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DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS

Year 2024, , 88 - 100, 14.02.2024
https://doi.org/10.15237/gida.GD23099

Abstract

This study aimed to optimize the foam properties for the foam mat drying (FMD) process and investigate the effect of drying temperatures (60, 70, and 80 °C) on the cherry laurel juice's drying characteristics and bioactive properties. Egg white protein (EWP), carboxymethyl cellulose (CMC), and mixing time (MT) variables were optimized using the Taguchi method to achieve the juice foam with maximum foam capacity and stability. The optimal conditions determined were 10% EWP, 0.3% CMC, and 12 min of MT. The drying times and effective moisture diffusivities (Deff) for 60, 70, and 80 °C were recorded as 160, 120 and 90 min and 6.09×10-9, 7.74×10-9 and 11.33×10-9 m2/s, respectively. As the drying temperature increased, the total phenolic and total monomeric anthocyanin contents, and antioxidant activity values increased, but ascorbic acid content decreased. This research demonstrates that the FMD process can successfully be applied to dry juices with pronounced bioactive properties.

References

  • Abd El-Salam, E. A. E. S., Ali, A. M., Hammad, K. S. (2021). Foaming process optimization, drying kinetics and quality of foam mat dried papaya pulp. Journal of Food Science and Technology, 58(4), 1449–1461. https://doi.org/10.1007/ s13197-020-04657-2
  • Aktürk Gümüşay, Ö., Yıldırım Yalçın, M. (2019). Effects of Freeze-Drying Process on Antioxidant and Some Physical Properties of Cherry Laurel and Kiwi Fruits. Akademik Gıda, 17(1), 9–15. https://doi.org/10.24323/akademik-gida.543985
  • Altuntaş, E., Taşova, M., Polatcı, H., Saraçoğlu, O. (2022). Effects of Genotypes and Drying Temperatures on Color and Thin Layer Drying Models of Cherry Laurel (Laurocerasus Officinalis L.) Fruits. Kastamonu Üniversitesi Orman Fakültesi Dergisi, 22(1), 24–32. https://doi.org/ 10.17475/kastorman.1095719
  • Ana Maria, B., Tamara, J., Ana Jurinjak, T., Davor, V., Jasenka Gajdoš, K., Maja, B. (2019). Applicability of Foam Mat Drying Process for Production of Instant Cocoa Powder Enriched with Lavender Extract. Food Technology and Biotechnology, 57(2), 159–170. https://doi.org/ 10.1007/978-3-030-82688-8_1
  • Aslan, M., Ertaş, N. (2021). Foam drying of aquafaba: Optimization with mixture design. Journal of Food Processing and Preservation, 45(3), 1–11. https://doi.org/10.1111/jfpp.15185
  • Asokapandian, S., Venkatachalam, S., Swamy, G. J., Kuppusamy, K. (2016). Optimization of Foaming Properties and Foam Mat Drying of Muskmelon Using Soy Protein. Journal of Food Process Engineering, 39(6), 692–701. https://doi.org/10.1111/jfpe.12261
  • Azizpour, M., Mohebbi, M., Yolmeh, M., Abbasi, E., Sangatash, M. M. (2017). Effects of different hydrocolloids on foaming properties of shrimp puree: a cluster analysis. Journal of Food Measurement and Characterization, 11(4), 1892–1898. https://doi.org/10.1007/s11694-017-9571-9
  • Berktas, S., Cam, M., Salum, P., Erbay, Z. (2023). Microwave drying of quince coated with seed gum and pectin: A Taguchi optimization, techno-functional properties, and aromatic compounds. Journal of Food Science, May, 2919–2932. https://doi.org/10.1111/1750-3841.16660
  • Beyhan, O. (2010). A Study on selection of promising native cherry laurel (Prunus Laurocerasus L.) Genotypes from Sakarya, Turkey. Journal of Animal and Plant Sciences, 20(4), 231–233.
  • Bozkir, H. (2020). Effects of hot air, vacuum infrared, and vacuum microwave dryers on the drying kinetics and quality characteristics of orange slices. Journal of Food Process Engineering, 43(10), 1–12. https://doi.org/10.1111/ jfpe.13485
  • Bozkir, H., Tekgül, Y., Erten, E. S. (2021). Effects of tray drying, vacuum infrared drying, and vacuum microwave drying techniques on quality characteristics and aroma profile of orange peels. Journal of Food Process Engineering, 44(1). https://doi.org/10.1111/jfpe.13611
