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Enginarın Basınçlı Havayla, Suyla ve Vakumla Ön Soğutulmasının Depolama Koşullarındaki Kalite Parametreleri Üzerindeki Etkisinin Belirlenmesi

Year 2016, Volume: 22 Issue: 4, 480 - 491, 01.09.2016
https://doi.org/10.1501/Tarimbil_0000001406

Abstract

Bu çalışmada, havayla, suyla ve vakumla ön soğutma yöntemleri kullanılarak 5±0.005 kg ağırlıkta tartılarak kasalara yerleştirilen enginarların tarla sıcaklığı olan 23.5±0.5 °C’den depolama sıcaklığı olan 1 °C’ye kadar soğutulması sağlanmıştır. Ön soğutma zamanı en kısa olan soğutma yöntemi 35 dakika ile vakumla ön soğutma yöntemidir. Bunu sırasıyla 58 dakika ile suyla ve 135 dakika ile havayla ön soğutma yöntemleri izlemiştir. Ön soğutma sistemleri enerji tüketimleri açısından incelendiğinde ise en az enerji tüketimi 0.38 kWh değeri ile vakumla ön soğutma sisteminde saptanmıştır. Bunu sırasıyla 0.65 kWh değeri ile suyla ve 0.84 kWh değeri ile de havayla ön soğutma sistemleri izlemiştir. Sistemlerin tükettikleri güç açısından yapılan değerlendirmeye göre en az gücün 0.37 kW değeri ile basınçlı havayla ön soğutma sistemi olduğu, bunu sırasıyla 0.48 kW değeri ile suyla ve 0.65 kW değeri ile vakumla ön soğutmanın izlediği belirlenmiştir. Ön soğutma işlemleri sonunda suyla ön soğutulmuş ürünlerde % 2.83 oranında bir ağırlık artışı gözlemlenmiştir. Buna karşın basınçlı havayla ve vakumla ön soğutulmuş enginarlarda ise soğutma işlemi sonrasında sırasıyla % 1.03 ve % 1.88 oranında ağırlık azalması meydana geldiği saptanmıştır. Basınçlı havayla, suyla ve vakumla ön soğutulmuş ve hiç ön soğutulmamış kontrol enginarlar kontrollü atmosfer odasında 30 gün, oda koşullarında ise 15 gün boyunca bekletilmiş ve meyve eti sertliği, ağırlık kaybı, bozulma oranı ve genel görünümleri açısından değerlendirilmiştir. Buna göre enginarlarda kalite parametreleri açısından en uygun ön soğutma yönteminin havayla ön soğutma olduğu; bunu sırasıyla vakumla, kontrol koşullarında ve suyla ön soğumanın izlediği saptanmıştır

