化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2015年
7期
2055-2059
,共5页
薛蓓%张小平%李楠%张培
薛蓓%張小平%李楠%張培
설배%장소평%리남%장배
黏胶基活性碳纤维%吸附%吡啶%喹啉%动力学%热力学
黏膠基活性碳纖維%吸附%吡啶%喹啉%動力學%熱力學
점효기활성탄섬유%흡부%필정%규람%동역학%열역학
Rayon-based activated carbon fiber%adsorption%pyridine%quinoline%kinetics%thermodynamics
采用黏胶基活性碳纤维(rayon-based ACF)吸附焦化尾水中的典型有机物吡啶,考察了在不同时间、投加量、温度以及有机物影响的条件下,黏胶基活性碳纤维对吡啶的静态吸附效果。从动力学、热力学和分子结构等方面来判断吸附类型,并从理论上分析黏胶基活性碳纤维对模拟焦化尾水典型有机污染物的吸附过程。实验结果表明,当吡啶废水的初始浓度为25mg/L 时,黏胶基活性碳纤维对吡啶的吸附在60min 基本达到平衡,最大吸附量为17.66mg/g;随着温度的升高,吸附效率下降;共存有机物喹啉会抑制吡啶的吸附效率,使黏胶基活性碳纤维对吡啶的吸附率显著降低;活性碳纤维吸附吡啶的过程符合 Lagergren 准二级动力学模型,其相关系数>0.999,在22℃的液相温度下,吸附等温式为 q=2.3138ce0.9540。热力学参数ΔH0、ΔG0均为负值,表明该吸附是一个自发的放热过程。
採用黏膠基活性碳纖維(rayon-based ACF)吸附焦化尾水中的典型有機物吡啶,攷察瞭在不同時間、投加量、溫度以及有機物影響的條件下,黏膠基活性碳纖維對吡啶的靜態吸附效果。從動力學、熱力學和分子結構等方麵來判斷吸附類型,併從理論上分析黏膠基活性碳纖維對模擬焦化尾水典型有機汙染物的吸附過程。實驗結果錶明,噹吡啶廢水的初始濃度為25mg/L 時,黏膠基活性碳纖維對吡啶的吸附在60min 基本達到平衡,最大吸附量為17.66mg/g;隨著溫度的升高,吸附效率下降;共存有機物喹啉會抑製吡啶的吸附效率,使黏膠基活性碳纖維對吡啶的吸附率顯著降低;活性碳纖維吸附吡啶的過程符閤 Lagergren 準二級動力學模型,其相關繫數>0.999,在22℃的液相溫度下,吸附等溫式為 q=2.3138ce0.9540。熱力學參數ΔH0、ΔG0均為負值,錶明該吸附是一箇自髮的放熱過程。
채용점효기활성탄섬유(rayon-based ACF)흡부초화미수중적전형유궤물필정,고찰료재불동시간、투가량、온도이급유궤물영향적조건하,점효기활성탄섬유대필정적정태흡부효과。종동역학、열역학화분자결구등방면래판단흡부류형,병종이론상분석점효기활성탄섬유대모의초화미수전형유궤오염물적흡부과정。실험결과표명,당필정폐수적초시농도위25mg/L 시,점효기활성탄섬유대필정적흡부재60min 기본체도평형,최대흡부량위17.66mg/g;수착온도적승고,흡부효솔하강;공존유궤물규람회억제필정적흡부효솔,사점효기활성탄섬유대필정적흡부솔현저강저;활성탄섬유흡부필정적과정부합 Lagergren 준이급동역학모형,기상관계수>0.999,재22℃적액상온도하,흡부등온식위 q=2.3138ce0.9540。열역학삼수ΔH0、ΔG0균위부치,표명해흡부시일개자발적방열과정。
This article studied the static adsorption of pyridine and quinoline on rayon-based activated carbon fiber(rayon-based ACF),investigated the influencing factors of adsorption efficiency and behaviors such as time,dose,temperature and organic compound,and analyzed the adsorption type and process of typical organic pollutants of coking water from the aspects of kinetic,thermodynamic and molecular structure. The results showed that when the initial concentration of pyridine wastewater was 25mg/L,the maximum adsorption capacity was 17.66mg/g and it took about 60min to reach the adsorption equilibrium. Adsorption efficiency decreased with increasing temperature. The presence of quinoline inhibited the adsorption efficiency of pyridine,and the adsorption rate of pyridine was significantly decreased. Pyridine adsorption processes of carbon fiber agreed with pseudo second-order kinetic model with the correlation coefficient of 0.9999. Freundlich isotherm of pyridine adsorption on the ACF at liquid temperature of 22℃ was q=2.3138ce0.9540. ΔG0 and ΔH0 were both negative, indicating spontaneous and exothermic adsorption.
