J].无机盐工业,2020,52(11):1-5. |
| WANG Baoming, Zhonghao LÜ, LI Huiyong,et al.Research progress on preparation of urea phosphate with wet-process phosphoric acid[J].Inorganic Chemicals Industry,2020,52(11):1-5. | |
| 16 | 杜加磊,翟持,朱远蹠,等.基于分析的热法磷酸全热能回收技术模拟研究[J].化工学报,2021,72(11):5790-5799. |
| DU Jialei, ZHAI Chi, ZHU Yuanzhi,et al.Simulation study on heat energy recovery technology of furnace-process phosphoric acid process[J].CIESC Journal,2021,72(11):5790-5799. | |
| 17 | 齐亚兵,张思敬.湿法磷酸净化技术研究新进展及应用现状[J].应用化工,2022,51(9):2798-2804. |
| QI Yabing, ZHANG Sijing.New research progress and present application situation of purification technology for wet-process phosphoric acid[J].Applied Chemical Industry,2022,51(9):2798-2804. | |
| 18 | 王芳平,张劲斌,李晨阳,等.灰分对玉米芯基活性炭电化学性能的影响[J].现代化工,2020,40(5):190-193. |
| WANG Fangping, ZHANG Jinbin, LI Chenyang,et al.Effect of ash on electrochemical performance of corncob-based activated carbon[J].Modern Chemical Industry,2020,40(5):190-193. | |
| 19 | 刘菲.酸洗除灰分对活性炭性质的影响[J].石化技术,2019,26(5):212-213. |
| LIU Fei.Effect of acid cleaning and ash removal on properties of activated carbon[J].Petrochemical Industry Technology,2019,26(5):212-213. | |
| 20 | 邵远超,田华宇,王国睿,等.低灰分刺竹炭制备及性能表征[J].林业工程学报,2023,8(1):80-87. |
| SHAO Yuanchao, TIAN Huayu, WANG Guorui,et al.Study on preparation and characterization of low ash bambusa sinospinosa charcoal[J].Journal of Forestry Engineering,2023,8(1):80-87. | |
| 21 | 鲍建秀.磷酸法制备低灰分活性炭的研究[J].化学工程与装备,2019(4):19-20,42. |
| BAO Jianxiu.Study on preparation of low ash activated carbon by phosphoric acid method[J].Chemical Engineering & Equipment,2019(4):19-20,42. | |
| 22 | 徐茹婷,卢辛成,许伟,等.磷酸法玉米秸秆基活性炭的制备及其表征[J].生物质化学工程,2022,56(1):1-6. |
| XU Ruting, LU Xincheng, XU Wei,et al.Preparation and characterization of corn straw based activated carbon by phosphoric acid activation[J].Biomass Chemical Engineering,2022,56(1):1-6. | |
| 23 | 叶结旺,周志丹,金贞福.氮掺杂木质素基活性炭的制备、表征及其吸附性能研究[J].林产化学与工业,2023,43(1):127-132. |
| YE Jiewang, ZHOU Zhidan, JIN Zhenfu.Preparation,characterization and adsorption properties of nitrogen-doped lignin-based activated carbon[J].Chemistry and Industry of Forest Products,2023,43(1):127-132. | |
| 24 | 马名哲,孙昊,孙康,等.龙凤檀磷酸法活性炭的孔径分布与吸附性能的构效关系[J].林产化学与工业,2023,43(1):51-56. |
| MA Mingzhe, SUN Hao, SUN Kang,et al.The relationship between pore size distribution and adsorption properties of cumaru activated carbon prepared by phosphoric acid method[J].Chemistry and Industry of Forest Products,2023,43(1):51-56. | |
| 25 | MAGUANA Y EL, ELHADIRI N, BOUCHDOUG M,et al.Activated carbon from prickly pear seed cake:Optimization of preparation conditions using experimental design and its application in dye removal[J].International Journal of Chemical Engineering,2019,2019(12):1-12. |
| 26 | DENG Meigen, WANG Junlong, ZHANG Qi.Effect of freezing pretreatment on the performance of activated carbon from coconut shell for supercapacitor application[J].Materials Letters,2022,306:130934. |
| [1] | LIU Xinlong, YANG Zhenyu, HAO He, LIU Shuxin, WU Chenyang, WANG Xingli, MA Qingqing. Study on shaped 4A zeolite synthesized with aluminum extraction residue by fly ash [J]. Inorganic Chemicals Industry, 2025, 57(3): 78-85. |
