化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
10期
2552-2556
,共5页
刘林娇%酆月飞%陈志华%鞠吉%曾爱武
劉林嬌%酆月飛%陳誌華%鞠吉%曾愛武
류림교%풍월비%진지화%국길%증애무
甲苯%烯烃%分子筛%吸附%固定床
甲苯%烯烴%分子篩%吸附%固定床
갑분%희경%분자사%흡부%고정상
toluene%olefin%molecular sieves%adsorption%fixed-bed
以Y型分子筛为吸附剂脱除甲苯中的环状烯烃化合物(二聚环戊二烯,DCPD)。采用NH3-TPD测试方法分析了USY和HY分子筛的酸性中心性质。通过间歇吸附实验考察了USY和HY分子筛对甲苯中DCPD的吸附脱除能力以及温度对USY分子筛吸附能力的影响,结果表明,USY分子筛的烯烃吸附量是HY分子筛的1.68倍;当温度由30℃升至50℃时,USY分子筛的吸附速率增大。采用固定床连续实验考察了温度、体积空速和原料中烯烃浓度对USY分子筛吸附效果的影响,当温度为80℃、空速为0.133h-1时,分子筛的穿透吸附量最大;分子筛处理具有较高初始浓度的原料时得到较高的穿透吸附量,且对工业焦化甲苯溶液的处理效果明显,具有较好的工业应用前景。TGA热重分析结果表明,USY分子筛对DCPD的选择性吸附能力强于甲苯。
以Y型分子篩為吸附劑脫除甲苯中的環狀烯烴化閤物(二聚環戊二烯,DCPD)。採用NH3-TPD測試方法分析瞭USY和HY分子篩的痠性中心性質。通過間歇吸附實驗攷察瞭USY和HY分子篩對甲苯中DCPD的吸附脫除能力以及溫度對USY分子篩吸附能力的影響,結果錶明,USY分子篩的烯烴吸附量是HY分子篩的1.68倍;噹溫度由30℃升至50℃時,USY分子篩的吸附速率增大。採用固定床連續實驗攷察瞭溫度、體積空速和原料中烯烴濃度對USY分子篩吸附效果的影響,噹溫度為80℃、空速為0.133h-1時,分子篩的穿透吸附量最大;分子篩處理具有較高初始濃度的原料時得到較高的穿透吸附量,且對工業焦化甲苯溶液的處理效果明顯,具有較好的工業應用前景。TGA熱重分析結果錶明,USY分子篩對DCPD的選擇性吸附能力彊于甲苯。
이Y형분자사위흡부제탈제갑분중적배상희경화합물(이취배무이희,DCPD)。채용NH3-TPD측시방법분석료USY화HY분자사적산성중심성질。통과간헐흡부실험고찰료USY화HY분자사대갑분중DCPD적흡부탈제능력이급온도대USY분자사흡부능력적영향,결과표명,USY분자사적희경흡부량시HY분자사적1.68배;당온도유30℃승지50℃시,USY분자사적흡부속솔증대。채용고정상련속실험고찰료온도、체적공속화원료중희경농도대USY분자사흡부효과적영향,당온도위80℃、공속위0.133h-1시,분자사적천투흡부량최대;분자사처리구유교고초시농도적원료시득도교고적천투흡부량,차대공업초화갑분용액적처리효과명현,구유교호적공업응용전경。TGA열중분석결과표명,USY분자사대DCPD적선택성흡부능력강우갑분。
Y-type molecular sieves were used to remove cyclic olefin(dicyclopentadiene)from toluene in this research. The acidity of USY and HY molecular sieves were tested by NH3-Temperature-Programmed Desorption Analysis (TPD). Batch experiments were carried out to investigate their adsorption properties and the temperature influence on the adsorption performance of USY. The results showed that the equilibrium adsorption capacity of USY was 1.68 times as high as that of HY,and when the temperature ranged from 30℃ to 50℃,the adsorption rate of USY tended to be much faster and a shorter time was needed to reach the adsorption equilibrium. The effects of the operation parameters such as adsorption temperature,velocity and initial concentration on the adsorption capability of USY zeolite were studied by fixed-bed experiments. The biggest breakthrough capacity of DCPD was obtained at the temperature of 80℃and the velocity of 0.133h-1. Furthermore,a higher breakthrough adsorption capacity can be achieved with a relatively high concentration of the raw materials. USY zeolite also had a good performance for the refining of the industrial coking toluene and exhibits a great potential for the practical applications. The thermogravimetic analysis (TGA) revealed that USY had a stronger adsorption capacity for DCPD compared with toluene.