Journal of Integrative Agriculture ›› 2014, Vol. 13 ›› Issue (12): 2788-2806.DOI: 10.1016/S2095-3119(14)60841-8
A Critical Review on Superchilling Preservation Technology in Aquatic Product
WU Chun-hua, YUan Chun-hong, YE Xing-qian, HU Ya-qin, CHEn Shi-guo, LiU Donghong
- 1、Department of Food Science and Nutrition, Zhejiang Key Laboratory for Agro-Food Processing, Fuli Institute of Food Science, Zhejiang
University, Hangzhou 310058, P.R. China
2、Faculty of Fisheries, Kagoshima University, Kagoshima 890-0056, Japan
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收稿日期:2013-12-17出版日期:2014-12-01发布日期:2014-12-10 -
通讯作者:HU Ya-qin, E-mail: yqhu@zju.edu.cn, Tel/Fax: +86-571-88982152 -
作者简介:WU Chun-hua, E-mail:chwu0283@163.com;* These authors contributed equally to this study. -
基金资助:The financial support of this study from the National Key Technologies R&D Program of China during the 12th Five-Year Plan period (2012BAD38B09) and the national natural Science Foundation of China (NSFC31301417).
A Critical Review on Superchilling Preservation Technology in Aquatic Product
WU Chun-hua, YUan Chun-hong, YE Xing-qian, HU Ya-qin, CHEn Shi-guo, LiU Donghong
- 1、Department of Food Science and Nutrition, Zhejiang Key Laboratory for Agro-Food Processing, Fuli Institute of Food Science, Zhejiang
University, Hangzhou 310058, P.R. China
2、Faculty of Fisheries, Kagoshima University, Kagoshima 890-0056, Japan
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Received:2013-12-17Online:2014-12-01Published:2014-12-10 -
Contact:HU Ya-qin, E-mail: yqhu@zju.edu.cn, Tel/Fax: +86-571-88982152 -
About author:WU Chun-hua, E-mail:chwu0283@163.com;* These authors contributed equally to this study. -
Supported by:The financial support of this study from the National Key Technologies R&D Program of China during the 12th Five-Year Plan period (2012BAD38B09) and the national natural Science Foundation of China (NSFC31301417).
摘要: aquatic product, known as one of the good resources for white meat, has been widely accepted by the consumers due to its high protein, low fat, especially low cholesterol. With the fast development of living standards around the world, the consumer demands for high quality, nutrition, safety and freshness of fishery food are increasing. Thus, high efficient preservation technologies for aquatic products become particularly important. Superchilling is one of the controlled-temperature preservation technologies for seafood. Aquatic products can be kept in better quality under superchilling conditions. This review introduced the principle and development of superchilling process, mainly focusing on research progresses and technical difficulties of superchilling. The growth mechanism of ice crystals and the feasibility of application of computational fluid dynamics in analyzing the temperatures variation and ice crystals during superchilling progress were also discussed, which will provide theoretical foundation for its improvement and application.
引用本文
WU Chun-hua, YUan Chun-hong, YE Xing-qian, HU Ya-qin, CHEn Shi-guo, LiU Donghong. A Critical Review on Superchilling Preservation Technology in Aquatic Product[J]. Journal of Integrative Agriculture, 2014, 13(12): 2788-2806.
WU Chun-hua, YUan Chun-hong, YE Xing-qian, HU Ya-qin, CHEn Shi-guo, LiU Donghong. A Critical Review on Superchilling Preservation Technology in Aquatic Product[J]. Journal of Integrative Agriculture, 2014, 13(12): 2788-2806.
