生物柴油(混合物)的FTIR分析生物柴油(混合物)的FTIR分析 Analysis of Biodiesel blends by FTIR Analysis of Biodiesel blends by FTIR 岛津制作所 生物柴油燃料是以来自生物的油脂为原料制造的柴油发动机用燃料,有利于防止地球变暖而引人注目,在世界各国实用化不断取得进展。 生物柴油燃料的制造过程是将油脂甲酯化, ...
生物柴油混合物的ft i r分析analysis of biodiesel blends by ftir岛津制作所生物柴油燃料是以来自生物的油脂为原料制造的柴油发动机用燃料,有利于防止地球变暖而引人注目,在世界各国实用化不断取得进展。生物柴
生物柴油(混合新新物)的FTIR分析解析 生物柴油(混合物)的FTIR分析 Analysis of Biodiesel blends by FTIR 岛津制作所 生物柴油燃料是以来自生物的油脂为原料制造的柴油发动机用燃料,有利于防止地球变暖而引人注目,在世界各国实用化不断取得进展。生物柴油燃料的制造过程是将油脂甲酯化,去除丙三醇,转化为...
Analysis of Biodiesel blends by FTIR 岛津制作所 生物柴油燃料是以来自生物的油脂为原料制造的柴油 发动机用燃料,有利于防止地球变暖而引人注目, 在世界各 国实用化不断取得进展。生物柴油燃料的制造过程是将油脂 甲酯化,去除丙三醇,转化为脂肪酸甲酯 (FattyAcid Methyl ...
The reactions were performed at 65 掳C, methanol-to-oil molar ratio 9:1, catalyst dosage of 1 wt.%, and reaction time of 240 min. The biodiesel analysis was carried out by Fourier Transform Infrared spectroscopy (FTIR) and Gas Chromatography (GC). Calcium-based catalyst, pure oxide (CaO...
APPLICATION NOTE Biodiesel (FAME) Analysis by FTIR Key words Attenuated Total Reflectance (ATR), biodiesel, biofuel, chemometrics, diesel blend, FAME, fatty acid of methyl, FTIR, ester, palm, rapeseed, soy Introduction The compression-ignition engine patented by Rudolf Diesel used large injectors ...
Test Method for Low Level Detection of Biodiesel in Diesel Using the Agilent 5500t FTIR Spectrometer Application note covers the simplicity and accuracy of detecting the percentage of biodiesel contamination in diesel fuel 应用简报 English 2015 年 11 月 10 日 ...
关键词:生物柴油;热解;热重.傅里叶变换红外光谱联用;非预置模型法 中图分类号:TQ646 文献标志码:A 文章编号:1000—6613(2014)06—1435—05 DoI:10.3969~.issn.1000-6613.2014.06.014 TG—FTIRinvestigationonthebiodieselpyrolysiswithkineticcalculation HUOMeng/ia,NIUShengli,LUChunmei,LIUMengqi,LIHui (SchoolofEne...
Attenuated total reflectance-Fourier transform infrared (ATR–FTIR) spectroscopy and multivariate analysis were used to study honey intentionally adulterat... Rios-Corripio,A M.,Rojas-López*,... - CyTA - Journal of Food 被引量: 26发表: 2012年 Determination of biodiesel adulteration with raw ve...
FTIR analysis. Acid-catalyzed liquefaction yielded 95.1%, with the resultant polyol having an OH index of 1081 mg KOH/g, while base catalysis yielded 82.5%, with a similar OH index of 1070 mg KOH/g. Generally, compressive strength with dibutyltin dilaurate (DBTDL) ranged from 16 to 31 kPa...