  • Brar, A. S., Kaur, P., Kaur, G., Subramanian, J., Kumar, D., Singh, A. (2020). Optimization of Process Parameters for Foam-Mat Drying of Peaches. International Journal of Fruit Science, 20(S3), S1495–S1518. https://doi.org/10.1080/ 15538362.2020.1812017
  • Celik, F., Ercisli, S., Yilmaz, S. O., Hegedus, A. (2011). Estimation of certain physical andchemical fruit characteristics ofvarious cherry laurel (Laurocerasusofficinalis roem.) genotypes. HortScience, 46(6), 924–927. https://doi.org/10.21273/hortsci.46.6.924
  • Dehghannya, J., Pourahmad, M., Ghanbarzadeh, B., Ghaffari, H. (2019). Heat and mass transfer enhancement during foam-mat drying process of lime juice: Impact of convective hot air temperature. International Journal of Thermal Sciences, 135(December 2017), 30–43. https://doi.org/ 10.1016/j.ijthermalsci.2018.07.023
  • Fauziyah, N., Ifie, I., Syarief, O., Darniadi, S. (2022). Impact of hydrocolloid and foaming agent on the physicochemical, microstructural and bioactive characteristics of foam-mat freeze-dried tapai (fermented black glutinous rice) powder. Food Science and Nutrition, May, 1–12. https://doi.org/10.1002/fsn3.3098
  • Gao, R., Xue, L., Zhang, Y., Liu, Y., Shen, L., Zheng, X. (2022). Production of blueberry pulp powder by microwave-assisted foam-mat drying: Effects of formulations of foaming agents on drying characteristics and physicochemical properties. Lwt, 154, 112811. https://doi.org/ 10.1016/j.lwt.2021.112811
  • Güldane, M. (2023a). Optimizing foam mat drying process for cornelian cherry pulp using response surface methodology and artificial neural networks. Revista Mexicana de Ingeniería Química, 22(3), 1–14. https://doi.org/ 10.24275/rmiq/Alim2386
  • Güldane, M. (2023b). Optimizing foam quality characteristics of model food using Taguchi-based fuzzy logic method. Journal of Food Process Engineering, 46(8), e14384. https://doi.org/10.1111/jfpe.14384
  • Guldane, M., Dogan, M. (2022). Multi-response optimization of process parameters of saponin-based model foam using Taguchi method and gray relational analysis coupled with principal component analysis. Journal of Food Processing and Preservation, 46(5), 1–14. https://doi.org/10.1111/jfpp.16553
  • Güleç, F., Özdemir, G. D. T. (2017). Investigation of drying characteristics of Cherry Laurel (Laurocerasus officinalis Roemer) fruits. Akademik Ziraat Dergisi, 6(1), 73–80.
  • Hussein, J. B., Oke, M. O., Abiona, O. O., Adebayo, Q. (2021). Optimization of processing parameters for drying of tomatoes (Solanum lycopersicum L.var) slices using Taguchi technique. Journal of Food Processing and Preservation, 45(2), 0–2. https://doi.org/10.1111/jfpp.15149
  • Iasnaia Maria de Carvalho, T., Nogueira, T. Y. K., Mauro, M. A., Gómez-Alonso, S., Gomes, E., Da-Silva, R., Hermosín-Gutiérrez, I., Lago-Vanzela, E. S. (2017). Dehydration of jambolan [Syzygium cumini (L.)] juice during foam mat drying: Quantitative and qualitative changes of the phenolic compounds. Food Research International, 102(September), 32–42. https://doi.org/ 10.1016/j.foodres.2017.09.068
  • Kadam, D. M., Wilson, R. A., Kaur, S., Manisha. (2012). Influence of foam mat drying on quality of tomato powder. International Journal of Food Properties, 15(1), 211–220. https://doi.org/ 10.1080/10942911003763701
  • Kanha, N., Regenstein, J. M., Laokuldilok, T. (2022). Optimization of process parameters for foam mat drying of black rice bran anthocyanin and comparison with spray- and freeze-dried powders. Drying Technology, 40(3), 581–594. https://doi.org/10.1080/07373937.2020.1819824
  • Khodifad, B. C., Kumar, N. (2020). Foaming properties of custard apple pulp and mathematical modelling of foam mat drying. Journal of Food Science and Technology, 57(2), 526–536. https://doi.org/10.1007/s13197-019-04082-0
  • Kılıç, F., Tabanlıgil Calam, T. (2020). Kırmızı Kapya Biberlerinin (Capsicum Annuum l.) Kurutma ve Rehidrasyon Kinetiklerinin Belirlenmesi, Kurutma İşleminin Termodinamik Analizi. Deu Muhendislik Fakultesi Fen ve Muhendislik, 22(65), 343–352. https://doi.org/ 10.21205/deufmd.2020226503
