煤炭地下气化渗透反应墙构建材料的吸附和渗流特性研究
TD984%X523; 煤炭地下气化(UCG)带来的地下水污染风险是限制其推广发展的主要问题之一.渗透反应墙(PRB)修复技术是地下水原位修复的主要研究热点,而PRB材料特性是影响其正常运行的关键.本文首先探究了砂、有机膨润土、活性炭对UCG特征有机污染物苯酚的吸附特性,在此基础上,采用自建的渗流实验系统研究了砂、有机膨润土、活性炭及其混合物的吸附和渗透特性对净化污染水的综合影响效果.结果表明:①有机膨润土对溶液中苯酚的吸附速率较快,可在10 min之内达到吸附平衡,但吸附容量较小(1.98 mg/g);活性炭对溶液中苯酚的吸附速率较慢,但吸附容量较大(2.22 mg/g).②有机膨润土对苯酚...
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| Published in | 矿业科学学报 Vol. 9; no. 2; pp. 167 - 177 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | Chinese |
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煤炭安全生产与清洁高效利用省部共建协同创新中心,河南焦作 454003%河南理工大学能源科学与工程学院,河南焦作 454003
2024
河南省煤炭绿色转化重点实验室,河南理工大学化学化工学院,河南焦作 454003%河南省煤炭绿色转化重点实验室,河南理工大学化学化工学院,河南焦作 454003 |
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| Online Access | Get full text |
| ISSN | 2096-2193 |
| DOI | 10.19606/j.cnki.jmst.2024.02.004 |
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| Abstract | TD984%X523; 煤炭地下气化(UCG)带来的地下水污染风险是限制其推广发展的主要问题之一.渗透反应墙(PRB)修复技术是地下水原位修复的主要研究热点,而PRB材料特性是影响其正常运行的关键.本文首先探究了砂、有机膨润土、活性炭对UCG特征有机污染物苯酚的吸附特性,在此基础上,采用自建的渗流实验系统研究了砂、有机膨润土、活性炭及其混合物的吸附和渗透特性对净化污染水的综合影响效果.结果表明:①有机膨润土对溶液中苯酚的吸附速率较快,可在10 min之内达到吸附平衡,但吸附容量较小(1.98 mg/g);活性炭对溶液中苯酚的吸附速率较慢,但吸附容量较大(2.22 mg/g).②有机膨润土对苯酚的等温吸附可用Freundlich模型描述,模型参数kF= 0.040,n = 1.207;活性炭对苯酚的等温吸附可用Langmuir模型描述,模型参数Smax = 2.44 mg/g,kL= 0.125 L/mg.③砂和活性炭的渗透系数分别为1.006×10-3 m/s和4.761×10-2 m/s,砂与活性炭或有机膨润土混合可有效调节混合材料的渗透性,当砂与有机膨润土质量比由1 ∶ 1 增大到 3 ∶ 1 时,其混合材料的渗透系数由2.624×10-6 增大至3.468×10-5 m/s;而砂与活性炭质量比由1 ∶ 1 增大到3 ∶ 1 时,其混合材料的渗透系数由1.379×10-3 减小至1.301×10-4 m/s. |
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| AbstractList | TD984%X523; 煤炭地下气化(UCG)带来的地下水污染风险是限制其推广发展的主要问题之一.渗透反应墙(PRB)修复技术是地下水原位修复的主要研究热点,而PRB材料特性是影响其正常运行的关键.本文首先探究了砂、有机膨润土、活性炭对UCG特征有机污染物苯酚的吸附特性,在此基础上,采用自建的渗流实验系统研究了砂、有机膨润土、活性炭及其混合物的吸附和渗透特性对净化污染水的综合影响效果.结果表明:①有机膨润土对溶液中苯酚的吸附速率较快,可在10 min之内达到吸附平衡,但吸附容量较小(1.98 mg/g);活性炭对溶液中苯酚的吸附速率较慢,但吸附容量较大(2.22 mg/g).②有机膨润土对苯酚的等温吸附可用Freundlich模型描述,模型参数kF= 0.040,n = 1.207;活性炭对苯酚的等温吸附可用Langmuir模型描述,模型参数Smax = 2.44 mg/g,kL= 0.125 L/mg.③砂和活性炭的渗透系数分别为1.006×10-3 m/s和4.761×10-2 m/s,砂与活性炭或有机膨润土混合可有效调节混合材料的渗透性,当砂与有机膨润土质量比由1 ∶ 1 增大到 3 ∶ 1 时,其混合材料的渗透系数由2.624×10-6 增大至3.468×10-5 m/s;而砂与活性炭质量比由1 ∶ 1 增大到3 ∶ 1 时,其混合材料的渗透系数由1.379×10-3 减小至1.301×10-4 m/s. |