| Alçiçek Z. 2011. The effects of thyme (Thymus vulgaris L.) oilconcentration on liquid-smoked vacuum-packed rainbowtrout (Oncorhynchus mykiss Walbaum, 1792) fillets duringchilled storage. Food Chemistry, 128, 683-688Alizadeh E, Chapleau N, De Lamballerie M, Le-Bail A 2007.Effect of different freezing processes on the microstructureof atlantic salmon (Salmo salar) fillets. Innovative FoodScience & Emerging Technologies, 8, 493-499anandharamakrishnan C. 2013. Computational FluidDynamics Applications in Food Processing. Springer,new York. pp.1-9anderson B a, Singh R P. 2006. Effective heat transfercoefficient measurement during air impingement thawingusing an inverse method. International Journal ofRefrigeration, 29, 281-293ando M, nakamura H, Harada R, Yamane a. 2004. Effectof super chilling storage on maintenance of freshness ofkuruma prawn. Food Science and Technology Research,10, 25-31Ando M, Takenaga E, Hamase S, Yamane A. 2005. Effectof super-chilling storage on maintenance of quality andfreshness of swordtip squid Loligo edulis. Food Scienceand Technology Research, 11, 355-361Ando M, Tsukamasa Y, Makinodan Y, Miyoshi M. 1999.Muscle firmness and structure of raw and cooked arrowsquid mantle as affected by freshness. Journal of FoodScience, 64, 659-662Ashie I, Smith J P, Simpson B K, Haard N F. 1996. Spoilageand shelf-life extension of fresh fish and shellfish. CriticalReviews in Food Science & Nutrition, 36, 87-121Aune E J. 2003. Superchilling of foodstuff, a review. In:Proceedings of the 21st International Congress ofRefrigeration. Washington, D.C., U.S.a.Bahuaud D, Morkore T, Langsrud O, Sinnes K, Veiseth E,Ofstad R, Thomassen M S. 2008. Effects of -15°C superchillingon quality of Atlantic salmon (Salmo salar) prerigorfillets: Cathepsin activity, muscle histology, textureand liquid leakage. Food Chemistry, 111, 329-339Bao H N D, Arason S, Þórarinsdóttir K A. 2007. Effects ofdry ice and superchilling on quality and shelf life of arcticcharr (Salvelinus alpinus) fillets. International Journal ofFood Engineering, 3, 1-26Beaufort a, Cardinal M, Le-Bail a, Midelet-Bourdin G.2009. The effects of superchilled storage at -2°C on themicrobiological and organoleptic properties of coldsmokedsalmon before retail Display InternationalJournal of Refrigeration-Revue Internationale du Froid,32, 1850-1857Blocken B, Stathopoulos T, Carmeliet J. 2007. CFD simulationof the atmospheric boundary layer: Wall function problems.Atmospheric Environment, 41, 238-252Boonsupthip W, Heldman D R. 2007. Prediction of frozenfood properties during freezing using product composition.Journal of Food Science, 72, E254-E263.Bremner H a, Sakaguchi M. 2000. a critical look at whether‘freshness’ can be determined. Journal of Aquatic FoodProduct Technology, 9, 5-25Brewster R A, Gebhart B. 1994. The effects of supercooling andfreezing on natural convection in seawater. InternationalJournal of Heat and Mass Transfer, 37, 543-552Charm S E, Moody P. 1966. Bound water in haddock muscle. Ashrae Journal, 8, 39-42Chen Y L, Pan B S. 1995. Freezing tilapia by airblast and liquidnitrogen - freezing point and freezing rate. InternationalJournal of Food Science & Technology, 30, 167-173Chevalier D, Sequeira-Munoz A, Le Bail A, Simpson B K,Ghoul M. 2000. Effect of freezing conditions and storageon ice crystal and drip volume in turbot (Scophthalmusmaximus): Evaluation of pressure shift freezing vs. airblastfreezing. Innovative Food Science & EmergingTechnologies, 1, 193-201Claussen i C. 2011. Superchilling concepts enabling safe, highquality and long term storage of foods. Procedia FoodScience, 1, 1907-1909Cyprian O, Lauzon H L, Jóhannsson R, Sveinsdóttir K, ArasonS, Martinsdóttir E. 2013. Shelf life of air and