  • Liyana-Pathirana, C. M., Shahidi, F., Alasalvar, C. (2006). Antioxidant activity of cherry laurel fruit (Laurocerasus officinalis Roem.) and its concentrated juice. Food Chemistry, 99(1), 121–128. https://doi.org/10.1016/j.foodchem.2005.06.046
  • Macedo, L. L., Corrêa, J. L. G., Araújo, C. da S., Vimercati, W. C., Pio, L. A. S. (2021). Process optimization and ethanol use for obtaining white and red dragon fruit powder by foam mat drying. Journal of Food Science, 86(2), 426–433. https://doi.org/10.1111/1750-3841.15585
  • Maria de Carvalho Tavares, I., Bonatto Machado de Castilhos, M., Aparecida Mauro, M., Mota Ramos, A., Teodoro de Souza, R., Gómez-Alonso, S., Gomes, E., Da-Silva, R., Hermosín-Gutiérrez, I., Silva Lago-Vanzela, E. (2019). BRS Violeta (BRS Rúbea × IAC 1398-21) grape juice powder produced by foam mat drying. Part I: Effect of drying temperature on phenolic compounds and antioxidant activity. Food Chemistry, 298(June), 124971. https://doi.org/ 10.1016/j.foodchem.2019.124971
  • Michalska-Ciechanowska, A., Majerska, J., Brzezowska, J., Wojdyło, A., Figiel, A. (2020). The influence of maltodextrin and inulin on the physico-chemical properties of cranberry juice powders. ChemEngineering, 4(1), 1–12. https://doi.org/10.3390/chemengineering4010012
  • Nemati, A., Motamedzadegan, A., Milani, J. M. (2022). Evaluating the effect of different foam mat drying methods on the properties of orange beverage powder. Journal of Food Processing and Preservation, 46(6), 1–13. https://doi.org/ 10.1111/jfpp.16539
  • Osama, K., Younis, K., Qadri, O. S., Parveen, S., Siddiqui, M. H. (2022). Development of under-utilized kadam (Neolamarkia cadamba) powder using foam mat drying. Lwt, 154, 112782. https://doi.org/10.1016/j.lwt.2021.112782
  • Salahi, M. R., Mohebbi, M., Taghizadeh, M. (2015). Foam-Mat Drying of Cantaloupe (Cucumis melo): Optimization of Foaming Parameters and Investigating Drying Characteristics. Journal of Food Processing and Preservation, 39(6), 1798–1808. https://doi.org/ 10.1111/jfpp.12414
  • Santos, L. G., Martins, V. G. (2022). Recovery of phenolic compounds from purple onion peel using bio-based solvents: Thermal degradation kinetics and color stability of anthocyanins. Journal of Food Processing and Preservation, 46(12), 1–9. https://doi.org/10.1111/jfpp.17161
  • Thuy, N. M., Tien, V. Q., Tai, N. Van, Minh, V. Q. (2022). Effect of Foaming Conditions on Foam Properties and Drying Behavior of Powder from Magenta (Peristrophe roxburghiana) Leaves Extracts. Horticulturae, 8(6). https://doi.org/10.3390/horticulturae8060546
  • Tontul, I., Eroğlu, E., Topuz, A. (2018). Convective and refractance window drying of cornelian cherry pulp: Effect on physicochemical properties. Journal of Food Process Engineering, 41(8), 1–8. https://doi.org/10.1111/jfpe.12917
  • Turkmen, F., Karasu, S., Karadağ, A. (2020). Effects of Different Drying Methods and Temperature on the Drying Behavior and Quality Attributes of Cherry Laurel Fruit. Processes, 2, 1–15.
  • Vahapoğlu, B., Altan, E. N., Gülseren, İ. (2018). Karayemiş meyvesi̇ni̇n Bi̇yoakti̇f Özellikleri ve Fonksi̇yonel Gıdalarda Kullanim Potansi̇yeli̇. Gıda, 43(5), 751–764. https://doi.org/10.15237/ gida.gd18055
  • Varhan, E., Elmas, F., Koç, M. (2019). Foam mat drying of fig fruit: Optimization of foam composition and physicochemical properties of fig powder. Journal of Food Process Engineering, 42(4), 1–13. https://doi.org/10.1111/jfpe.13022
  • Watharkar, R. B., Chakraborty, S., Srivastav, P. P., Srivastava, B. (2021). Foaming and foam mat drying characteristics of ripe banana [Musa balbisiana (BB)] pulp. Journal of Food Process Engineering, 44(8). https://doi.org/ 10.1111/jfpe.13726
  • Zielinska, M., Ropelewska, E., Zapotoczny, P. (2018). Effects of freezing and hot air drying on the physical, morphological and thermal properties of cranberries (Vaccinium macrocarpon). Food and Bioproducts Processing, 110, 40–49. https://doi.org/10.1016/ j.fbp.2018.04.006