| [2] | LI Chao, WANG Liping, GAO Guimei, ZHANG Yunfeng, HONG Yu, LIU Darui, XU Lijun, CUI Yongjie. Study on reaction mechanism of acid leaching lithium from circulating fluidized bed fly ash [J]. Inorganic Chemicals Industry, 2025, 57(3): 101-107. |
| [3] | MAO Shize. Study on microwave roasting-activated coal gangue to improve sulfate corrosion resistance of concrete [J]. Inorganic Chemicals Industry, 2025, 57(3): 86-93. |
| [4] | CHEN Can, CAO Jun, ZHANG Yongbo. Research on high throughput determination method of fluorine and leaching toxicity in aluminum ash [J]. Inorganic Chemicals Industry, 2024, 56(8): 104-109. |
| [5] | LUO Tong, YE Jianzhou, CHEN Shangwei, YANG Houwen, CHEN Fuping. Study on effect of ash calcium on properties of phosphorus building gypsum doped with PCE [J]. Inorganic Chemicals Industry, 2024, 56(8): 116-122. |
| [6] | ZHANG Bangcheng, WANG Li. Preparation and adsorption properties of waste polyester⁃based activated carbon activated by ZnCl2 [J]. Inorganic Chemicals Industry, 2024, 56(7): 126-134. |
| [7] | WANG Wei, GUO Lihui, REN Siqian, HUA Chunfeng, WU Yuanting, LIU Hulin, WANG Zhao. Study on modification of inorganic activators and their active excitation on sulfur fixing ash [J]. Inorganic Chemicals Industry, 2024, 56(7): 135-142. |
| [8] | CHEN Junhui, LIU Xiang, HU Qingxi, TIAN Bangxin, CHEN Jiale. Study on leaching extraction of high purity potassium chloride from sintering machine head ash [J]. Inorganic Chemicals Industry, 2024, 56(6): 102-108. |
| [9] | XU Zijian, WANG Yu, LIU Jingyong, ZHU Chuanghai, CHEN Zhibin, HUANG Shengzheng, XIE Wuming, SUN Shuiyu. Study on defluorination process of secondary aluminum ash wet process and conversion behavior of fluoride [J]. Inorganic Chemicals Industry, 2024, 56(6): 109-118. |
| [10] | REN Xuechang, FENG Hao. Study on dissolution process of sintered clinker by aluminum ash alkali method with ultrasound irritation [J]. Inorganic Chemicals Industry, 2024, 56(6): 119-126. |
| [11] | XIE Jiang, GUO Ge, QIU Jie. Treatment of methylene blue simulated wastewater by supported activated carbon particle with three-dimensional electrode method [J]. Inorganic Chemicals Industry, 2024, 56(5): 78-86. |
| [12] | ZHAO Feiyan, ZHANG Xiaodong, DU Yanxia, WANG Qiang, LI Xiaoyan. Preparation technology and research progress of fly ash ceramsite [J]. Inorganic Chemicals Industry, 2024, 56(4): 16-23. |
| [13] | LI Kuai, LI Zhaoshuai, DONG Tingxuan, LI Dan, GUO Shengwei, HAN Fenglan. Study on effect of wet magnetic separation on distribution of Fe and heavy metal in fly ash [J]. Inorganic Chemicals Industry, 2024, 56(4): 98-104. |
| [14] | LI Qiaoyun, HUANG Xiuxing, WEI Wenye, CHEN Zhen. Study on adsorption of methylene blue by activated carbon with acid/alkali synergistically modified fly ash [J]. Inorganic Chemicals Industry, 2024, 56(3): 131-136. |
| [15] | YI Yuejun, ZHANG Xiufeng, ZHANG Lizhen, MA Yameng, TAN Xiumin. Present situation and suggestions on exploitation and utilization of potassium salt resources in China [J]. Inorganic Chemicals Industry, 2024, 56(10): 12-19. |
| Viewed | ||||||
|
Full text |
|
|||||
|
Abstract |
|
|||||
|
||