小桐子油超声波协同纳米催化剂制备生物柴油
소동자유초성파협동납미최화제제비생물시유
Biodiesel preparation using Jatropha oil by ultrasonic and nanometer catalysts
  • 万方数据
    农业工程学报 농업공정학보

    2010年 2期 285-289 ,共5页

    邓欣%方真%张帆%龙运多%于长流

    산흔%방진%장범%룡운다%우장류

    催化剂%生物柴油%超声波%辐射%酯交换 催化劑%生物柴油%超聲波%輻射%酯交換
    최화제%생물시유%초성파%복사%지교환
    nanometer catalysts%biodiesel%ultrasonics%process conditions%radialization%transesterification
    以纳米Zn-Mg-Al高温煅烧物为催化剂,高酸值小桐子油为原料,超声波反应器中连续生产生物柴油,并系统研究超声波辐射协同纳米催化剂催化制备生物柴油的最优条件.研究结果表明,超声波协同纳米催化剂催化制备生物柴油的最优条件为:超声波功率210W、醇油摩尔比4:1、催化剂为油质量的1.2%、反应温度60℃生物柴油收率943%.在此优化条件下完全可实现小桐子油连续工业化生产生物柴油的需求,精制后的生物柴油完全符合德国生物柴油标准DIN V 51606:1997,且理化性质稳定,放置1 a后生物柴油的酸值、密度、黏度和化学组成基本不变.
    이납미Zn-Mg-Al고온단소물위최화제,고산치소동자유위원료,초성파반응기중련속생산생물시유,병계통연구초성파복사협동납미최화제최화제비생물시유적최우조건.연구결과표명,초성파협동납미최화제최화제비생물시유적최우조건위:초성파공솔210W、순유마이비4:1、최화제위유질량적1.2%、반응온도60℃생물시유수솔943%.재차우화조건하완전가실현소동자유련속공업화생산생물시유적수구,정제후적생물시유완전부합덕국생물시유표준DIN V 51606:1997,차이화성질은정,방치1 a후생물시유적산치、밀도、점도화화학조성기본불변.
    Biodiesel was prepared continuously in an ultrasonic tubular reactor with calcined Zn-Mg-Al hydrotalcite as catalyst and Jatropha oil as raw material with high acid value. Assisted with ultrasonic radialization, the optimized conditions for biodiesel production catalyzed by calcined Zn-Mg-Al hydrotalcite were obtained. Experimental results showed that at the optimized conditions, i.e., ultrasonic power 210 W, methanol to Jatropha oil molar ratio 4:1, catalyst concentration 1.2% and reaction temperature 60℃, the yield of biodiesel was 94.3%. On the optimized conditions, biodiesel could be continuously produced with Jatropha oil as raw material, the specification of biodiesel after purification completely met German biodiesel standard DIN V 51606: 1997 and the physicochemical properties were stable. The acid value, density, viscosity and chemical compositions of biodiesel stored for 1 year were invariable.
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