References

  • Akbudak B & Özer M H (2003). Farklı sıcaklıklarda muhafaza edilen turşuluk hıyarda meydana gelen fiziksel ve kimyasal değişimler. Uludağ Üniversitesi Ziraat Fakültesi Dergisi 17(1): 33-46
  • Alibaş İ (2012). Asma yaprağının (Vitis vinifera L.) mikrodalga enerjisiyle kurutulması ve bazı kalite parametrelerinin belirlenmesi. Tarım Bilimleri Dergisi-Journal of Agricultural Sciences 18(1): 43-53
  • Alibaş İ & Okursoy R (2009). Determination of operating and quality parameters during air blast, vacuum and hydro pre-cooling of spinach. Tarım Makinaları Bilimi Dergisi 5(2): 149-160
  • Alibaş İ & Okursoy R (2012). A comparison study of some operating parameters during vaccum, air and hydro pre-cooling of faba beans, and determination of the quality parameters during storage period. Tarım Makinaları Bilimi Dergisi 8(2): 185-197
  • Alibaş İ & İzli N (2013). Determination of the storage and quality parameters of nettle leaves hydro pre- cooleding different water temperatures. Tarım Makinaları Bilimi Dergisi 9(1): 21-27
  • Alibas I & Koksal N (2014). Forced-air, vacuum and hydro precooling of cauliflower (Brassica oleracea L. var. botrytis cv. Freemont): Part I. Determination of precooling parameters. Food Science and Technology 34(4): 730-737
  • Alibas I & Koksal N (2015). Forced-air, vacuum and hydro precooling of cauliflower (Brassica oleracea L. var. botrytis cv. Freemont): Part II. Determination of quality parameters during storage. Food Science and Technology 35(1): 45-50
  • Brosnan T & Sun D W (2003). Influence of modulated vacuum cooling on the cooling rate, mass loss and vase life of cut lily flowers. Biosystems Engineering 86(1): 45-49
  • Cheng H P (2006). Vacuum cooling combined with hydrocooling and vacuum drying on bamboo shoots. Applied Thermal Engineering 26: 2168-2175
  • Desmond E M, Kenny T A & Ward P (2000). Effect of rapid and conventional cooling methods on the quality of cooked ham joints. Meat Science 56: 271-277
  • Desmond E M, Kenny T A & Ward P (2002). The effect of ınjection level and cooling method on the quality of cooked ham joints. Meat Science 60(3): 271-277
  • Dincer I (1995). Air flow precooling of individual grapes. Journal of Food Engineering 6(2): 243-249
  • Dostal M & Petera K (2004). Vacuum cooling of liquids: Mathematical model. Journal of Food Engineering 61(4): 533-539
  • Günhan T, Demir V & Yağcıoğlu A (2014). Mathematical modelling of convection drying characteristics of artichoke (Cynara Scolymus L.) leaves. Tarım Bilimleri Dergisi-Journal of Agricultural Sciences 20(4): 415-426
  • Haas E & Gur G (1987). Factor affecting the cooling rate of lettuce in vacuum cooling installations. International Journal of Refrigeration 10(2): 82-86
  • Houska M, Sun D-W, Landfeld A & Zhihang Z (2003). Experimental study of vacuum cooling of cooked beef in soup. Journal of Food Engineering 59(2-3): 105- 110
  • Jackman P, Sun D W & Zheng L (2007). Effect of combined vacuum cooling and air blast cooling on time and cooling loss of large cooked beef joints. Journal of Food Engineering 81: 266-271
  • McDonald K & Sun D W (2000). Vacuum cooling technology for the food processing industry: A review. Journal of Food Engineering 45(2): 55-65
  • McDonald K, Sun D W & Kenny T (2000). Comparison of the quality of cooked beef products cooled by vacuum cooling and by conventional cooling. Lebensmittel- Wissenschaft Und-Technologie 33(1): 21-29
  • McDonald K, Sun D W & Lygn J G (2002). Effect of vacuum cooling on the thermophysical properties of a cooked beef product. Journal of Food Engineering 52(2): 167-176
  • Özer M H (2002). Jonagold elma çeşidinin kontrollü atmosferde muhafazası. Uludağ Üniversitesi Ziraat Fakültesi Dergisi 16(2): 189-202
  • Özer M H & Masatçı F (2000). Domatesin kontrollü atmosferde (KA) muhafazası üzerine bir araştırma. Uludağ Üniversitesi Ziraat Fakültesi Dergisi 14: 45- 57
  • Romani A, Pinelli P, Cantani C, Cimato A & Heimler D (2006). Characterization of violetto di toscana, a typical italian variety of artichoke (Cynara scolymus L.). Food Chemistry 95(2): 221-225
  • Sankat C K & Mujaffar S (1999). Water balance in cut Anthurium flowers in storage and its effects on quality. Acta Horticulturae 368: 723-732
  • Sun D W & Wang L (2004). Experimental ınvestigation of performance of vacuum cooling for commercial large cooked meat joints. Journal of Food Engineering 61(4): 527-532
  • Teruel B, Cortez L & Fo L N (2001). A comparative study of the cooling of oranges using three cooling systems. Revista Brasileira De Engenharia Agricola E Ambiental 5(3): 481-486
  • Thompson Coon J S & Ernst E (2003). Herbs for serum cholesterol reduction: A systematic view. Journal of Family Practice 52: 468-478
  • Wang L J & Sun D W (2001). Rapid cooling of porous and moisture foods by using vacuum cooling technology. Trends in Food Science & Technology 12(5-6): 174- 184
  • Wang L J & Sun D W (2002a). Numerical analysis of the three-dimensional mass and heat transfer with inner moisture evaporation in porous cooked meat joints during vacuum cooling. Transactions of the ASAE 45(6): 107-115
  • Wang L J & Sun D W (2002b). Evaluation of performance of slow air, air blast and water immersion cooling methods in the cooked meat industry by the finite element method. Journal of Food Engineering 51(4): 329-340
  • Wang L J & Sun D W (2004). Effect of operating conditions of a vacuum cooler on cooling performance for large cooked meat joints. Journal of Food Engineering 61(2): 231-240
  • Zhang Z & Sun D W (2006a). Effects of cooling methods on the cooling efficiency and quality of cooked rice. Journal of Food Engineering 77: 269-274
  • Zhang Z & Sun D W (2006b). Effects of cooling methods on the cooling efficiency and qualities of cooked broccoli and carrot slices. Journal of Food Engineering 77: 320-326
  • Zhu X F, Zhang H X & Lo R (2004). Phenolic compounds from the leaf extract of artichoke (Cynara scolymus L.) and their antimicrobial activities. Journal of Agricultural and Food Chemistry 52: 7272-7278
  • Zhu X F, Zhang H X & Lo R (2005). Antifungal activity of Cynara Scolymus L. extracts. Fitoterapia 76(1): 108-111