modifiedatmosphere-packaged fresh tilapia (Oreochromis niloticus)fillets stored under chilled and superchilled conditions.Food Science & Nutrition, 1, 130-140Dagerskog M. 1974. Development of a Computer Program toSimulate Temperature Distribution and Time-temperatureExposure of Packed Frozen Food During Handling in theDistribution Chain. Swedish institute of Food PreservationResearch (SIK), Swedish.Dai Z Y, Zhang Z G, Wang H H, Ye J. 2009. A Comparative studyon changes of biochemical parameters of pseudosciaenacrocea by different chilling medium during storage. Foodand Fermentation Industries, 11, 59-62 (in Chinese)Dalgaard P, Madsen H L, Samieian N, Emborg J. 2006.Biogenic amine formation and microbial spoilage inchilled garfish (Belone belone belone)-effect of modifiedatmosphere packaging and previous frozen storage.Journal of Applied Microbiology, 101, 80-95Le Danois E. 1920. Nouvelle methode de frigorification dupoisson. France Patent, Application No. 506. 296. (inFrench)Dave D, Budge S, Brooks M S. 2010. Fish spoilage mechanismsand preservation techniques: Review. American Journal ofApplied Sciences, 7, 859.Delbarre-Ladrat C, Chéret R, Taylor R, Verrez-Bagnis V.2006. Trends in postmortem aging in fish: Understandingof proteolysis and disorganization of the myofibrillarstructure. Critical Reviews in Food Science and Nutrition,46, 409-421Dolan K D, Singh R, Heldman D R. 1987. Prediction oftemperature in frozen foods exposed to solar radiation.Journal of Food Processing and Preservation, 11, 135-158Duun A S, Hemmingsen A K T, Haugland A, Rustad T. 2008.Quality changes during superchilled storage of pork roast.LWT-Food Science and Technology, 41, 2136-2143Duun A S, Rustad T. 2007. Quality changes during superchilledstorage of cod (Gadus morhua) fillets. Food Chemistry,105, 1067-1075Duun A S, Rustad T. 2008. Quality of superchilled vacuumpacked Atlantic salmon (Salmo salar) fillets stored at -14and -36°C. Food Chemistry, 106, 122-131.Duun a S. 2008. Superchilling of muscle food: storage stabilityand quality aspects of salmon (Salmo Salar), cod (GadusMorhua) and pork. MSc thesis, norwegian University ofScience and Technology, Norway.Ehira S. 1976. A biochemical study on the freshness of fish.Bulletin of Tokai Regional Fisheries Research Laboratory,88, 130-132EriksonU, Beyer A R, Sigholt T. 1997. Muscle high-energyphosphates and stress affect K-values during ice storage ofAtlantic salmon (Salmo salar). Journal of Food Science,62, 43-47Erikson U, Misimi E, Gallart-Jornet L. 2011. Superchilling ofrested atlantic salmon: Different chilling strategies andeffects on fish and fillet quality. Food Chemistry, 127,1427-1437FAO (Food and Agriculture Organization ). 2012. The state ofworld fisheries and aquaculture-2012 in: Yearbook 2012.Rome, italy. pp. 3-18Fernandez P P, Otero L, Martino M M, Molina-GarciaA D, Sanz P D. 2008. High-pressure shift freezing:Recrystallization during storage. European Food Researchand Technology, 227, 1367-1377Fik M, Surówka K, Leszczynska Fik A. 1988. Application ofsuperchilling to prolong the keeping time of rainbow trout.Food/Nahrung, 32, 291-300Fikiin K A. 1998. Ice content prediction methods during foodfreezing: A survey of the Eastern European literature.Journal of Food Engineering, 38, 331-339Gaarder M O, Bahuaud D, Veiseth-Kent E, Morkore T,Thomassen M S. 2012. Relevance of calpain and calpastatinactivity for texture in super-chilled and ice-stored atlanticsalmon (Salmo salar) fillets. Food Chemistry, 132, 9-17Gallart-Jornet L, Rustad T, Barat J M, Fito P, Escriche I. 2007.Effect of superchilled storage on the freshness and saltingbehaviour of Atlantic salmon (Salmo salar) fillets. FoodChemistry, 103, 1268-1281GB 2733-2005 2005. Hygienic standard for