硬脂酸甲酯

  • 网络methyl stearate;St-ME
硬脂酸甲酯硬脂酸甲酯
  1. 与其他典型的方法不同,该方法仅用4%的皂就可使硬脂酸甲酯转化率超过99%,大大减少了皂的用量。

    In contrast with other typical methods , the conversion of methyl stearate in the disperse system could exceed 99 % with only 4 % of soap ( mass ratio ) which decreased greatly .

  2. Ti(SO4)2/C催化合成硬脂酸甲酯的研究

    Synthesis of Methyl Stearate Catalyzed by Ti ( SO_4 ) _2 / C

  3. AlCl3/D(72)树脂催化合成硬脂酸甲酯的研究

    Study on synthesis of methyl stearate by AlCl_3 / D_72 resin

  4. 合适的反应条件为:保护甘油与硬脂酸甲酯的摩尔比1.5∶1,催化剂K2CO3/硬脂酸甲酯1%(W/W),反应时间6h,反应温度140℃。

    The optimum reaction conditions were as follows : the molar ratio of protected glycerol to methyl stearate 1.5 ∶ 1 , reaction time ( 6 h ) and temperature 140 ℃ .

  5. 研究了在无溶剂系统中,利用1,3位置特异性脂肪酶催化POMF与硬脂酸甲酯进行酯交换(反应)制取类可可脂。

    Cocoa butter equivalent ( CBE ) production from palm oil m idfraction ( POMF ) and stearic acid methyl ester ( SAME ) by interesterification catalyzed by1,3 specific lipases in solvent free system was studied .

  6. 硫酸钛催化合成硬脂酸甲酯绿色新工艺

    New Green Technology of Synthesis of Methyl Stearate Catalyzed by Titanium Sulphate

  7. 酶通过分离回收后重复利用,酶的消耗量为硬脂酸甲酯量的1.0%。

    By reclamation , the amount of consumed immobilized lipase was 1.0 % to methyl stearate .

  8. 主要以乌桕脂与硬脂酸甲酯在固定化脂肪酶催化下的酯交换反应作为模型体系研究了无溶剂体系酶催化酯交换反应。

    This paper mainly studied the lipase-catalyzed interesterification of Chinese vegetable tallow and methyl stearate to produce cocoa butter equivalent in solvent-free system .

  9. 通过把微细蔗糖和硬脂酸甲酯制成粗分散体系(粒径小于10μm),用无溶剂法制备出了单酯含量高达79.8%的蔗糖酯。

    The sucrose esters containing about 80 % monoester were prepared with free of solvent by dispersing fine sucrose in methyl stearate to form dispersion with particle size less than 10 μ m.