Study on the Purification and Reusability of Burnt Cooking Oil and Assessment of Its Physicochemical and Safety Parameters

Asian Food Science Journal Pub Date : 2023-05-09 DOI:10.9734/afsj/2023/v22i5633

B. Khaled, Adda Ann Sina, A. Alam, M. A. Alim, M. Biswas

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Abstract

Aims: The aim of the study was to investigate the reusability of edible oils and to find which temperature the refined oils could be used for cooking purposes. Study Design: The study followed a completely randomized design (CRD). Place and Duration of Study: The study was conducted at the Department of Agro Product Processing Technology and its corresponding laboratory on Jashore University of Science and Technology, Jashore, Bangladesh. The study took three consecutive months to complete the study. Methodology: The study adopted several methods to refine the burnt cooking oils and analyze their physicochemical as well as cooking qualities. At first, the heat was applied to commercially purchased palm, soybean, and rice bran oil. Produced burnt oil was refined using a base and hexane mixture. After that, these refined oils were repeatedly heated for 15, 30 and 60 minutes and physicochemical quality like peroxide value (PV), saponification number (SN), acid value (AV), etc were analyzed for each oil sample at each time interval. Furthermore, cooking quality of the refined oils was determined by frying sausages using each oil and the flavor, color, texture and overall acceptability were determined using hedonic scale. Results: The study found that the refining rate of each oil was at the peak when the base -to-hexane ratio was 9:1. An increasing trend was observed in the case of the peroxide value of the refined oils during repeated heating. This trend was most predominant in case of palm oil. In palm oil sample, PV of palm oil increased from 4.950±0.6 to 14.432±0.86 meqo2/kg oil at the third time of heating. The other two sample oils also crossed the standard PV of the respective oil at the third time of heating. It means all the refined oil can be used for a maximum of three times. Acid value of the oils also showed the same trend of increasing with an increase in temperature. In the case of SN, palm oil showed a higher degree of saturation with increased heating time among the refined oils. The flavor, color, texture, and overall acceptability of the sausages fried in these three showed significant differences at p<0.05. This is an indicator that burnt cooking oil that was refined can be reused in cooking. Conclusion: Due to the increasing price of edible oils and limited resources, they can be refined from their burnt stage and reused for cooking. Therefore, refining can be a good method to solving edible oil scarcity.

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焦化食用油的提纯、再利用及其理化、安全参数评价研究

目的:本研究的目的是调查食用油的可重复使用性，并找出精炼油可用于烹饪目的的温度。研究设计:研究采用完全随机设计(CRD)。研究地点和时间:本研究在孟加拉国j岸上科技大学农产品加工技术系及其相应实验室进行。这项研究用了连续三个月的时间才完成。方法:采用多种方法对焦化食用油进行精制，并对其理化性质和烹调品质进行分析。起初，热应用于商业购买的棕榈油、大豆油和米糠油。生产的焦油用碱和己烷的混合物精制。然后，将这些成品油反复加热15、30和60分钟，并在每个时间间隔对每个油样的过氧化值(PV)、皂化值(SN)、酸值(AV)等理化性质进行分析。此外，通过使用每种油油炸香肠来确定成品油的烹饪质量，并使用hedonic量表来确定风味，颜色，质地和整体可接受性。结果:研究发现，当碱与己烷比为9:1时，各油的精炼率最高。在重复加热过程中，成品油的过氧化值有增加的趋势。这一趋势在棕榈油方面最为明显。在棕榈油样品中，在第三次加热时，棕榈油的PV从4.950±0.6增加到14.432±0.86 meqo2/kg油。另外两种样品油在第三次加热时也超过了各自油的标准PV值。这意味着所有的精炼石油最多可以使用三次。随着温度的升高，油的酸值也呈现出相同的升高趋势。在SN的情况下，棕榈油的饱和程度随着加热时间的增加而增加。3种油炸香肠的风味、色泽、质地和总体接受度差异显著(p<0.05)。这是一个指标，燃烧的食用油，提炼可以在烹饪中重复使用。结论:由于食用油价格的上涨和资源的限制，食用油可以在燃烧阶段提炼并重复用于烹饪。因此，炼油是解决食用油短缺的好方法。

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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Asian Food Science Journal

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