新型炭材料
新型炭材料
신형탄재료
NEW CARBON MATERIALS
2011年
6期
470-478
,共9页
李娜%MasoudAlmarri%马筱良%查庆芳
李娜%MasoudAlmarri%馬篠良%查慶芳
리나%MasoudAlmarri%마소량%사경방
活性炭%表面含氧基团%吸附脱氮%多元线性回归
活性炭%錶麵含氧基糰%吸附脫氮%多元線性迴歸
활성탄%표면함양기단%흡부탈담%다원선성회귀
Activated carbon%Surface oxygen-containing groups%Adsorptive denitrogenation%Multiple linear regression analysis
选用12种物化学性质不同的活性炭,利用TPD对活性炭表面含氧基团的种类和浓度进行考察,使用质谱仪定量分析其含氧基团在不同温度下分解产生的CO2和CO,并通过曲线分峰测定含氧基团的种类和浓度.同时研究了这些活性炭分别对葵烷中的喹啉和吲哚的吸附行为.研究发现:活性炭的吸附符合Langmuir吸附热力学.根据吸附过程中的最大吸附量和吸附常数测定结果,使用多元线性回归方法,对活性炭表面含氧基团种类和浓度与吸附量间的关系进行了关联,建立了含氧基团与吸附量间的定量关系.研究结果表明:活性炭物理性质对其在葵烷吸附脱氮中没有明显影响,而含氧官能团,特别是含羧基的环氧官能团对其脱氮性能起关键性的作用.
選用12種物化學性質不同的活性炭,利用TPD對活性炭錶麵含氧基糰的種類和濃度進行攷察,使用質譜儀定量分析其含氧基糰在不同溫度下分解產生的CO2和CO,併通過麯線分峰測定含氧基糰的種類和濃度.同時研究瞭這些活性炭分彆對葵烷中的喹啉和吲哚的吸附行為.研究髮現:活性炭的吸附符閤Langmuir吸附熱力學.根據吸附過程中的最大吸附量和吸附常數測定結果,使用多元線性迴歸方法,對活性炭錶麵含氧基糰種類和濃度與吸附量間的關繫進行瞭關聯,建立瞭含氧基糰與吸附量間的定量關繫.研究結果錶明:活性炭物理性質對其在葵烷吸附脫氮中沒有明顯影響,而含氧官能糰,特彆是含羧基的環氧官能糰對其脫氮性能起關鍵性的作用.
선용12충물화학성질불동적활성탄,이용TPD대활성탄표면함양기단적충류화농도진행고찰,사용질보의정량분석기함양기단재불동온도하분해산생적CO2화CO,병통과곡선분봉측정함양기단적충류화농도.동시연구료저사활성탄분별대규완중적규람화신타적흡부행위.연구발현:활성탄적흡부부합Langmuir흡부열역학.근거흡부과정중적최대흡부량화흡부상수측정결과,사용다원선성회귀방법,대활성탄표면함양기단충류화농도여흡부량간적관계진행료관련,건립료함양기단여흡부량간적정량관계.연구결과표명:활성탄물이성질대기재규완흡부탈담중몰유명현영향,이함양관능단,특별시함최기적배양관능단대기탈담성능기관건성적작용.
Twelve activated carbon (AC) samples with different physical and chemical properties were selected to investigate their ability for the adsorptive denitrogenation of liquid hydrocarbons using two model fuels containing typical nitrogen compounds,indole and quinoline in decane.The surface oxygen-containing groups of the ACs were characterized by temperature-programmed desorption with a mass spectrometer to identify and quantify the type and concentration of the oxygen-containing functional groups based on the CO- and CO2-evolution profiles.The adsorption behavior of AC for nitrogen compounds in decane was found to obey the Langmuir adsorption isotherm.The adsorption parameters (the maximum capacity and the adsorption constant) were estimated.With these results,the correlation between the adsorp tion performance of the AC samples and their physical/chemical properties was evaluated by a multiple linear-regression analysis,which indicated that the physical properties were not the key factors for the removal of the nitrogen compounds in decane.Furthermore,the oxygen-containing groups of ACs,especially the carboxylic acid groups,were found to be mainly responsible for nitrogen adsorption.