OXIDATIVE AND FLAVOR STABILITY OF TORTILLA CHIPS FRIED IN EXPELLER PRESSED LOW LINOLENIC ACID SOYBEAN OIL*

Journal of Food Lipids Pub Date : 2009-05-19 DOI:10.1111/j.1745-4522.2009.01137.x

KATHLEEN WARNER

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引用次数: 15

Abstract

ABSTRACT

To determine effects of expeller oil pressing and decreased linolenic acid, intermittent batch frying tests were conducted with tortilla chips using soybean oil (SBO), expeller pressed SBO (EPSBO), expeller pressed low linolenic SBO (EPLLSBO), high oleic sunflower oil, corn oil and hydrogenated SBO for up to 35 h of frying. Chips were aged at 25C and trained, experienced analytical sensory panelists evaluated their flavor. Oxidative stability of the chips was determined by hexanal analyses and oil fry life was measured by total polar compounds. The stability of tortilla chips fried in EPLLSBO was significantly better than chips fried in SBO or EPSBO as judged by rancid flavor intensity and hexanal formation after storage. This effect may be due, in part, to less linolenic acid in EPLLSBO and better tocopherol retention compared to EPSBO. The combination of expeller pressing and low linolenic acid (EPLLSBO) produced a significantly more stable fried product than expeller pressing (EPSBO) alone.

PRACTICAL APPLICATIONS

Food manufacturers are interested in oils that can be used for frying as alternatives to trans fat-containing hydrogenated fats. Since polyunsaturated vegetable oils are not sufficiently oxidatively stable for frying, alternatives such as modified fatty acid composition oils, additives and oil processing techniques could be used individually or in combination to increase fry life of the oil and shelf life of foods. Although expeller pressing of SBO or reducing linolenic acid of SBO alone have not given SBO the stability equivalent to HSBO, we found that combining decreased linolenic acid and expeller pressing of SBO produced frying oil and fried tortilla chips with the stability similar to that of hydrogenated fat in early stages of frying.

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低亚麻酸大豆油煎炸玉米片的氧化和风味稳定性*

摘要为确定压榨压榨对降低亚麻酸的影响，采用大豆油(SBO)、压榨压榨压榨SBO (EPSBO)、压榨压榨低亚麻酸SBO (EPLLSBO)、高油分葵花籽油、玉米油和氢化SBO对玉米饼片进行间歇分批油炸试验，油炸时间长达35 h。薯条在25摄氏度的温度下陈化，由训练有素、经验丰富的分析感官小组成员评估它们的味道。用己醛法测定了薯条的氧化稳定性，用总极性化合物法测定了薯条的油炸寿命。从腐臭风味强度和储存后己醛生成情况来看，EPLLSBO煎炸玉米饼片的稳定性显著优于SBO和EPSBO煎炸玉米饼片。这种效果可能部分是由于与EPSBO相比，EPLLSBO中亚麻酸较少，生育酚保留更好。与单独使用排气加压(EPSBO)相比，排气加压和低亚麻酸(EPLLSBO)联合使用可以产生更稳定的油炸产品。食品制造商对可用于油炸的油很感兴趣，因为它可以替代含有反式脂肪的氢化脂肪。由于多不饱和植物油的氧化稳定性不足以用于油炸，因此可以单独或联合使用诸如改性脂肪酸组合油、添加剂和油脂加工技术等替代品来延长油的油炸寿命和食品的保质期。虽然对SBO进行压榨或单独对SBO进行亚麻酸还原都不能使SBO达到与HSBO相当的稳定性，但我们发现，将亚麻酸还原与SBO进行压榨所产生的煎炸油和煎炸玉米片在煎炸初期具有与氢化脂肪相似的稳定性。

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来源期刊

Journal of Food Lipids 工程技术-食品科技

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