化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
10期
2693-2699
,共7页
肖佩佩%韩笑颜%曾楚怡%赵虹%周继承%李继定
肖珮珮%韓笑顏%曾楚怡%趙虹%週繼承%李繼定
초패패%한소안%증초이%조홍%주계승%리계정
膜%分离%聚乙烯醇%二氧化硅%渗透蒸发
膜%分離%聚乙烯醇%二氧化硅%滲透蒸髮
막%분리%취을희순%이양화규%삼투증발
membrane%separation%polyvinyl alcohol%silica dioxide%pervaporation
以聚乙烯醇(PVA)和正硅酸乙酯(TEOS)为原料,经溶胶-凝胶(sol-gel)法制备了不同二氧化硅(SiO2)含量的 PVA/SiO2杂化膜。傅里叶变换红外光谱(FT-IR)表明,随着 SiO2含量增大,1060cm-1和970cm-1处Si-O-Si特征吸收峰的相对强度逐渐加强,说明TEOS与PVA发生了交联反应;同时膜的分解温度从248℃升高到342℃。杂化膜的SiO2含量从10%增大到40%,其玻璃态温度从115℃升高到124℃。以水为溶剂,测定了杂化膜的耐溶剂性能,与PVA膜相比,杂化膜的耐溶剂性能显著提高。以质量比为0.950/0.025/0.025的环己烷/环己醇/环己酮为原料,测定杂化膜的分离性能,结果表明 SiO2含量从10%增大到40%,通量从15.94 g/(m2?h)升高到75.69 g/(m2?h),环己醇的分离因子从1.8升高到2.65。
以聚乙烯醇(PVA)和正硅痠乙酯(TEOS)為原料,經溶膠-凝膠(sol-gel)法製備瞭不同二氧化硅(SiO2)含量的 PVA/SiO2雜化膜。傅裏葉變換紅外光譜(FT-IR)錶明,隨著 SiO2含量增大,1060cm-1和970cm-1處Si-O-Si特徵吸收峰的相對彊度逐漸加彊,說明TEOS與PVA髮生瞭交聯反應;同時膜的分解溫度從248℃升高到342℃。雜化膜的SiO2含量從10%增大到40%,其玻璃態溫度從115℃升高到124℃。以水為溶劑,測定瞭雜化膜的耐溶劑性能,與PVA膜相比,雜化膜的耐溶劑性能顯著提高。以質量比為0.950/0.025/0.025的環己烷/環己醇/環己酮為原料,測定雜化膜的分離性能,結果錶明 SiO2含量從10%增大到40%,通量從15.94 g/(m2?h)升高到75.69 g/(m2?h),環己醇的分離因子從1.8升高到2.65。
이취을희순(PVA)화정규산을지(TEOS)위원료,경용효-응효(sol-gel)법제비료불동이양화규(SiO2)함량적 PVA/SiO2잡화막。부리협변환홍외광보(FT-IR)표명,수착 SiO2함량증대,1060cm-1화970cm-1처Si-O-Si특정흡수봉적상대강도축점가강,설명TEOS여PVA발생료교련반응;동시막적분해온도종248℃승고도342℃。잡화막적SiO2함량종10%증대도40%,기파리태온도종115℃승고도124℃。이수위용제,측정료잡화막적내용제성능,여PVA막상비,잡화막적내용제성능현저제고。이질량비위0.950/0.025/0.025적배기완/배기순/배기동위원료,측정잡화막적분리성능,결과표명 SiO2함량종10%증대도40%,통량종15.94 g/(m2?h)승고도75.69 g/(m2?h),배기순적분리인자종1.8승고도2.65。
Polyvinyl alcohol(PVA)/silica(SiO2) hybrid membranes with various silica contents were prepared with the sol-gel method. Fourier transform infrared (FT-IR) spectra showed that the relative intensities of Si-O-Si characteristic absorption peaks at 1060cm-1 and 970cm-1 gradually increased with increasing SiO2 content,indicating crosslinking reaction between tetraethoxysilane(TEOS)and PVA. Thermal gravimetric analysis (TGA) results showed that breakdown temperature increased from 248℃ to 342℃ along with SiO2 content rising from 0 to 40%. Differential scanning calorimetry (DSC) results showed that glass transition temperatures (Tg) rose from 115℃ to 124℃ with increasing SiO2 content from 10% to 40%. Compared with the PVA membrane,solvent resistance of PVA/SiO2 hybrid membranes was significantly improved in water. Using cyclohexane /cyclohexanol/ cyclohexanone mixture with mass fraction of 0.950/0.025/0.025 as feed,separation performance of the hybrid membrane was determined. Total flux increased from 15.94 to 75.69 g/(m2·h) and selectivity of cyclohexanol increased from 1.8 to 2.65 with increasing SiO2 content from 10%to 40%.
