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首页> 外文期刊>Talanta: The International Journal of Pure and Applied Analytical Chemistry >Trends of non-destructive analytical methods for identification of biodiesel feedstock in diesel-biodiesel blend according to European Commission Directive 2012/0288/EC and detecting diesel-biodiesel blend adulteration: A brief review
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Trends of non-destructive analytical methods for identification of biodiesel feedstock in diesel-biodiesel blend according to European Commission Directive 2012/0288/EC and detecting diesel-biodiesel blend adulteration: A brief review

机译:根据欧盟委员会指令2012/0288 / EC和检测柴油机 - 生物柴油混合鉴定的非破坏性分析方法的趋势和检测柴油机 - 生物柴油混合掺假:简要审查

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AbstractDiscrimination of biodiesel feedstock present in diesel-biodiesel blend is challenging due to the great similarity in the spectral profile as well as digital image profile of each type of feedstock employed in biodiesel production. Once the marketed diesel-biodiesel blend is subsidized, in which motivates adulteration in biofuel blend by cheaper supplies with high solubility to obtain profits associated with the subsidies involved in biodiesel production. Non-destructive analytical methods based on qualitative and quantitative analysis for detecting marketed diesel-biodiesel blend adulteration are reviewed. Therefore, at the end is discussed the advantage of the qualitative analysis over quantitative analysis, when the systems require immediate decisions such as to know if the marketed diesel-biodiesel blend is unadulterated or adulterated in order to aid the analyst in selecting the most appropriate green analytical procedure for detecting diesel-biodiesel blend adulteration proceeding in fast way. This critical review provides a brief review on the non-destructive analytical methods reported in scientific literature based on different first-order multivariate calibration models coupled with spectroscopy data and digital image data to identify the type of biodiesel feedstock present in diesel-biodiesel blend in order to meets the strategies adopted by European Commission Directive 2012/0288/EC as well as to monitoring diesel-biodiesel adulteration. According to that Directive, from 2020 biodiesel produced from first-generation feedstock, that is, oils employed in human food such as sunflower, soybean, rapeseed, palm oil, among other oils should not be subsidized. Therefore, thos
机译:<![cdata [ 抽象 柴油机 - 生物柴油混合中存在的生物柴油原料的歧视由于频谱曲线的良好相似性以及每种类型的数字图像配置文件生物柴油生产中的原料。一旦销售的柴油机 - 生物柴油混合物被补贴,其中激励生物燃料混合的掺假因素具有较高的溶解度,以获得与参与生物柴油生产的补贴相关的利润。综述了基于定性和定量分析的非破坏性分析方法进行了综述。综述了检测销售柴油生物柴油混合掺杂的定性分析。因此,在结束时讨论了定性分析的优势,当系统需要立即决定,以便知道销售的柴油生物柴油混合物是否违反或掺假,以帮助分析师选择最合适的绿色以快速方式检测柴油生物柴油混合掺假的分析程序。这次批判性审查简要介绍了基于与光谱数据和数字图像数据耦合的不同一阶多元校准模型在科学文献中报告的非破坏性分析方法的简要审查,以识别柴油机 - 生物柴油混合物中存在的生物柴油原料类型符合欧洲委员会指令2012/0288 / EC采用的策略以及监测柴油生物柴油掺假的策略。根据该指令,从来自第一代原料生产的2020个生物柴油,即人食品中使用的油,如向日葵,大豆,油菜籽,棕榈油,其他油脂不应补充。因此,Thos.

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