KARAYEMİŞ ÖZÜTÜNÜN KÖPÜK MAT KURUTMA YÖNTEMİYLE KURUTULMASI VE KURUTMA SICAKLIĞININ KURUMA KARAKTERİSTİKLERİ VE BİYOAKTİF BİLEŞENLER ÜZERİNE ETKİSİNİN ARAŞTIRILMASI

Year 2024, , 88 - 100, 14.02.2024
https://doi.org/10.15237/gida.GD23099

Abstract

Bu çalışmada, köpük mat kurutma (KMK) prosesi için köpük özelliklerinin optimize edilmesi ve farklı kurutma sıcaklıklarının (60, 70 ve 80 °C) ürünün kuruma karakteristikleri ve biyoaktif özelliklerine etkisinin araştırılması amaçlanmıştır. Optimum köpük kapasitesi ve stabilitesine sahip karayemiş özütü köpüğü elde etmek için yumurta akı proteini (EWP), karboksimetil selüloz (CMC) ve miksleme süresi (MS) değişkenleri Taguchi yöntemiyle optimize edilmiştir. Optimal koşullar %10 EWP, %0.3 CMC ve 12 dk. MS olarak belirlenmiştir. KMK işleminde 60, 70 ve 80 °C için kuruma süreleri ve efektif nem yayılımları sırasıyla 160, 120 ve 90 dk ve 6.09×10-9, 7.74×10-9 ve 11.33×10-9 m2/s olarak saptanmıştır. Bununla birlikte, kurutma sıcaklığının yükseltilmesiyle toplam fenolik madde ve toplam monomerik antosiyanin içerikleri ile antioksidan aktivite değerleri artmış askorbik asit içeriği ise azalmıştır. Bu çalışma, KMK işleminin belirgin biyoaktif özelliklere sahip meyve sularına başarıyla uygulanabileceğini göstermektedir.

