• Korean journal of food and cookery science
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• v.8 no.2
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• pp.95-105
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• 1992

This study was carried on the Seasoning Oil production by Autoclaving Method in order to research a developed method. The Raw, Extract states of seasoning vegetables-Garlic, Onion and Ginger were added 40, 60% (w/w) of total amounts to corn salad oil. All samples treated with various conditions were determined physicochemical characteristics by Acid value, Peroxide value, Iodine value, Refractive Index, and Volatile Carbonyl Compound Content during incubating $(40{\pm}2^{\circ}C)$ and heating $(185{\pm}2^{\circ}C)$. The results were obtained as follws; 1. During incubation at $40{\pm}2^{\circ}C$, the order of antioxidative effects among seasoning vegetables was Ginger>Garlic>BHA>Onion and Extract state were more effective man Raw state. also the antioxidative effects of the seasoning vegetables were increased proportionally with the concentration in the Seasoning Oils. 2. In the case of heat treatment $(185{\pm}2^{\circ}C)$, AV, POV, IV and RI of each Seasoning Oil were changed very sharply. The antioxidative effect and Carbonyl Compound Content according to heat treatment differed from the type and concentration of seasoning vegetables in oil. Ginger had the most excellent antioxidative effect among seasoning vegetables, and m any case, the adding states of seasoning vegetables into oils were more effective in Extract man Raw states. 3. According to those results, each Seasoning Oil made from Garlic, Onion, Ginger was shown to have antioxidative properties specially in Ginger-Extract-Seasoning Oil. also the Autoclaving Method was thought to be rational method in preparation of Seasoning Oil.

• Journal of the Korean Society of Food Culture
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• v.22 no.6
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• pp.808-812
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• 2007

Seasoning oils(SO) were manufactured by direct fire method(DFM) and autoclaving method(AM) using sunflower seed meal. The SO manufactured by DFM is stronger than that by AM for Lovibond color and flavor strength. The flavor strength of 2 kinds SOs were lower than sesame oil as a control group. But acid value of SOs were superior than sesame oil, 0.452, 0.463 and 1.987, respectively. The level of Lovibond color for 2 kinds of sample seasoning oil was similar. Composition and contents of total volatile flavor components were determined from their essential oils of sesame oil and 2 kinds sample seasoning oils. As a result, total volatile flavor contents of sesame oil was 1,300.6 ppm, and that of seasoning oil samples were 697.8 ppm, 648.2 ppm, respectively. Major volatile flavor components of seasoning oil were 2-butanone, hexanal, methyl pyrazine etc. In contrast, major volatile flavor component of sesame oil was pyrazines, but that was not a major component of 2 kinds of sample seasoning oils.

• Food Science and Preservation
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• v.11 no.2
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• pp.142-147
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• 2004

To develop the red pepper seasoning oil(RPSO), corn oil was used as the base oil. For generating hot taste and color, oleoresin capsicum and oleoresin paprika were mixed to base oil (SSO1). Then, for generating black red color, natural black pigment that is extracted from gardenia and kaoliang was added SSO1 to prepare SSO2. To magnify the hot taste, extract of red pepper, phosphoric salt and emulsifier (monogly 20) were. then added to SSO2 to prepare SSO3. This SSO3 was very similar to real red pepper seed oil as a color and taste, but its hot flavor was not enough. To resolve this problem, we mixed about 5% of another oil(SSO4), which was mingled and roasted red pepper powder with corn oil, to SSO3. In terms of above experiment, RPSO was obtained.

• The Korean Journal of Food And Nutrition
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• v.15 no.4
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• pp.337-341
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• 2002

Crude seasoning oil was manufactured from direct heat treatment of com germ, wheat germ, dehulled peanut, mustard, black pepper and com oil(RBD type). The sesame oil substituted was composed of this crude seasoning oil, oil soluble natural pigment mixture and com oil, and showed the similar appearance, flavor and taste with sesame oil. Free fatty acid content of SO was 1/4 than sesame oil, the other values were similar, respectively. Use of this SO was suitable about cooking, general frying as well as frying of laver and Chinese cake. As a result, this SO had possiblility as sesame oil substituted.

• Food Science and Preservation
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• v.12 no.5
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• pp.465-469
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• 2005

Allium fistulosum L. seasoning oils were manufactured by autoclaving method. Materials were from total, leaf, trunk and root part of Allium fistulosum L. with refined soybean oil. Physicochemical characteristics of these Allium fistulosum L. seasoning oils of 4 kinds were not much different, but seasoning oil from leaf part was more green color. Total 35 volatile components were detected, in which propenyl trisulfide and propenyl propyl trisulfide were the major components. They were found as 26.94 ppm and 26.26 ppm in seasening oil from root with the highest level, respectively. Propenyl propyl disulfide was the major component as flavor characteristics in Allium fistulosum L. seasoning oils. Main component of original roasted flavor in Allium fistulosum L. seasoning oils would be confirmed the root part.

