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为研究高油酸菜籽油作为煎炸油的潜力,使用高油酸菜籽油煎炸土豆、鸡柳和豆腐3种不同食材18 h,分析煎炸过程中油样的总极性组分含量、酸值、过氧化值、碘值和脂肪酸组成的变化,并对煎炸食品进行了吸油率测定和感官评价,研究煎炸食材对高油酸菜籽油煎炸稳定性的影响。结果表明:3种食材对高油酸菜籽油总极性组分含量、酸值、过氧化值和碘值影响大小顺序均为土豆>鸡柳>豆腐;煎炸18 h时,3组高油酸菜籽油的单不饱和脂肪酸(MUFA)和多不饱和脂肪酸(PUFA)含量降低,而饱和脂肪酸(SFA)含量增加,其中煎炸土豆的高油酸菜籽油PUFA含量降幅最大,煎炸鸡柳的高油酸菜籽SFA含量增幅最大;煎炸3 h,3种食材感官评分分别达到了9.32、9.24分和9.12分,之后随着煎炸时间的延长感官评分降低,但豆腐的降幅最小。综上,结合豆腐水分含量高的特性,推测高油酸菜籽油更适合用于高水分含量食材的煎炸,且最佳煎炸时间应控制在3 h之内。 相似文献
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以无抗氧化剂精炼大豆油为原料煎炸冷冻薯条,研究了大豆油煎炸过程中脂肪酸组成以及理化指标酸值、羰基值、过氧化值和极性物质的变化,并对脂肪酸组成变化与理化指标变化之间的关系进行了讨论。结果表明:在40 h的煎炸过程中,大豆油饱和及单不饱和脂肪酸含量增加,多不饱和脂肪酸含量减少,且煎炸时间在0~30 h内脂肪酸增加量与减少量基本相当;过氧化值先增大后减小再增大;羰基值先缓慢增加后快速增加再缓慢增加;极性物质先缓慢增加后快速增加;酸值匀速增加;16碳脂肪酸增加量、氢过氧化物分解量及羰基值增加量的变化趋势相吻合。 相似文献
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食用油煎炸过程中的品质变化研究 总被引:9,自引:0,他引:9
油炸食品是中国的传统食品,深受广大消费者的喜爱。然而食用油随着煎炸时间的延长,逐渐分解聚合,产生大量的严重影响食品品质及风味的醛、酮、酸、聚合物等物质,其对人体的健康存在着潜在的危害,甚至可以致癌。在食用油煎炸过程中,对油脂品质相关的指标(包括酸值、碘值、皂化值、过氧化值、脂肪酸组成、氧化稳定性、黏度、聚合物的含量以及甘一酯、甘二酯和甘三酯的含量)进行检测,结果表明,随着煎炸时间的延长,煎炸油中的聚合物含量大大升高,黏度增大,有少量甘二酯生成,不饱和脂肪酸含量下降,碘值、皂化值降低,酸值、过氧化值升高。 相似文献
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不同煎炸食材对米糠油煎炸品质影响的研究 总被引:1,自引:0,他引:1
利用米糠油对不同煎炸食材进行间歇性煎炸,通过对煎炸油色泽、酸值、羰基值、脂肪酸组成、反式脂肪酸含量、维生素E含量的检测分析,对比研究植物淀粉基食材(薯条)、高含水量食材(豆腐)、肉类食材(鸡翅)、面粉基食材(油条)4种代表性煎炸食材对煎炸油品质的影响。结果表明:不同煎炸食材因所含主要组分的不同,对煎炸油品质劣变呈现出不同程度的影响;煎炸油酸值增大程度依次为豆腐鸡翅油条薯条;羰基值增大程度依次为油条薯条豆腐鸡翅;总反式脂肪酸增大程度依次为油条鸡翅薯条=豆腐;维生素E含量降低程度依次为薯条油条鸡翅豆腐。 相似文献
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煎炸过程中,油脂会发生水解、氧化、聚合等一系列化学反应,其中一些反应产物影响着油脂和煎炸食品的安全、健康和保质期。抗氧化剂可以有效抑制油脂的氧化,提高油脂的煎炸稳定性。油脂的煎炸稳定性通常通过测定极性组分、过氧化值、酸价、不饱和脂肪酸以及有害物质的含量等进行评价。结合近年来国内外抗氧化剂应用于油脂的最新研究,系统阐述了抗氧化剂对油脂煎炸稳定性的影响,同时总结了抗氧化剂在油脂煎炸过程中的变化,最后提出抗氧化剂在实际应用中面临的问题,以期为抗氧化剂尤其是天然抗氧化剂在油脂中的应用提供参考。 相似文献
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深度油炸对食用油中反式亚油酸含量的影响 总被引:1,自引:0,他引:1
选用我国消费最普遍的压榨大豆油和三级浸提大豆油为试验材料,研究不同大豆油经反复油炸对反式亚油酸含量的影响及其含量随油炸次数增加的变化规律。试验分为2组,反复油炸40次,每炸5次采集1次油样,每组测定3个重复。薯条油炸温度为180~185℃,油炸时间为32 h。试验结果表明,压榨大豆油和三级浸提大豆油中总反式亚油酸含量分别为0.18 g/100 g和0.08 g/100 g,前者极显著高于后者(P=0.001),9-cis,12-trans C18:2和9-trans,12-cis C18:2是2种大豆油中主要的反式亚油酸。深度油炸极显著提高大豆油中反式亚油酸含量(P=0.000),在反复油炸40次后,压榨大豆油和三级浸提大豆油中总反式亚油酸含量分别为1.11 g/100 g和0.68 g/100 g,且前者极显著高于后者(P=0.008)。压榨油反式亚油酸经油炸增加幅度高于三级浸提大豆油。 相似文献
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A Comparative Study of the Characteristics of French Fries Produced by Deep Fat Frying and Air Frying 下载免费PDF全文
Maria del Rocio Teruel Michael Gordon Maria Belen Linares Maria Dolores Garrido Araya Ahromrit Keshavan Niranjan 《Journal of food science》2015,80(2):E349-E358
Air frying is being projected as an alternative to deep fat frying for producing snacks such as French fries. In air frying, the raw potato sections are essentially heated in hot air containing fine oil droplets, which dehydrates the potato and attempts to impart the characteristics of traditionally produced French fries, but with a substantially lower level of fat absorbed in the product. The aim of this research is to compare: (1) the process dynamics of air frying with conventional deep fat frying under otherwise similar operating conditions, and (2) the products formed by the 2 processes in terms of color, texture, microstructure, calorimetric properties, and sensory characteristics. Although, air frying produced products with a substantially lower fat content but with similar moisture contents and color characteristics, it required much longer processing times, typically 21 min in relation to 9 min in the case of deep fat frying. The slower evolution of temperature also resulted in lower rates of moisture loss and color development reactions. Differential scanning calorimetry (DSC) studies revealed that the extent of starch gelatinization was also lower in the case of air fried product. In addition, the 2 types of frying also resulted in products having significantly different texture and sensory characteristics. 相似文献