References

  • Abd El-Salam, E. A. E. S., Ali, A. M., Hammad, K. S. (2021). Foaming process optimization, drying kinetics and quality of foam mat dried papaya pulp. Journal of Food Science and Technology, 58(4), 1449–1461. https://doi.org/10.1007/ s13197-020-04657-2
  • Aktürk Gümüşay, Ö., Yıldırım Yalçın, M. (2019). Effects of Freeze-Drying Process on Antioxidant and Some Physical Properties of Cherry Laurel and Kiwi Fruits. Akademik Gıda, 17(1), 9–15. https://doi.org/10.24323/akademik-gida.543985
  • Altuntaş, E., Taşova, M., Polatcı, H., Saraçoğlu, O. (2022). Effects of Genotypes and Drying Temperatures on Color and Thin Layer Drying Models of Cherry Laurel (Laurocerasus Officinalis L.) Fruits. Kastamonu Üniversitesi Orman Fakültesi Dergisi, 22(1), 24–32. https://doi.org/ 10.17475/kastorman.1095719
  • Ana Maria, B., Tamara, J., Ana Jurinjak, T., Davor, V., Jasenka Gajdoš, K., Maja, B. (2019). Applicability of Foam Mat Drying Process for Production of Instant Cocoa Powder Enriched with Lavender Extract. Food Technology and Biotechnology, 57(2), 159–170. https://doi.org/ 10.1007/978-3-030-82688-8_1
  • Aslan, M., Ertaş, N. (2021). Foam drying of aquafaba: Optimization with mixture design. Journal of Food Processing and Preservation, 45(3), 1–11. https://doi.org/10.1111/jfpp.15185
  • Asokapandian, S., Venkatachalam, S., Swamy, G. J., Kuppusamy, K. (2016). Optimization of Foaming Properties and Foam Mat Drying of Muskmelon Using Soy Protein. Journal of Food Process Engineering, 39(6), 692–701. https://doi.org/10.1111/jfpe.12261
  • Azizpour, M., Mohebbi, M., Yolmeh, M., Abbasi, E., Sangatash, M. M. (2017). Effects of different hydrocolloids on foaming properties of shrimp puree: a cluster analysis. Journal of Food Measurement and Characterization, 11(4), 1892–1898. https://doi.org/10.1007/s11694-017-9571-9
  • Berktas, S., Cam, M., Salum, P., Erbay, Z. (2023). Microwave drying of quince coated with seed gum and pectin: A Taguchi optimization, techno-functional properties, and aromatic compounds. Journal of Food Science, May, 2919–2932. https://doi.org/10.1111/1750-3841.16660
  • Beyhan, O. (2010). A Study on selection of promising native cherry laurel (Prunus Laurocerasus L.) Genotypes from Sakarya, Turkey. Journal of Animal and Plant Sciences, 20(4), 231–233.
  • Bozkir, H. (2020). Effects of hot air, vacuum infrared, and vacuum microwave dryers on the drying kinetics and quality characteristics of orange slices. Journal of Food Process Engineering, 43(10), 1–12. https://doi.org/10.1111/ jfpe.13485
  • Bozkir, H., Tekgül, Y., Erten, E. S. (2021). Effects of tray drying, vacuum infrared drying, and vacuum microwave drying techniques on quality characteristics and aroma profile of orange peels. Journal of Food Process Engineering, 44(1). https://doi.org/10.1111/jfpe.13611
  • Brar, A. S., Kaur, P., Kaur, G., Subramanian, J., Kumar, D., Singh, A. (2020). Optimization of Process Parameters for Foam-Mat Drying of Peaches. International Journal of Fruit Science, 20(S3), S1495–S1518. https://doi.org/10.1080/ 15538362.2020.1812017
  • Celik, F., Ercisli, S., Yilmaz, S. O., Hegedus, A. (2011). Estimation of certain physical andchemical fruit characteristics ofvarious cherry laurel (Laurocerasusofficinalis roem.) genotypes. HortScience, 46(6), 924–927. https://doi.org/10.21273/hortsci.46.6.924
  • Dehghannya, J., Pourahmad, M., Ghanbarzadeh, B., Ghaffari, H. (2019). Heat and mass transfer enhancement during foam-mat drying process of lime juice: Impact of convective hot air temperature. International Journal of Thermal Sciences, 135(December 2017), 30–43. https://doi.org/ 10.1016/j.ijthermalsci.2018.07.023