| Abstract_FL | Groundwater pollution induced by Underground Coal Gasification(UCG)seriously hinders its development.Permeable Reactive Barrier(PRB)remediation therefore stands out as a major research fo-cus for in-situ groundwater remediation,where the characteristics of PRB material is crucial to their ef-fective operation.This study thus examines the adsorption properties of sand,organic bentonite,and acti-vated carbon on phenol,a characteristic organic pollutant associated with UCG.A self-constructed per-meation experimental system is employed to study the adsorption and permeation characteristics of sand,organic bentonite,activated carbon,mixtures of sand and organic bentonite,as well as sand and activated carbon to investigate their comprehensive impact in purifying contaminated water.The results indicate that:①Organic bentonite exhibits a rapid adsorption rate for phenol in solution,reaching ad-sorption equilibrium within 10 minutes,despite a relatively low adsorption capacity(1.98 mg/g).Acti-vated carbon,on the other hand,demonstrates a slower adsorption rate yet a higher adsorption capacity(2.22 mg/g).②The adsorption of phenol by organic bentonite conforms to the Freundlich isotherm model,with parameters kF = 0.040 and n = 1.207.Activated carbon follows the Langmuir isotherm model,with parameters Smax = 2.44 mg/g and kL = 0.125 L/mg.③The permeability coefficients of sand and activated carbon are 1.006×10-3 m/s and 4.761×10-2 m/s,respectively.The mixture of sand with activated carbon or organic bentonite could effectively moderate the permeability of the mixed ma-terial.When the mass ratio of sand to organic bentonite increases from 1 ∶ 1 to 3 ∶ 1,the permeability coefficient of the mixed material increases from 2.624×10-6 to 3.468×10-5 m/s.Conversely,when the ratio of sand to activated carbon increases from 1 ∶ 1 to 3 ∶ 1,the permeability coefficient of the mixed material decreases from 1.379×10-3 to 1.301×10-4 m/s. |
| Author | 王凡 徐冰 苏发强 邢宝林 谌伦建 |
| AuthorAffiliation | 河南省煤炭绿色转化重点实验室,河南理工大学化学化工学院,河南焦作 454003%河南省煤炭绿色转化重点实验室,河南理工大学化学化工学院,河南焦作 454003;煤炭安全生产与清洁高效利用省部共建协同创新中心,河南焦作 454003%河南理工大学能源科学与工程学院,河南焦作 454003 |
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| Author_FL | Xü Bing XING Baolin WANG Fan SU Faqiang CHEN Lunjian |
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| Keywords | isothermal adsorption 煤炭地下气化 污染地下水 contaminated groundwater 渗流 seep-age 渗透反应墙 underground coal gasification permeable reaction barrier 等温吸附 |
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| Publisher | 煤炭安全生产与清洁高效利用省部共建协同创新中心,河南焦作 454003%河南理工大学能源科学与工程学院,河南焦作 454003 河南省煤炭绿色转化重点实验室,河南理工大学化学化工学院,河南焦作 454003%河南省煤炭绿色转化重点实验室,河南理工大学化学化工学院,河南焦作 454003 |
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| Title | 煤炭地下气化渗透反应墙构建材料的吸附和渗流特性研究 |
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