fresh andfrozen marine products of animal origin. Standardizationadministration of the People’s Republic of China, Beijing,China.George R M 1993. Freezing proceseses used in the foodindustry. Trends In Food Science & Technology, 4, 134-138Ghaly a E, Dave D, Budge S, Brooks M S. 2010. Fishspoilage mechanisms and preservation techniques: Review.American Journal of Applied Sciences, 7, 859.Ghanbari M, Jami M, Domig K J, Kneifel W. 2013. Seafoodbiopreservation by lactic acid bacteria - a review. LWTFoodScience and Technology, 54, 315-324Gram L, Huss H H. 1996. Microbiological spoilage of fish andfish products. International Journal of Food Microbiology,33, 121-137Gram L. 2010. Microbiological spoilage of fish and seafoodproducts. in: Compendium of the Microbiological Spoilageof Foods and Beverages. Springer, new York. pp. 87-119 Haard N. 2002. The role of enzymes in determining seafoodcolor, flavor and texture. Safety and Quality Issues inFish Processing. CRC Press, Boca Raton, Florida,USa.pp. 220-253Hall G M. 1997. Fish Processing Technology. Springer,Gaithersburg, Maryland, USa. pp.117-129Hamada-Sato N, Usui K, Kobayashi T, Imada C, WatanabeE. 2005. Quality assurance of raw fish based on HACCPconcept. Food Control, 16, 301-307Hansen A A, Morkore T, Rudi K, Langsrud O, Eie T. 2009. Thecombined effect of superchilling and modified atmospherepackaging using CO2 emitter on quality during chilledstorage of pre-rigor salmon fillets (Salmo salar). Journalof the Science of Food and Agriculture, 89, 1625-1633Heen E. 1982. Developments in chilling and freezing of fish.International Journal of Refrigeration, 5, 45-49Himelbloom B H, Crapo C, Brown E K, Babbitt J, ReppondK. 1994. Pink salmon (Oncorhynchus gorbuscha) qualityduring ice and chilled seawater storage. Journal of FoodQuality, 17, 197-210Hong H, Luo Y, Zhu S, Shen H. 2012. Establishment ofquality predictive models for bighead carp (Aristichthysnobilis) fillets during storage at different temperatures.International Journal of Food Science & Technology,47, 488-494Hong H, Zhu S, Luo Y, Yu J. 2011. Quality changes ofbighead carp (Aristichthys nobilis) during chilled andpartial freezing storage. South China Fisheries Science,6, 3. (in Chinese)Hu S, Zhang L, Luo Y, Song Y, Shen H, Cui J. 2010. Study onthe quality changes of common carp during chilled storageand partial-freezing storage. Fishery Modernization, 5, 9.(in Chinese)Huff-Lonergan E, Lonergan S M. 2005. Mechanisms ofwater-holding capacity of meat: The role of postmortembiochemical and structural changes. Meat Science, 71,194-204Huidobro A, Pastor A, Tejada M. 2001. Adenosine triphosphateand derivatives as freshness indicators of gilthead seabream (Sparus aurata). Food Science and TechnologyInternational, 7, 23-30Hyldig G. 2012. Sensory quality of fish. In: Handbook of Meat,Poultry and Seafood Quality. 2nd ed. John Wiley & Sonsinc, USa. 459-478Jahncke M L, Gooch J A. 1997. Sensory and chemicalcharacteristics of selected Gulf of Mexico coastal herringspecies. Journal of Food Science, 62, 626-631Kaale L D, Eikevik T M, Bardal T, Kjorsvik E. 2013a. A studyof the ice crystals in vacuum-packed salmon fillets (Salmonsalar) during superchilling process and following storage.Journal of Food Engineering, 115, 20-25Kaale L D, Eikevik T M, Bardal T, Kjorsvik E, NordtvedtT S. 2013b. The effect of cooling rates on the ice crystalgrowth in air-packed salmon fillets during superchillingand superchilled storage. International Journal ofRefrigeration-Revue Internationale du Froid, 36, 110-119Kaale L D, Eikevik T M, Rustad T, Kolsaker K. 2011.Superchilling of food: a review. Journal of FoodEngineering, 107, 141-146Kaale L D, Eikevik T M, Rustad T, Nordtvedt T S, Bardal T,Kjorsvik E. 2013c. Ice