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Nyam Kar Lin Chew Kin Ken 《食品科学与工程:英文版(2...》2014,(2):71-81
The aim of this study was to evaluate the relative stability of extra virgin olive oil (EVOO), virgin coconut oil (VCO) and grape seed oil (GSO) against domestic deep frying. Oil samples were subjected to deep frying at 190 ℃ for 30, 60, and 90 min and then compared with fresh oil samples in terms of fatty acid composition, peroxide value (PV), p-anisidine value (p-AV), total oxidation value (TOTOX), iodine value (IV), free fatty acid content (%FFA) and total phenolic content (TPC). Experimental results showed that the changes in the fatty acid composition, p-AV and TOTOX were in the order, GSO 〉 EVOO 〉 VCO throughout the experiment, while PV was in the order, VCO 〉 EVO0 〉 GSO. Meanwhile, the reduction in the IV was in the order, GSO 〉 VCO 〉 EVOO throughout the experiment. On the other hand, the changes in the %FFA were in the order, VCO 〉 GSO 〉 EVO0 throughout the experiment. VCO had the greatest stability against domestic deep frying, followed by EVO0 and GSO had the least stability against domestics deep frying. 相似文献
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Oil Uptake in Deep Fat Frying as Affected by Porosity 总被引:2,自引:0,他引:2
The porosity of a restructured potato product ranged from 0.089 to 0.168 after fluctuating subfreezing storage temperatures. A linear relation was found between oil uptake during frying and porosity prior to frying. Bulk and particle density, and porosity were monitored for up to 5 min during deep-fat frying. Particle density increased gradually, bulk density decreased and porosity increased noticeably. After an initial short period, oil uptake correlated linearly with porosity of the fried product. A new term, “net porosity” which excluded the void volume occupied by oil was developed for describing the oil uptake mechanism. 相似文献
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考察不同添加量(0.01%、0.02%、0.03%、0.07%、0.14%)石榴皮醇提物(ethanol extract of pomegranate peel,EEPP)对薯条深度油炸过程中煎炸油的氧化稳定性和丙烯酰胺(acrylamide,AA)生成情况的影响。结果表明EEPP表现出较高的1,1-二苯基-2-三硝基苯肼自由基抑制率(20%~97%)、2,2’-联氮基-双-(3-乙基苯并噻唑啉-6-磺酸)二铵盐阳离子自由基抑制率(16%~91%)和铁离子还原力(0.3~8.24 mmol/g);其总酚含量为20.14 mg/g。相较于低添加量的EEPP,添加量为0.14%的EEPP对煎炸油中酸价、过氧化值和极性组分含量的增长速率延缓效果最好,从而表现出最高的氧化稳定性。另外,在此添加量下,对薯条和煎炸油中的AA也具有良好的抑制作用(抑制率达83%)。所以,EEPP具有成为新型抗氧化剂的潜在能力,以延缓薯条油炸过程中煎炸油的氧化劣变速率和有效抑制薯条油炸过程中AA的产生,确保煎炸食品的安全性。 相似文献
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为研究马铃薯条对不同油脂的吸收规律,使用深度油炸1、3、5 d后的大豆油、油茶籽油及两种油脂不同比例调和油煎炸马铃薯条,测定马铃薯条在油炸过程中总油脂、表面油脂、结构油脂、水分含量的变化。结果发现:对于同一种油脂来说,马铃薯条中总油脂含量随油炸时间的延长而增加;对于各新鲜油脂处理组马铃薯条,当油炸时间小于150 s时,总油脂含量随油炸时间的延长而明显增加,当油炸时间超过150 s时,总油脂含量随油炸时间的延长变化不明显,油炸240 s后的总油脂含量接近0.22 g/g。油脂劣变程度对油炸马铃薯条的油脂含量有明显影响,对于相同劣变程度的油脂,随油炸时间延长,油脂黏度增大,马铃薯条对油脂吸附能力增强,表现为所有处理组马铃薯条的表面油脂含量的升高。在油炸过程中,当油炸时间小于120 s时,水分含量变化速率随着反复油炸时间的延长而降低;油炸150~240 s时,总油脂含量与水分含量的比值随着油炸时间的延长差异逐渐增加,其中在使用深度油炸3、5 d的油处理时,油茶籽油油炸组最高。 相似文献