化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
9期
3499-3504
,共6页
杜广庆%陈丽杰%薛闯%白凤武
杜廣慶%陳麗傑%薛闖%白鳳武
두엄경%진려걸%설틈%백봉무
生物燃料%生物分离%PVDF/PDMS复合膜%渗透气化%丁醇
生物燃料%生物分離%PVDF/PDMS複閤膜%滲透氣化%丁醇
생물연료%생물분리%PVDF/PDMS복합막%삼투기화%정순
biofuel%bioseparation%PVDF/PDMS composite membrane%pervaporation%butanol
通过相转化法制备PVDF多孔支撑膜,在其上涂覆致密的PDMS分离层制备得到PVDF/PDMS复合膜,用于丁醇的分离纯化。以丁醇水溶液为原料液,流速为1.6 L·min-1,丁醇浓度为15 g·L-1,温度为37℃时, PVDF/PDMS 复合膜的总通量为158.2 g·m-2·h-1,分离因子为17.3。向丁醇水溶液中按丁醇:丙酮:乙醇比例为6:3:1添加丙酮和乙醇模拟发酵液,PVDF/PDMS复合膜的总通量升高到189.5 g·m-2·h-1,分离因子降低到14.8。进一步考察了以丙酮-丁醇-乙醇(ABE)发酵液为原料液的渗透气化膜分离性能,发酵液中不存在菌体时, PVDF/PDMS复合膜的总通量和分离因子分别为120.2 g·m-2·h-1和19.7,而菌体存在时,复合膜的总通量和分离因子分别为122.1 g·m-2·h-1和16.7。与PDMS均质膜相比,PVDF/PDMS复合膜在丁醇分离过程中的分离性能有了显著的提升,具有潜在的应用价值。
通過相轉化法製備PVDF多孔支撐膜,在其上塗覆緻密的PDMS分離層製備得到PVDF/PDMS複閤膜,用于丁醇的分離純化。以丁醇水溶液為原料液,流速為1.6 L·min-1,丁醇濃度為15 g·L-1,溫度為37℃時, PVDF/PDMS 複閤膜的總通量為158.2 g·m-2·h-1,分離因子為17.3。嚮丁醇水溶液中按丁醇:丙酮:乙醇比例為6:3:1添加丙酮和乙醇模擬髮酵液,PVDF/PDMS複閤膜的總通量升高到189.5 g·m-2·h-1,分離因子降低到14.8。進一步攷察瞭以丙酮-丁醇-乙醇(ABE)髮酵液為原料液的滲透氣化膜分離性能,髮酵液中不存在菌體時, PVDF/PDMS複閤膜的總通量和分離因子分彆為120.2 g·m-2·h-1和19.7,而菌體存在時,複閤膜的總通量和分離因子分彆為122.1 g·m-2·h-1和16.7。與PDMS均質膜相比,PVDF/PDMS複閤膜在丁醇分離過程中的分離性能有瞭顯著的提升,具有潛在的應用價值。
통과상전화법제비PVDF다공지탱막,재기상도복치밀적PDMS분리층제비득도PVDF/PDMS복합막,용우정순적분리순화。이정순수용액위원료액,류속위1.6 L·min-1,정순농도위15 g·L-1,온도위37℃시, PVDF/PDMS 복합막적총통량위158.2 g·m-2·h-1,분리인자위17.3。향정순수용액중안정순:병동:을순비례위6:3:1첨가병동화을순모의발효액,PVDF/PDMS복합막적총통량승고도189.5 g·m-2·h-1,분리인자강저도14.8。진일보고찰료이병동-정순-을순(ABE)발효액위원료액적삼투기화막분리성능,발효액중불존재균체시, PVDF/PDMS복합막적총통량화분리인자분별위120.2 g·m-2·h-1화19.7,이균체존재시,복합막적총통량화분리인자분별위122.1 g·m-2·h-1화16.7。여PDMS균질막상비,PVDF/PDMS복합막재정순분리과정중적분리성능유료현저적제승,구유잠재적응용개치。
A polyvinylidene fluoride (PVDF)/polydimethylsiloxane (PDMS) composite membrane for butanol recovery was fabricated by coating a dense PDMS separation layer on a PVDF porous support layer prepared by phase inversion. The total flux and separation factor of the PVDF/PDMS composite membrane could be 158.2 g·m-2·h-1 and 17.3, respectively, when feed solution was 15 g·L-1 butanol at 37℃ with a flow rate 1.6 L·min-1. To simulate the fermentation liquor, acetone and ethanol were added into the feed solution in a ratio 6(butanol):3:1, the total flux of PVDF/PDMS composite membrane increased to 189.5 g·m-2·h-1, but separation factor decreased to 14.8. Furthermore, fermentation broths with/without biomass as feed solution were investigated to evaluate pervaporation performance of the PVDF/PDMS composite membrane. The total flux and separation factor were 120.2 g·m-2·h-1 and 19.7 for without biomass case, 122.1 g·m-2·h-1 and 16.7 for with biomass case, respectively. Compared with PDMS membrane, the performance of PVDF/PDMS composite membrane had significant improvement for butanol recovery, indicating that it is of potential for industrial application of butanol recovery.