crystal development in pre-rigorAtlantic salmon fillets during superchilling process andfollowing storage. Food Control, 31, 491-498Kaale L D, Eikevik T M, Rustad T, Nordtvedt T S. 2014.Changes in water holding capacity and drip loss of atlanticsalmon (Salmo salar) muscle during superchilled storage.LWT-Food Science and Technology, 55, 528-535Kaale L D, Eikevik T M. 2013. A histological study of themicrostructure sizes of the red and white muscles ofAtlantic salmon (Salmo solar) fillets during superchillingprocess and storage. Journal of Food Engineering, 114,242-248Kagawa M, Matsumoto M, Yoneda C, Mitsuhashi T, Hatae K.2002. Changes in meat texture of three varieties of squidin the early stage of cold storage. Fisheries Science, 68,783-792Karube I, Matsuoka H, Suzuki S, Watanabe E, Toyama K.1984. Determination of fish freshness with an enzymesensor system. Journal of Agricultural and FoodChemistry, 32, 314-319Kiani H, Sun D. 2011. Water crystallization and its importanceto freezing of foods: A review. Trends in Food Science &Technology, 22, 407-426Kubow S. 1992. Routes of formation and toxic consequencesof lipid oxidation products in foods. Free Radical Biologyand Medicine, 12, 63-81Lauzon H E L E, Margeirsson B O R, Sveinsdottir K U N,Gudhjonsdottir M I A, Karlsdot Ttir M G, MartinsdottirE i a. 2010. Overview on Fish Quality Research-Impactof Fish Handling, Processing, Storage and Logistics onFish Quality Deterioration. Matís Report. Reykjavík,iceland. pp. 12-55Lauzon H L, Martinsdóttir E. 2005. Combined use of CBCchilling, MaP and superchilling to extend the shelf life ofcod fillets. In: Abstracts of the 35th WEFTA meeting 19-22September 2005 antwerp, Belgium. pp. 68.Li W D, Yan T, Qi Y, Ma J. 2008. Changes in freshness ofPenaeus vannamei during partial freezing storage. Foodand Fermentation Industries, 11, 48-52 (in Chinese)Lian G, Moore S, Heeney L. 2006. Population balanceand computational fluid dynamics modelling of icecrystallisation in a scraped surface freezer. ChemicalEngineering Science, 61, 7819-7826Liu D, Liang L, Xia W, Regenstein J M, Zhou P. 2013.Biochemical and physical changes of grass carp(Ctenopharyngodon idella) fillets stored at -3 and 0°CFood Chemistry, 140, 105-114.Liu Q, Han J C, Zhang Y G, Li S M, Li J, Chen Q. 2012.Effect of superchilling storage on quality characterizesand physical properties of surimi from silver carp (hypophthalmichthys molitrix) as compared with coolingfreshness preservation. Advanced Materials Research,554, 978-984Liu S L, Lu F, Xu X B, Ding Y T. 2010. Superchillingmaintains freshness of modified atmosphere-packagedLateolabrax japonicus. International Journal of FoodScience & Technology, 45, 1932-1938Losada V, Piñeiro C, Barros-Velázquez J, Aubourg S P. 2005.inhibition of chemical changes related to freshness lossduring storage of horse mackerel (Trachurus trachurus)in slurry ice. Food Chemistry, 93, 619-625Lu H, Luo Y, Zhou Z, Bao Y, Feng L. 2014. The qualitychanges of Songpu mirror carp (Cyprinus carpio) duringpartial freezing and chilled storage. Journal of FoodProcessing and Preservation, 38, 948-954Ma H, Li L, Yang X, Diao S, Wu Y. 2009. Research progressof superchilling storage technique for aquatic product.Science and Technology of Food industry, 4, 112. (inChinese)Ma H, Li L, Yang X, Li S, Peng C, Cen J. 2010. Effects ofdifferent concentrations of carbon dioxide on quality offresh tilapia fillets packaged in modified atmosphere duringsuper chilling storage. Science and Technology of Foodindustry, 1, 92. (in Chinese)Magnussen O M, Haugland A, Hemmingsen A K T, JohansenS, Nordtvedt T S. 2008. Advances in superchilling offood-Process characteristics and product quality. Trendsin Food Science & Technology, 19, 