[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5851/kosfa.2014.34.6.777

Effect of Novel Quick Freezing Techniques Combined with Different Thawing Processes on Beef Quality

Jo, Yeon-Ji (Department of Bioindustrial Technologies, Konkuk University)
Jang, Min-Young (Department of Bioindustrial Technologies, Konkuk University)
Jung, You-Kyoung (Department of Bioindustrial Technologies, Konkuk University)
Kim, Jae-Hyeong (Department of Bioindustrial Technologies, Konkuk University)
Sim, Jun-Bo (Department of Bioindustrial Technologies, Konkuk University)
Chun, Ji-Yeon (Department of Bioindustrial Technologies, Konkuk University)
Yoo, Seon-Mi (National Academy of Agricultural Science, Rural Development Administration)
Han, Gui-Jung (National Academy of Agricultural Science, Rural Development Administration)
Min, Sang-Gi (Department of Bioindustrial Technologies, Konkuk University)

Publication Information

Food Science of Animal Resources / v.34, no.6, 2014 , pp. 777-783 More about this Journal

Abstract

This study investigated the effect of various freezing and thawing techniques on the quality of beef. Meat samples were frozen using natural convection freezing (NF), individual quick freezing (IQF), or cryogenic freezing (CF) techniques, followed by natural convection thawing (NCT) or running water thawing (RT). The meat was frozen until the core temperature reached $-12^{\circ}C$ and then stored at $-24^{\circ}C$ , followed by thawing until the temperature reached $5^{\circ}C$ . Quality parameters, such as the pH, water binding properties, CIE color, shear force, and microstructure of the beef were elucidated. Although the freezing and thawing combinations did not cause remarkable changes in the quality parameters, rapid freezing, in the order of CF, IQF, and NF, was found to minimize the quality deterioration. In the case of thawing methods, NCT was better than RT and the meat quality was influence on the thawing temperature rather than the thawing rate. Although the microstructure of the frozen beef exhibited an excessive loss of integrity after the freezing and thawing, it did not cause any remarkable change in the beef quality. Taken together, these results demonstrate that CF and NCT form the best combination for beef processing; however, IQF and NCT may have practical applications in the frozen food industry.

Keywords

quick freezing; cryogenic; thawing; beef; quality;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Vieira, C., Diaz, M.Y., Martinez, B., and Garcia-Cachan, M. D. (2009) Effect of frozen storage conditions (temperatureand length of storage) on microbial and sensoryquality of rustic crossbred beef at different stages ofaging. Meat Sci. 83, 398-404. DOI ScienceOn
2	Wagner, J. R. and Anon, M. C. (1985) Effect of freezing rate on the denaturation of myofibrillar proteins. J. Food Technol. 20, 735-744.
3	Hong, G. P., Shim, K. B., Choi, M. J., and Min, S. G. (2009) Effects of air blast thawing combined with infrared radiation on physical properties of pork. Korean J. Food Sci. An. 29, 302-309. 과학기술학회마을 DOI ScienceOn
4	Hu, Z. and Sun, D. W. (2001) Predicting local surface heat transfer coefficients by different turbulent ${\kappa}-{\varepsilon}$ models to simulate heat and moisture transfer during air-blast chilling. Int. J. Refrig. 24, 702-717. DOI ScienceOn
5	James, D. W. (1968) The thermal diffusivity of ice and water between -40 and + $60^{\circ}C$ . J. Mater. Sci. 3, 540-543.
6	Li, B. and Sun, D. W. (2002) Novel methods for rapid freezing and thawing of foods-A review. J. Food Eng. 54, 175-182. DOI ScienceOn
7	Love, J. D. and Pearson, A. M. (1971) Lipid oxidation in meat and meat products-A review. J. Am. Oil Chem. Soc. 48, 547-549. DOI
8	Leung, M., Ching, W. H., Leung, D. Y. C., and Lam, G. C. K. (2007) Fluid dynamics and heat transfer in cold water thawing. J. Food Eng. 78, 1221-1227. DOI ScienceOn
9	Leygonie, C., Britz, T. J., and Hoffman, L. C. (2011) Oxidative stability of previously frozen ostrich M. iliofibularis packaged under different modified atmosphere conditions. Int. J. Food Sci. Technol. 46, 1171-1178. DOI ScienceOn
10	Meersman, F., Smeller, L., and Heremans, K. (2006) Protein stability and dynamics in the pressure-temperature plane. Biochim. Biophys. Acta. 1764, 346-354. DOI ScienceOn
11	Shanks, B. C., Shanks, B. C., Wulf, D. M., and Maddock, R. J. (2002) The effect of freezing on Warner-Bratzler shear force values of beef longissimus steaksacross several post-mortem aging periods. J. Anim. Sci. 80, 2122-2125.
12	Farouk, M. M., Wieliczko, K. J., and Merts, I. (2004) Ultrafast freezing and low storage temperatures are not necessary to maintain the functional properties of manufacturing beef. Meat Sci. 66, 171-179. DOI ScienceOn
13	Ambrosiadis, I., Theodorakakos, N., Georgakis, S., and Lekas, S. (1994) Influence ofthawing methods on the quality of frozen meat and drip loss. Fleischwirtschaft 74, 284-286.
14	Crouse, J. D. and Koohmaraie, M. (1990) Effect of freezing of beef on subsequent postmortem aging and shear force. J. Food Sci. 55, 573-574. DOI
15	Carse, W. A. and Locker, R. H. (1974) A survey of pH values at the surface of beef and lamb carcasses, stored in a chiller. J. Sci. Food Agric. 25, 1529-1535. DOI
16	Carson, J. K. (2006) Review of effective thermal conductivity models for foods. Int. J. Refrig. 29, 958-967. DOI ScienceOn
17	Chwastowska-Siwiecka, I., Kondratowicz, J., Gugolek, A., and Matusevicius, P. (2013) Changes in the physicochemical properties of deep-frozen rabbit meat as dependent on thawing method. Vet. Med. Zoot. 62, 68-72.
18	Fernandez, P. P., Otero, L., Guignon, B., and Sanz, P. D. (2006) High-pressure shift freezing versus high-pressure assisted freezing: Effects on the microstructure of a food model. Food Hydrocolloid. 20, 510-522. DOI ScienceOn
19	Gambuteanu, C., Borda, D., and Alexe, P. (2013) The effect of freezing and thawing on technological properties of meat: Review. J. Agro. Proc. Technol. 19, 88-93.
20	Hong, G. P., Park, S. H., Kim, J. Y., Lee, C. H., Lee, S., and Min, S. G. (2005) The effect of thawing rate on the physicochemical properties of frozen ostrich meat. Food Sci. Biotechnol. 14, 676-680. 과학기술학회마을

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