Determination of Quality Parameters during Air Blast, Vacuum and Hydro Pre-cooling of Artichoke under the Storage Conditions

Year 2016, Volume: 22 Issue: 4, 480 - 491, 01.09.2016
https://doi.org/10.1501/Tarimbil_0000001406

Abstract

The aim of the present study is to pre-cool artichokes which were placed in the cases after weighing 5±0.005 kg, from 23.5±0.5 °C which is field temperature to the storage temperature of 1 °C through using three different precooling methods such as air blast, hydro and vacuum. The cooling method, which has the shortest pre-cooling time, is the vacuum pre-cooling method with 35 minutes. This was followed by hydro with 58 minutes and air pre-cooling method with 135 minutes. When pre-cooling systems were analyzed in terms of energy consumption, vacuum precooling system was determined to have the lowest energy consumption with the value of 0.38 kWh, which was followed by hydro pre-cooling with 0.65 kWh and air pre-cooling system with 0.84 kWh. Based upon an evaluation carried out in terms of power consumption of the systems, air blast pre-cooling method has the minimum power with the value of 0.37 kW, which was followed by hydro and vacuum pre-cooling methods with the respective values of 0.48 kW and 0.65 kW. Following pre-cooling operations, it was observed that there is 2.83% weight gain in the products exposed to hydro pre-cooling. However, 1.03% and 1.88% weight loss was found to occur after pre-cooling operation in artichokes pre-cooled by means of air blast and vacuum. Artichokes pre-cooled through air blast, hydro and vacuum or those which are not pre-cooled were maintained for 30 days in modified atmosphere room while they were hold for 15 days in room conditions; moreover, they were analyzed related to weight loss, hardness, degradation rate and overall appearance. Accordingly, it was determined that the most suitable pre-cooling method is vacuum pre-cooling; this was followed by artichokes pre-cooled though vacuum and hydro or those not pre-cooled