418-424Mallikarjunan P, Mittal G S. 1995. Optimum conditions forbeef carcass chilling. Meat Science, 39, 215-223Mannapperuma J D, Singh R. P. 1989. A computer-aidedmethod for the prediction of properties and freezing/thawing times of foods. Journal of Food Engineering, 9,275-304Mao L C, Duan D F, Xu Y Q, Que F. 2006. Effects of teapolyphenols on fresh-keeping of partial-frozen crucian(Carassius auratus). Journal of Chinese Institute of FoodScience and Technology, 6, 107-110 (in Chinese)Margeirsson B O R, Palsson H O R, Popov V, Gospavic R,Arason S O N, Sveinsdottir K U N. 2012. Numericalmodelling of temperature fluctuations in superchilled fishloins packaged in expanded polystyrene and stored atdynamic temperature conditions. International Journal ofRefrigeration, 35, 1318-1326Margeirsson B. 2012. Modelling of temperature changesduring transport of fresh products. Ph D thesis, Universityof iceland, Reykjavik, iceland.Martinsdóttir E, Schelvis R, Hyldig G, Sveinsdóttir K. 2009.Sensory evaluation of seafood: Methods. in: FisheryProducts - Quality, Safety and Authenticity. Wiley-Blackwell, Oxford, United Kingdom. pp. 425-443Mejlholm O, Kjeldgaard J, Modberg A, Vest M B, Bøknæs N,Koort J, Björkroth J, Dalgaard P. 2008. Microbial changesand growth of Listeria monocytogenes during chilledstorage of brined shrimp (Pandalus borealis). InternationalJournal of Food Microbiology, 124, 250-259Miki H, Hayakawa K. 1996. An empirical equation forestimating food enthalpy in a freezing temperature range.LWT-Food Science and Technology, 29, 659-663Miles C A, Mayer Z, Morley M J, Houska M. 1997. Estimatingthe initial freezing point of foods from composition data.International Journal of Food Science and Technology,32, 389-400Miller M J. 2010. Finite element and population balancemodels for food-freezing processes. Ph D thesis, KansasState University, Kansas, USAMoureh J, Derens E. 2000. Numerical modelling of thetemperature increase in frozen food packaged in palletsin the distribution chain. International Journal ofRefrigeration, 23, 540-552Múgica B, Barros-Velázquez J, Miranda J M, AubourgS P. 2008. Evaluation of a slurry ice system for thecommercialization of ray (Raja clavata): Effects onspoilage mechanisms directly affecting quality loss andshelf-life. LWT-Food Science and Technology, 41, 974-981Murakami E G, Okos M R. 1989. Measurement and predictionof thermal properties of foods. in: Food Properties andComputer-Aided Engineering of Food Processing Systems.Springer, netherlands. pp. 3-48Noor R, Acharjee M, Ahmed T, Das K K, Paul L, Munshi SK, Urmi N J, Rahman F, Alam M Z. 2013. Microbiologicalstudy of major sea fish available in local markets of DhakaCity, Bangladesh. Journal of Microbiology, Biotechnologyand Food Sciences, 2, 2420-2430Norton T A S, Sun D, Grant J, Fallon R, Dodd V. 2007.Applications of computational fluid dynamics (CFD) inthe modelling and design of ventilation systems in theagricultural industry: a review. Bioresource Technology,98, 2386-2414Norton T A S, Tiwari B, Sun D. 2013. Computational fluiddynamics in the design and analysis of thermal processes:a review of recent advances. Critical Reviews in FoodScience and Nutrition, 53, 251-275Norton T, Sun D. 2006. Computational fluid dynamics (CFD)- An effective and efficient design and analysis tool forthe food industry: a review. Trends in Food Science &Technology, 17, 600-620Olafsdottir A D A D, Margeirsson B O R, Sveinsdottir K U N,arason S O n, Reynisson E O L, Martinsdottir E i a. 2012.Effect of superchilled processing of whole whitefish--prerigor. Matís Report. Reykjavík, iceland. pp. 12-22Olafsdottir G, Lauzon H E L E, Martinsdottir E I A,Oehlenschlauger J, Kristbergsson K. 2006. Evaluation ofshelf life of superchilled