  • Fauziyah, N., Ifie, I., Syarief, O., Darniadi, S. (2022). Impact of hydrocolloid and foaming agent on the physicochemical, microstructural and bioactive characteristics of foam-mat freeze-dried tapai (fermented black glutinous rice) powder. Food Science and Nutrition, May, 1–12. https://doi.org/10.1002/fsn3.3098
  • Gao, R., Xue, L., Zhang, Y., Liu, Y., Shen, L., Zheng, X. (2022). Production of blueberry pulp powder by microwave-assisted foam-mat drying: Effects of formulations of foaming agents on drying characteristics and physicochemical properties. Lwt, 154, 112811. https://doi.org/ 10.1016/j.lwt.2021.112811
  • Güldane, M. (2023a). Optimizing foam mat drying process for cornelian cherry pulp using response surface methodology and artificial neural networks. Revista Mexicana de Ingeniería Química, 22(3), 1–14. https://doi.org/ 10.24275/rmiq/Alim2386
  • Güldane, M. (2023b). Optimizing foam quality characteristics of model food using Taguchi-based fuzzy logic method. Journal of Food Process Engineering, 46(8), e14384. https://doi.org/10.1111/jfpe.14384
  • Guldane, M., Dogan, M. (2022). Multi-response optimization of process parameters of saponin-based model foam using Taguchi method and gray relational analysis coupled with principal component analysis. Journal of Food Processing and Preservation, 46(5), 1–14. https://doi.org/10.1111/jfpp.16553
  • Güleç, F., Özdemir, G. D. T. (2017). Investigation of drying characteristics of Cherry Laurel (Laurocerasus officinalis Roemer) fruits. Akademik Ziraat Dergisi, 6(1), 73–80.
  • Hussein, J. B., Oke, M. O., Abiona, O. O., Adebayo, Q. (2021). Optimization of processing parameters for drying of tomatoes (Solanum lycopersicum L.var) slices using Taguchi technique. Journal of Food Processing and Preservation, 45(2), 0–2. https://doi.org/10.1111/jfpp.15149
  • Iasnaia Maria de Carvalho, T., Nogueira, T. Y. K., Mauro, M. A., Gómez-Alonso, S., Gomes, E., Da-Silva, R., Hermosín-Gutiérrez, I., Lago-Vanzela, E. S. (2017). Dehydration of jambolan [Syzygium cumini (L.)] juice during foam mat drying: Quantitative and qualitative changes of the phenolic compounds. Food Research International, 102(September), 32–42. https://doi.org/ 10.1016/j.foodres.2017.09.068
  • Kadam, D. M., Wilson, R. A., Kaur, S., Manisha. (2012). Influence of foam mat drying on quality of tomato powder. International Journal of Food Properties, 15(1), 211–220. https://doi.org/ 10.1080/10942911003763701
  • Kanha, N., Regenstein, J. M., Laokuldilok, T. (2022). Optimization of process parameters for foam mat drying of black rice bran anthocyanin and comparison with spray- and freeze-dried powders. Drying Technology, 40(3), 581–594. https://doi.org/10.1080/07373937.2020.1819824
  • Khodifad, B. C., Kumar, N. (2020). Foaming properties of custard apple pulp and mathematical modelling of foam mat drying. Journal of Food Science and Technology, 57(2), 526–536. https://doi.org/10.1007/s13197-019-04082-0
  • Kılıç, F., Tabanlıgil Calam, T. (2020). Kırmızı Kapya Biberlerinin (Capsicum Annuum l.) Kurutma ve Rehidrasyon Kinetiklerinin Belirlenmesi, Kurutma İşleminin Termodinamik Analizi. Deu Muhendislik Fakultesi Fen ve Muhendislik, 22(65), 343–352. https://doi.org/ 10.21205/deufmd.2020226503
  • Liyana-Pathirana, C. M., Shahidi, F., Alasalvar, C. (2006). Antioxidant activity of cherry laurel fruit (Laurocerasus officinalis Roem.) and its concentrated juice. Food Chemistry, 99(1), 121–128. https://doi.org/10.1016/j.foodchem.2005.06.046
