Low-Temperature Domestic Deep-Frying of Soybean-Cake Tempe in Vegetable Cooking Oils: How Many Times Are Stable to Use?

IF 1.9 4区 农林科学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Retno Murwani, Yoni Anggun Endah Kurniati, Ambariyanto Ambariyanto, Anthony J. Sinskey
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引用次数: 0

Abstract

Tempe has gained global popularity, with local vegetable oils commonly used for frying. This study evaluates the cooking temperature and stability of five vegetable oils (olive [Oo], palm [Po], canola [Cnlo], sunflower [Sfo], and coconut [Cco]) for deep-frying Tempe, using acid and peroxide values (AV and PV), antiradical activity, and saturated and unsaturated fatty acids. AV, PV, and linolenic acid (LNA) were referenced to international standards for vegetable oil (0.6 mg KOH/g, 10 mEq of oxygen/kg oil, and 2% for AV, PV, LNA respectively). The initial oil temperature was 130°C ± 1°C, with final temperatures between 145.7°C ± 6.8°C at the lowest and 156.8°C ± 13.0°C at the highest, well below existing studies (≥170°C–250°C). Based on AV and PV, Oo, Po, and Cco were stable up to the fourth, fifth, and eighth frying repeat (FR). The PV of Cnlo (10.2 mEq of oxygen/kg oil) and Sfo (15.5 mEq of oxygen/kg oil) exceeded the maximum limit after one use. The Fresh Cnlo LNA (7.35%) was higher than the limit, while the rest of the oils remained lower and stable until the seventh FR. Po exhibited the highest average antiradical activity (85.42% ± 4.63%), followed by Oo (31.01% ± 10.26%), Sfo (27.96% ± 9.67%), Cnlo (21.85% ± 5.71%), and Cco (14.40% ± 3.46%). Cco had the highest saturated fatty acids (SFA), Oo had the highest monounsaturated fatty acids (MUFA), and Sfo had the highest polyunsaturated fatty acids (PUFA). No significant SFA, MUFA, or PUFA changes were observed up to the seventh FR. Trans-fatty acids C18:1n 9T and C18:2n 6T were undetected in fresh and used oil, indicating a unique character in low-temperature deep-frying in domestic settings. This study provides a comprehensive analysis of low-temperature deep-frying of Tempe. It suggests that Oo, Po, Cnlo, Sfo, and Cco were stable to deep-fried Tempe for four, five, zero, one, and eight FR, respectively. Deep-frying Tempe at lower temperatures and for a shorter duration may enhance its health benefits and help retain its flavor.”

Abstract Image

用植物食用油在国内低温油炸大豆蛋糕豆豉:使用多少次才稳定?
Tempe 在全球越来越受欢迎,当地的植物油通常用于油炸。本研究利用酸值和过氧化值(AV 和 PV)、抗自由基活性以及饱和脂肪酸和不饱和脂肪酸,评估了五种植物油(橄榄油 [Oo]、棕榈油 [Po]、菜籽油 [Cnlo]、葵花籽油 [Sfo] 和椰子油 [Cco])用于油炸豆豉的烹饪温度和稳定性。AV、PV 和亚麻酸(LNA)参照了植物油的国际标准(分别为 0.6 mg KOH/g、10 mEq 氧/kg 油和 2%的 AV、PV、LNA)。初始油温为 130°C ± 1°C,最终温度最低为 145.7°C ± 6.8°C,最高为 156.8°C ± 13.0°C,远低于现有研究(≥170°C-250°C)。根据 AV 和 PV 值,Oo、Po 和 Cco 在第四次、第五次和第八次油炸重复(FR)之前都很稳定。Cnlo(10.2 mEq 氧/kg 油)和 Sfo(15.5 mEq 氧/kg 油)的 PV 值在使用一次后超过了最高限值。新鲜 Cnlo LNA(7.35%)高于限值,而其他油类则保持较低水平,并在第七次使用前保持稳定。Po 的平均抗自由基活性最高(85.42% ± 4.63%),其次是 Oo(31.01% ± 10.26%)、Sfo(27.96% ± 9.67%)、Cnlo(21.85% ± 5.71%)和 Cco(14.40% ± 3.46%)。Cco的饱和脂肪酸(SFA)最高,Oo的单不饱和脂肪酸(MUFA)最高,Sfo的多不饱和脂肪酸(PUFA)最高。在第七次 FR 之前,未观察到 SFA、MUFA 或 PUFA 的明显变化。在新鲜油和废油中均未检测到反式脂肪酸 C18:1n 9T 和 C18:2n 6T,这表明国内低温油炸具有独特性。本研究对淡豆豉的低温油炸进行了全面分析。研究表明,Oo、Po、Cnlo、Sfo 和 Cco 对油炸淡豆豉的稳定性分别为 4、5、0、1 和 8 FR。在较低温度和较短时间内油炸淡豆豉可能会增强其健康益处,并有助于保持其风味"。
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来源期刊
Journal of Food Safety
Journal of Food Safety 工程技术-生物工程与应用微生物
CiteScore
5.30
自引率
0.00%
发文量
69
审稿时长
1 months
期刊介绍: The Journal of Food Safety emphasizes mechanistic studies involving inhibition, injury, and metabolism of food poisoning microorganisms, as well as the regulation of growth and toxin production in both model systems and complex food substrates. It also focuses on pathogens which cause food-borne illness, helping readers understand the factors affecting the initial detection of parasites, their development, transmission, and methods of control and destruction.
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