cod (Gadus morhua) fillets andthe influence of temperature fluctuations during storageon microbial and chemical quality indicators. Journal ofFood Science, 71, S97-S109.Payne S R, Sandford D, Harris A, Young O A. 1994. Theeffects of antifreeze proteins on chilled and frozen meat. Meat Science, 37, 429-438Petzold G, Aguilera J M. 2009. Ice morphology: Fundamentalsand technological applications in foods. Food Biophysics,4, 378-396Pham Q T, Trujillo F J, McPhail N. 2009. Finite elementmodel for beef chilling using CFD-generated heat transfercoefficients. International Journal of Refrigeration, 32,102-113Pineiro C, Barros-Velazquez J, AubourgS P. 2004. Effectsof newer slurry ice systems on the quality of aquatic foodproducts: a comparative review versus flake-ice chillingmethods. Trends in Food Science & Technology, 15,575-582Radhakrishnan S. 1997. Measurement of thermal propertiesof seafood. Ph D thesis, Virginia Polytechnic institute andState University, Virginia, USa.Rahman M S, Driscoll R H. 1994a. Density of fresh andfrozen seafood. Journal of Food Process Engineering,17, 121-140Rahman M S, Driscoll R H. 1994b. Freezing points of selectedseafoods (invertebrates). International Journal of FoodScience & Technology, 29, 51-61Rahman M S, Guizani N, Al-Khaseibi M, Alial-Hinai S, Al-Maskri S S, Al-Hamhami K. 2002. Analysis of coolingcurve to determine the end point of freezing. FoodHydrocolloids, 16, 653-659Rahman M S, Machado-Velasco K M, Sosa-Morales M E,Velez-Ruiz J F. 2009. Freezing point: Measurement, data,and prediction. Food Properties Handbook, 2, 153-192Rahman M S. 1991. Thermophysical properties of seafoods.Ph D thesis, University of new South Wales, new SouthWales, australia.Rao M A, Rizvi S S, Datta A K. 2010. Engineering Propertiesof Foods. CRC Press, Florida,USa. pp. 136-148Ronsivalli L J, Baker D W. 1981. Low temperature preservationof seafoods: a review. Marine Fisheries Review, 43, 1-15Rosnes J T, Kleiberg G H, Sivertsvik M, Lunestad B T,Lorentzen G. 2006. Effect of modified atmospherepackaging and superchilled storage on the shelf-life offarmed ready-to-cook spotted wolf-fish (Anarhichasminor). Packaging Technology and Science, 19, 325-333Shafiur Rahman M, Kasapis S, Guizani N, Saud Al-Amri O.2003. State diagram of tuna meat: Freezing curve and glasstransition. Journal of Food Engineering, 57, 321-326Shenouda S Y K. 1980. Theories of protein denaturation duringfrozen storage of fish flesh. Advances in Food Research,26, 275-311Simpson M V, Haard N F. 1987. Temperature acclimationof Atlantic Cod (gadus morhua) and its influence onfreezing point and biochemical damage of postmortemmuscle during storage at 0°C and -3°C Journal of FoodBiochemistry, 11, 69-93Sivertsen B R, Djilali n. 2005. CFD-based modelling of protonexchange membrane fuel cells. Journal of Power Sources,141, 65-78Sivertsvik M, Jeksrud W K, Rosnes J T. 2002. A review ofmodified atmosphere packaging of fish and fishery products- significance of microbial growth, activities and safety.International Journal of Food Science & Technology, 37,107-127Sivertsvik M, Rosnes J T, Kleiberg G H. 2003. Effect ofmodified atmosphere packaging and superchilled storageon the microbial and sensory quality of atlantic salmon(Salmo salar) fillets. Journal of Food Science, 68, 1467-1472van der Sman R, Boer E. 2005. Predicting the initial freezingpoint and water activity of meat products from compositiondata. Journal of Food Engineering, 66, 469-475Smith P G. 2011. An introduction to Food Process Engineering.Springer, UaS. pp. 1-30Song Y, Luo Y, You J, Shen H, Hu S. 2012. Biochemical,sensory and microbiological attributes of bream(Megalobrama amblycephala) during partial freezingand chilled storage. Journal of the