A new direct extraction by gas-chromatography with flame ionization detector coupled to head space method for the determination of alcohol content of high matrix wine products

IF 0.4 4区化学 Q4 CHEMISTRY, MULTIDISCIPLINARY

Revue Roumaine De Chimie Pub Date : 2023-10-23 DOI:10.33224/rrch.2022.67.10-12.06

Onur Kenan ULUTAŞ, Aysel BERKKAN

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引用次数: 0

Abstract

Detection, identification, and quantitation of alcohol in any matrix rich medium is a common practice although sample preparation is inevitable and time consuming. A sensitive, precise and ultimately wide range method for detection, identification and quantification of main content/residual/impurity alcohols without any matrix interference that can be used for production phase quality control, pharmaceutical and/or bio-technological refinement or toxicological evaluation and for forensics is always needed. Even for quality control also for toxicological considerations, ethanol (EtOH) and very similar compound methanol has to be detected and identified definitely becomes vital. However, with the fermented products, the matrix becomes a challenging process, makes the methods inefficient or more extraction methods have to be implanted. Here we propose a new simple and reliable direct extraction method has been developed for the determination of alcohol content of high matrix wine products using the gas-chromatography with flame ionization detector coupled to head space. The method was developed with a rich and complex component mixture of fermented alcoholic beverages (wine) with very high matrix effects. Isopropanol (IPA) was preferred as an internal standard, and Triton X-100 (TX-100) was used as diluting solution in this method. The amount of TX-100, extraction temperature, and the total volume of solution in head space vial (20 mL) were optimized. 2.5% TX-100, 80 °C extraction temperature, and 2.0 ml of total volume were used as optimum condition. Stationary phase was the fused silica, Agilent J&W DB-624 column (30 m x 320 m x 1.8 m) and Helium was used as a mobile phase. GC oven temperature programme was 40C (5 min), 5C/min ramp to 60C (0 min) and 30C/min to 150C (1 min). Performance of the method was assessed by evaluating the recovery, accuracy, precision, linearity, limits of detection (LOD) and limit of quantification (LOQ). Calibration curve was drawn between the concentration of 2.5% to 15.0% EtOH (y = 1.572x – 0.702, R² = 0.9960, y; the ratio of peak area of EtOH to IPA, x: EtOH%). The slopes of standard addition and external calibration curve were statistically same. Recovery of the method was 97.5 ± 3.5 for tree different concentrations and the precision was %5.8 (n= 11). LOD and LOQ were calculated as 0.80% and 2.5%, respectively. The proposed method has a potential for application into the industry and academia with determination of the alcohol content/residual/impurity and also check the quality and content of the fermented medium without the effect of matrix.

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建立了气相色谱-火焰电离检测器-顶空直接萃取法测定高基质葡萄酒产品酒精含量的新方法

在任何基质丰富的培养基中检测、鉴定和定量酒精是一种常见的做法，尽管样品制备是不可避免的和耗时的。始终需要一种灵敏、精确和最终范围广泛的方法，用于检测、鉴定和定量主要含量/残留/杂质醇，而不受任何基质干扰，可用于生产阶段质量控制、制药和/或生物技术精制或毒理学评估和法医。即使在质量控制方面，也考虑到毒理学方面的考虑，乙醇(EtOH)和非常相似的化合物甲醇必须被检测和识别，这无疑是至关重要的。然而，对于发酵产物，提取基质成为一个具有挑战性的过程，使得提取方法效率低下或必须植入更多的提取方法。本文建立了一种简单可靠的气相色谱-火焰电离检测器-顶空耦合直接萃取法测定高基质葡萄酒产品中酒精含量的新方法。该方法是用成分丰富、成分复杂、基质效应高的发酵酒精饮料(酒)混合物开发的。优选异丙醇(IPA)为内标，以Triton X-100 (TX-100)为稀释液。对TX-100的用量、提取温度、顶空瓶溶液总量(20 mL)进行了优化。以2.5% TX-100，提取温度80℃，总体积2.0 ml为最佳条件。固定相为熔融二氧化硅，Agilent J&W DB-624色谱柱(30 m × 320m × 1.8m)，以氦气为流动相。气相色谱炉温度程序为40ºC(5分钟)，5ºC/分钟上升至60ºC(0分钟)，30ºC/分钟上升至150ºC(1分钟)。通过回收率、准确度、精密度、线性度、检出限(LOD)和定量限(LOQ)评价方法的性能。在2.5% ~ 15.0%的浓度范围内绘制校准曲线(y = 1.572x - 0.702, R²= 0.9960,y;EtOH峰面积与IPA的比值，x: EtOH%)。标准添加曲线和外标曲线斜率具有统计学意义。三种不同浓度的回收率为97.5±3.5，精密度为%5.8 (n= 11)。LOD和LOQ分别为0.80%和2.5%。该方法具有应用于工业和学术界的潜力，可用于测定酒精含量/残留量/杂质，并可在不受基质影响的情况下检查发酵培养基的质量和含量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Revue Roumaine De Chimie 化学-化学综合

CiteScore

0.80

自引率

20.00%

发文量

审稿时长

>12 weeks

期刊介绍： The journal Revue Roumaine de Chimie (Roumanian Journal of Chemistry) was founded in 1956 under the name Revue de Chimie. Acad. R. P. R. from 1964, the title was modified in Revue Roumaine de Chimie (preserving the numbering of the volumes started in 1956). In 1997, the English translation of the title – Roumanian Journal of Chemistry – was also included on each issue.