References

  • Akbudak B & Özer M H (2003). Farklı sıcaklıklarda muhafaza edilen turşuluk hıyarda meydana gelen fiziksel ve kimyasal değişimler. Uludağ Üniversitesi Ziraat Fakültesi Dergisi 17(1): 33-46
  • Alibaş İ (2012). Asma yaprağının (Vitis vinifera L.) mikrodalga enerjisiyle kurutulması ve bazı kalite parametrelerinin belirlenmesi. Tarım Bilimleri Dergisi-Journal of Agricultural Sciences 18(1): 43-53
  • Alibaş İ & Okursoy R (2009). Determination of operating and quality parameters during air blast, vacuum and hydro pre-cooling of spinach. Tarım Makinaları Bilimi Dergisi 5(2): 149-160
  • Alibaş İ & Okursoy R (2012). A comparison study of some operating parameters during vaccum, air and hydro pre-cooling of faba beans, and determination of the quality parameters during storage period. Tarım Makinaları Bilimi Dergisi 8(2): 185-197
  • Alibaş İ & İzli N (2013). Determination of the storage and quality parameters of nettle leaves hydro pre- cooleding different water temperatures. Tarım Makinaları Bilimi Dergisi 9(1): 21-27
  • Alibas I & Koksal N (2014). Forced-air, vacuum and hydro precooling of cauliflower (Brassica oleracea L. var. botrytis cv. Freemont): Part I. Determination of precooling parameters. Food Science and Technology 34(4): 730-737
  • Alibas I & Koksal N (2015). Forced-air, vacuum and hydro precooling of cauliflower (Brassica oleracea L. var. botrytis cv. Freemont): Part II. Determination of quality parameters during storage. Food Science and Technology 35(1): 45-50
  • Brosnan T & Sun D W (2003). Influence of modulated vacuum cooling on the cooling rate, mass loss and vase life of cut lily flowers. Biosystems Engineering 86(1): 45-49
  • Cheng H P (2006). Vacuum cooling combined with hydrocooling and vacuum drying on bamboo shoots. Applied Thermal Engineering 26: 2168-2175
  • Desmond E M, Kenny T A & Ward P (2000). Effect of rapid and conventional cooling methods on the quality of cooked ham joints. Meat Science 56: 271-277
  • Desmond E M, Kenny T A & Ward P (2002). The effect of ınjection level and cooling method on the quality of cooked ham joints. Meat Science 60(3): 271-277
  • Dincer I (1995). Air flow precooling of individual grapes. Journal of Food Engineering 6(2): 243-249
  • Dostal M & Petera K (2004). Vacuum cooling of liquids: Mathematical model. Journal of Food Engineering 61(4): 533-539
  • Günhan T, Demir V & Yağcıoğlu A (2014). Mathematical modelling of convection drying characteristics of artichoke (Cynara Scolymus L.) leaves. Tarım Bilimleri Dergisi-Journal of Agricultural Sciences 20(4): 415-426
  • Haas E & Gur G (1987). Factor affecting the cooling rate of lettuce in vacuum cooling installations. International Journal of Refrigeration 10(2): 82-86
  • Houska M, Sun D-W, Landfeld A & Zhihang Z (2003). Experimental study of vacuum cooling of cooked beef in soup. Journal of Food Engineering 59(2-3): 105- 110
  • Jackman P, Sun D W & Zheng L (2007). Effect of combined vacuum cooling and air blast cooling on time and cooling loss of large cooked beef joints. Journal of Food Engineering 81: 266-271
  • McDonald K & Sun D W (2000). Vacuum cooling technology for the food processing industry: A review. Journal of Food Engineering 45(2): 55-65
  • McDonald K, Sun D W & Kenny T (2000). Comparison of the quality of cooked beef products cooled by vacuum cooling and by conventional cooling. Lebensmittel- Wissenschaft Und-Technologie 33(1): 21-29
  • McDonald K, Sun D W & Lygn J G (2002). Effect of vacuum cooling on the thermophysical properties of a cooked beef product. Journal of Food Engineering 52(2): 167-176
  • Özer M H (2002). Jonagold elma çeşidinin kontrollü atmosferde muhafazası. Uludağ Üniversitesi Ziraat Fakültesi Dergisi 16(2): 189-202
  • Özer M H & Masatçı F (2000). Domatesin kontrollü atmosferde (KA) muhafazası üzerine bir araştırma. Uludağ Üniversitesi Ziraat Fakültesi Dergisi 14: 45- 57
  • Romani A, Pinelli P, Cantani C, Cimato A & Heimler D (2006). Characterization of violetto di toscana, a typical italian variety of artichoke (Cynara scolymus L.). Food Chemistry 95(2): 221-225
  • Sankat C K & Mujaffar S (1999). Water balance in cut Anthurium flowers in storage and its effects on quality. Acta Horticulturae 368: 723-732
  • Sun D W & Wang L (2004). Experimental ınvestigation of performance of vacuum cooling for commercial large cooked meat joints. Journal of Food Engineering 61(4): 527-532
  • Teruel B, Cortez L & Fo L N (2001). A comparative study of the cooling of oranges using three cooling systems. Revista Brasileira De Engenharia Agricola E Ambiental 5(3): 481-486
  • Thompson Coon J S & Ernst E (2003). Herbs for serum cholesterol reduction: A systematic view. Journal of Family Practice 52: 468-478
  • Wang L J & Sun D W (2001). Rapid cooling of porous and moisture foods by using vacuum cooling technology. Trends in Food Science & Technology 12(5-6): 174- 184
  • Wang L J & Sun D W (2002a). Numerical analysis of the three-dimensional mass and heat transfer with inner moisture evaporation in porous cooked meat joints during vacuum cooling. Transactions of the ASAE 45(6): 107-115
  • Wang L J & Sun D W (2002b). Evaluation of performance of slow air, air blast and water immersion cooling methods in the cooked meat industry by the finite element method. Journal of Food Engineering 51(4): 329-340
  • Wang L J & Sun D W (2004). Effect of operating conditions of a vacuum cooler on cooling performance for large cooked meat joints. Journal of Food Engineering 61(2): 231-240
  • Zhang Z & Sun D W (2006a). Effects of cooling methods on the cooling efficiency and quality of cooked rice. Journal of Food Engineering 77: 269-274
  • Zhang Z & Sun D W (2006b). Effects of cooling methods on the cooling efficiency and qualities of cooked broccoli and carrot slices. Journal of Food Engineering 77: 320-326
  • Zhu X F, Zhang H X & Lo R (2004). Phenolic compounds from the leaf extract of artichoke (Cynara scolymus L.) and their antimicrobial activities. Journal of Agricultural and Food Chemistry 52: 7272-7278
  • Zhu X F, Zhang H X & Lo R (2005). Antifungal activity of Cynara Scolymus L. extracts. Fitoterapia 76(1): 108-111
There are 35 citations in total.

Details

Primary Language Turkish
Journal Section Research Article
Authors

İlknur Alibaş This is me

Rasim Okursoy This is me

Publication Date September 1, 2016
Submission Date January 1, 2016
Published in Issue Year 2016 Volume: 22 Issue: 4

Cite

APA Alibaş, İ., & Okursoy, R. (2016). Enginarın Basınçlı Havayla, Suyla ve Vakumla Ön Soğutulmasının Depolama Koşullarındaki Kalite Parametreleri Üzerindeki Etkisinin Belirlenmesi. Journal of Agricultural Sciences, 22(4), 480-491. https://doi.org/10.1501/Tarimbil_0000001406

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