Science of Food andAgriculture, 92, 197-202Stevik a M, Claussen i C. 2011. industrial superchilling, apractical approach. Procedia Food Science, 1, 1265-1271Stevik A M, Duun A S, Rustad T, O Farrell M, Schulerud H,Ottestad S. 2010a. ice fraction assessment by near-infraredspectroscopy enhancing automated superchilling processlines. Journal of Food Engineering, 100, 169-177Stevik A M, Hemmingsen A K, Duun A S, Walnum HT, Nordtvedt T S. 2010b. Superchilling, ice fractionand quality. in: 1st IIR Cold Chain and SustainabilityConference. Cambridge, UK. pp. 79-82Sømme L. 1982. Supercooling and winter survival in terrestrialarthropods. Comparative Biochemistry and Physiology(Part A: Physiology), 73, 519-543Tominaga Y, Mochida A, Yoshie R, Kataoka H, NozuT, Yoshikawa M, Shirasawa T. 2008. AIJ guidelinesfor practical applications of CFD to pedestrian windenvironment around buildings. Journal of Wind Engineeringand Industrial Aerodynamics, 96, 1749-1761Valtýsdóttir K L, Margeirsson B, Arason S, Lauzon H L,Martinsdóttir E, Matís S. 2010. Guidelines for Precoolingof Fresh Fish During Processing and Choice of PackagingWith Respect to Temperature Control in Cold Chains.Matís Report. Reykjavík, iceland. pp. 10-40Valtýsdóttir K L. 2011. The effects of different precoolingtechniques and improved packaging design on fresh fishtemperature control. Msc thesis, University of iceland,Reykjavik, iceland.Vazquez-Ortiz F A, Pacheco-Aguilar R, Lugo-Sanchez M E,Villegas-Ozuna R E. 1997. Application of the freshnessquality index (K value) for fresh fish to canned sardinesfrom northwestern Mexico. Journal of Food Compositionand Analysis, 10, 158-165Wang L, Sun D. 2002. Modelling three-dimensional transientheat transfer of roasted meat during air blast cooling bythe finite element method. Journal of Food Engineering, 51, 319-328Wang L, Sun D. 2003. Recent developments in numericalmodelling of heating and cooling processes in the foodindustry-a review. Trends in Food Science & Technology,14, 408-423Wang T, Sveinsdottir K, Magnusson H, Martinsdottir E. 2008.Combined application of modified atmosphere packagingand superchilled storage to extend the shelf life of freshcod (Gadus morhua) loins. Journal of Food Science, 73,S11-S19.Wong S Y, Rajesh K B, Connelly R K, Hartel R W. 2011. Asystematic approach to optimization of industrial lactosecrystallization. Ph D thesis, University of Wisconsin-Madison, Wisconsin, USa.Wu Z H, Cao M J, Lin J H. 1991. Study on changes of freshnessof Tilapia under superchilling and iced storage. Journal ofFujian Fisheries, 2, 49-53 (in Chinese)Xia B, Sun D. 2002. Applications of computational fluiddynamics (CFD) in the food industry: A review. Computersand Electronics in Agriculture, 34, 5-24Xu Z Z. 1979. The theory of superchilling for fish process andits practical application. Journal of Fujian Fisheries, (2),61-66. (in Chinese)Zeng M Y, Huang H. 2001. Quality changes of Lateolabraxjaponicus meat during partially frozen storage. Journalof Ocean University of Qingdao, 8, 67-69. (in Chinese)Zeng Q Z, Thorarinsdottir K A, Olafsdottir G. 2005. Qualitychanges of shrimp (Pandalus borealis) stored underdifferent cooling conditions. Journal of Food Science,70, S459-S466.Zhang L, Li X, Lu W, Shen H, Luo Y. 2011. Quality predictivemodels of grass carp (Ctenopharyngodon idellus) atdifferent temperatures during storage. Food Control, 22,1197-1202Zheng M F, Liu M H, Chen L J. 2005. The fresh keepingtechnology of partial freezing for coated large yellowcroakers. Journal of Fujian Agricultural University, 34,114-117 (in Chinese)Zhou G H, Xu X L, Liu Y. 2010. Preservation technologies forfresh meat- a review. Meat Science, 86, 119-128 |
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