• Journal of the Korean Society of Food Culture
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• v.21 no.1
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• pp.81-85
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• 2006

Seasoning oil(SO-1) was manufactured from soybean oil, with ${\beta}-carotene$, oleoresin paprika and 3 kinds of flavors. Color of it's SO-1 was red. Total content of trans fatty acid of SO-1 was low level 0.84%, compare to the butter's and margarine's 1.35%, 28.31%, respectively. Total volatile components of SO-1 was 201,313.11ppm, was higher than soybean oil's, butter's, margarine's and SO-2's(removed 3 kinds of flavors from SO-1), it's value of 63.54ppm, 481.24ppm, 168.95ppm and 205.73ppm, respectively. And smoke point(SP) of SO-1 was higher than others. SP of SO-1, after 6 months later at room temperature, was 240, in contrast with soybean oil's 228. This SO-1, added ${\beta}-carotene$ and flavor components, had a masking effect of burnt flavor. From these results, SO-1 can be replaced of butter or margarine as a substituted oil.

• Culinary science and hospitality research
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• v.10 no.2
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• pp.107-120
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• 2004

In recently, foods must to be contained a health point and fashionable feeling, mayonnaise was called pronoun of dressing must be changes to new products. At this point, new type's dressing oil was research and developing used for raw- materials of 13 kinds. Red pepper seasoning oil, seasoning soy sauce, seasoning solution and seasoning oil were manufactured from soy sauce, vinegar, garlic etc. Manufacturing of new type's dressing oil(DO) could from only blending of these seasoning raw-materials. The result of organoleptic test about vegetables, pizzas and meats was esquired a distinction. According to, it was treated to addition of a functional raw-materials. In this study, it was investigated red pepper DO and DO for diabetic, adult disease patient as well as DO for children, Japanese dining room, general man etc. But these DO products had trouble to layer separation of upper layer and bottom layer, this problem was happened to shaking. This troubles were able to treat gums and emulsifiers.

• Korean Journal of Food Science and Technology
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• v.26 no.5
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• pp.520-525
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• 1994

This study was carried on the garlic-seasoning oil production by autoclaving method and evaporating method in order to research a developed method. The raw, flake, extract states of garlic was added 40%(w/w) of total amounts to corn salad oil. All samples treated with various conditions analyzed the volatile flavor components(VFC) during incubating ($40{\pm}2^{\circ}C$) and heating ($185{\pm}2^{\circ}C$). In the garlicseasoning oils, the contents of propane, pentane, methyl allyl trisulfide and diallyl trisulfide as the major VFC were decreased while the contents of propenal and hexanal increased according to the storage and heat treatment. The order of flavor contents among garlic states were raw>extract>flake, but flavor stability were raw>flake>extract states during storage, while flake>raw>extract states in heat treatment. VFC in garlic-seasoning oil made by evaporating method were about 66.1% level of those made by autoclaving method, but the changing tendency of their content during storage and heat treatment were shown to be similar. According to those results, autoclaving method and evaporating method were thought to the rational method in preparation of garlic-seasoning oil.

• Journal of the Korean Society of Food Culture
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• v.20 no.2
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• pp.214-220
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• 2005

Seasoning oil (SO) for Chinese dish was manufactured from the combination of Maillard reaction for methionine and xylose with autoclaving method. Volatile compounds were determined by GC, GC-MSD for this SO and 3 kinds of seasoning jajang samples which was obtained from restaurant. From this SO 61 kinds-404.92ppm volatile compounds were separated and identified. And from 3 samples of restaurant, 39 kinds-333.52ppm, 42 kinds-330.01ppm, 42 kinds-393.18ppm obtained respectively. Major volatile components of SO were diallyl disulfide, pentane, diallyl trisulfide, t,t-2,4-decadienal and zinngiberene. Those contents were 40.15ppm, 32.32ppm, 19.57ppm, 15.06ppm and 13.23ppm, respectively. Major volatile components in 3 kinds samples were pentane, propenal, hexanal, t-2-heptanal, 2,4-heptadienal, t,t-2,4-decadienal and unknown components. The volatile components of SO were very similar to 3 samples,

• Culinary science and hospitality research
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• v.7 no.2
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• pp.181-194
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• 2001

Dried noodles was manufactured by wheat flour and saline solution mixture. At this time, saline solution mixture was used for simple saline solution and mixture(blending ratio of PNSO and emulsifier=2:1, w/w) of both pine needle seasoning oil (PNSO) manufactured by autoclaving method and food emulsifier. Water absorption ratio, volume expansion ratio and water soluble solid matters content were decreased, but cooking time was prolonged, respectively. According to, suitable treating amount of PNSO was 2-3%(w/w) level. On organoleptic test, the peculiar green color was appeared in cooked noodles of PNSO treating groups. The surface was slickly, chewy rheology and texture were improved at PNSO treating cooked noodle. During 20-30 minutes after cooking, chewy characteristics was maintained the treating groups more than PNSO 2%(w/w). At the result, this PNSO treatin dried noodle samples were suitable at the institutional food service as well as dining hal1 for the case of large scale's kitchen work.