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http://dx.doi.org/10.9721/KJFST.2012.44.6.736

Brewing and Quality Characteristics of Korean Honey Wine (Mead) with a Variety of Honey and Yeast  

Lee, Dae Hyoung (Gyeonggi-do Agricultural Research and Extension Services)
Kang, Heui-Yun (Gyeonggi-do Agricultural Research and Extension Services)
Lee, Yongseon (Gyeonggi-do Agricultural Research and Extension Services)
Cho, Chang-Hui (Gyeonggi-do Agricultural Research and Extension Services)
Park, In-Tae (Gyeonggi-do Agricultural Research and Extension Services)
Kim, Heui-Dong (Gyeonggi-do Agricultural Research and Extension Services)
Lim, Jae-Wook (Gyeonggi-do Agricultural Research and Extension Services)
Publication Information
Korean Journal of Food Science and Technology / v.44, no.6, 2012 , pp. 736-742 More about this Journal
Abstract
In this study, the brewing and quality characteristics of a variety of honey and yeast strains in Korea were investigated. After fermenting acacia honey, chestnut honey, citrus honey, and mixed flower honey using commercial yeast, the quality changes during fermentation were investigated. Chestnut honey wine (mead) and mixed flower mead showed the highest ethanol contents of 11.9 and 11.3%, respectively after fermenting for 8 days at $25^{\circ}C$. Acacia mead and citron (Chinese lemon) mead showed 5.0 and 8.2% ethanol contents, respectively. Mixed mead, which fermented with acacia honey and mixed flower honey, in order to advance sensory properties, showed the best sensory properties, generating 10.9% ethanol, while another product with citron honey and mixed flower honey generated 11.1% of ethanol but with a lower sensory value. When adding corium peels to the mixed mead of acacia honey and mixed flower honey, the ethanol content was not increased by addition of corium peels into mixed mead, but its total acceptability was increased by addition of 2% corium peels. To check the mead clarification, it was treated with 0.6% of bentonite and filtered; then, its turbidity was observed over a storage period. The safe result for precipitation was shown at the condition of storing at $10^{\circ}C$ for 15 days with 0.24 NTU (Nepthelometric Turbidity Unit).
Keywords
honey wine; mead; fermentation; clarification;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 Bang KS, Cha YH. Characterization of natural properties of Korean honey as functional food. Rural Development Administration, Suwon, Korea. pp. 1-37 (2007)
2 Terrab A, Vega-Perez JM, Diez MJ, Heredia HJ. Characterization of northwest Moroccan honeys by gas chromatographic-mass spectrometric analysis of their sugar compounts. J. Sci. Food Agr. 8: 179-185 (2001)
3 Nagai T, Inone H, Suzuki N. Scavenging capacities of pollen extracts from Cistus ladaniferus on autoxidation, superoxide radicals, hydroxyl radicals, and DPPH radicals. Nutr. Res. 22: 519-526 (2002)   DOI   ScienceOn
4 Lew YS. History of honey wine (mead) in Korea. Korean J. Apicultural. 10: 57-109 (1995)
5 Jung ST, Rhim JW, Kim DH. Fermentation characteristics of honey wine by Saccharomyces bayanus. Korean J. Food Sci. Technol. 31: 1044-1049 (1999)
6 Kim SH, Kim SJ, Kim BH, Kang SG, Jung ST. Traditional Honey Wine Prepared with Nuruk-Yeast Mixture. Korean J. Food Sci. Technol. 32: 1168-1172 (2000)
7 Fabin FW. The use of honey in marking fermented drinks. Fruit Prod. J. Fd. Mfr. 14: 363-366 (1935)
8 Filipello F, Marsh GL. Honey wine. Fruit Prod. J. Fd. Mfr. 41:78-81 (1941)
9 Kime RW, McLellan MR, Lee CY. An improves method of mead production. Am. Bee. J. 131: 394-395 (1991)
10 Kime RW, McLellan MR, Lee CY. Ultra-filtration of honey for mead production. Am. Bee J. 131: 394-395 (1991)
11 Morse R. The fermentation of diluted honey. PhD thesis, Cornell University, Ithaca, NY, USA (1953)
12 Steinkraus KH, Morse RA. Factor influencing the fermentation of honey in mead production. J. Apicult. Res. 5: 147-26 (1966)
13 Kime RW, Lee CY. The use of honey in apple wine marking. Am. Bee J. 127: 270-271 (1987)
14 Kime RW, Lee CY, Gavitt B. The use of honey in wine marking. Am. Bee J. 130: 535-536 (1990)
15 Rhim JW, Kim DH, Jung ST. Production of fermented honey wine. Korean J. Food Sci. Technol. 29: 337-342 (1997)
16 Kim DH, Rhim JW, Jung ST. fermentation characteristics of honey wine by Saccharomyces bayanus. J. Food Sci. Technol. 31: 1044-1049 (1999)
17 Bruce WZ, Kenneth CF, Barry HG, Fred SN. Wine Analysis and Production, Chapman & Hall, New York, NY, USA. pp. 370-372, 426-428 (1995)
18 Kim DH, Rhim JW, Jung ST. Clarification and aging of fermented honey wine. Korean J. Food Sci. Technol. 31: 1330-1336 (1999)
19 Bae SM. Edible Everything can become Alcoholic Beverages. Wogok Press, Inc., Seoul, Korea. pp. 9-109 (2006)
20 NTSA. Textbook of alcoholic beverage-making. National Tax Service administration, Technical Service Institute, Seoul, Korea (1997)
21 Kim JH, Lee DH, Chio SY, Lee JS. Characterization of physiological functionalities in Korean traditional liquors. Korean J. Food Sci. Technol. 34: 118-122 (2002)
22 Murat K, Sevgi K, Sengul K, Esra U, Cemalettin B, Ferda C. Biological activities and chemical composition of three honeys of different types from Anatolia. Food Chem. 100: 526-534 (2007)   DOI
23 Kim SM. Development of technology to industrialize the nutraceutical compounds from a local citrus species, dangyuja (Citrus grandis Osbeck). Rural Development Administration, Suwon, Korea (2008)
24 Hyon JS, Kang SM, Senevirathne M, Koh WJ, Yang TS, Oh MC, Oh CK, Jeon YJ, Kim SH. Antioxidative activities of extracts from dried Citrus sunki and C. unshiu peels. J. Korean Soc. Food Sci. Nutr. 39: 1-7 (2010)   DOI
25 Jung SM, Chang EH, Park SJ, Jeong ST, Roh JH, Hur YY, Lee HC. Berry thinning effects on the fruit and wine quality of grape 'Muscat Bailey A'. Korean J. Food Preserv. 17: 625-630 (2010)
26 Karl J. Siebert. Haze formation in beverage. LWT-Food Sci. Technol. 39: 987-994 (2006)   DOI
27 Lee CH, Kim GM. Determination of the self-life of pasteurized Korean rice wine, yakju, in aseptic packing. Korean J. Food Sci. Technol. 27: 156-163 (1995)