  • Macedo, L. L., Corrêa, J. L. G., Araújo, C. da S., Vimercati, W. C., Pio, L. A. S. (2021). Process optimization and ethanol use for obtaining white and red dragon fruit powder by foam mat drying. Journal of Food Science, 86(2), 426–433. https://doi.org/10.1111/1750-3841.15585
  • Maria de Carvalho Tavares, I., Bonatto Machado de Castilhos, M., Aparecida Mauro, M., Mota Ramos, A., Teodoro de Souza, R., Gómez-Alonso, S., Gomes, E., Da-Silva, R., Hermosín-Gutiérrez, I., Silva Lago-Vanzela, E. (2019). BRS Violeta (BRS Rúbea × IAC 1398-21) grape juice powder produced by foam mat drying. Part I: Effect of drying temperature on phenolic compounds and antioxidant activity. Food Chemistry, 298(June), 124971. https://doi.org/ 10.1016/j.foodchem.2019.124971
  • Michalska-Ciechanowska, A., Majerska, J., Brzezowska, J., Wojdyło, A., Figiel, A. (2020). The influence of maltodextrin and inulin on the physico-chemical properties of cranberry juice powders. ChemEngineering, 4(1), 1–12. https://doi.org/10.3390/chemengineering4010012
  • Nemati, A., Motamedzadegan, A., Milani, J. M. (2022). Evaluating the effect of different foam mat drying methods on the properties of orange beverage powder. Journal of Food Processing and Preservation, 46(6), 1–13. https://doi.org/ 10.1111/jfpp.16539
  • Osama, K., Younis, K., Qadri, O. S., Parveen, S., Siddiqui, M. H. (2022). Development of under-utilized kadam (Neolamarkia cadamba) powder using foam mat drying. Lwt, 154, 112782. https://doi.org/10.1016/j.lwt.2021.112782
  • Salahi, M. R., Mohebbi, M., Taghizadeh, M. (2015). Foam-Mat Drying of Cantaloupe (Cucumis melo): Optimization of Foaming Parameters and Investigating Drying Characteristics. Journal of Food Processing and Preservation, 39(6), 1798–1808. https://doi.org/ 10.1111/jfpp.12414
  • Santos, L. G., Martins, V. G. (2022). Recovery of phenolic compounds from purple onion peel using bio-based solvents: Thermal degradation kinetics and color stability of anthocyanins. Journal of Food Processing and Preservation, 46(12), 1–9. https://doi.org/10.1111/jfpp.17161
  • Thuy, N. M., Tien, V. Q., Tai, N. Van, Minh, V. Q. (2022). Effect of Foaming Conditions on Foam Properties and Drying Behavior of Powder from Magenta (Peristrophe roxburghiana) Leaves Extracts. Horticulturae, 8(6). https://doi.org/10.3390/horticulturae8060546
  • Tontul, I., Eroğlu, E., Topuz, A. (2018). Convective and refractance window drying of cornelian cherry pulp: Effect on physicochemical properties. Journal of Food Process Engineering, 41(8), 1–8. https://doi.org/10.1111/jfpe.12917
  • Turkmen, F., Karasu, S., Karadağ, A. (2020). Effects of Different Drying Methods and Temperature on the Drying Behavior and Quality Attributes of Cherry Laurel Fruit. Processes, 2, 1–15.
  • Vahapoğlu, B., Altan, E. N., Gülseren, İ. (2018). Karayemiş meyvesi̇ni̇n Bi̇yoakti̇f Özellikleri ve Fonksi̇yonel Gıdalarda Kullanim Potansi̇yeli̇. Gıda, 43(5), 751–764. https://doi.org/10.15237/ gida.gd18055
  • Varhan, E., Elmas, F., Koç, M. (2019). Foam mat drying of fig fruit: Optimization of foam composition and physicochemical properties of fig powder. Journal of Food Process Engineering, 42(4), 1–13. https://doi.org/10.1111/jfpe.13022
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There are 41 citations in total.

Details

Primary Language English
Subjects Food Engineering, Drying Technologies, Fruit-Vegetables Technology, Basic Food Processes
Journal Section Articles
Authors

Mehmet Güldane 0000-0001-7321-0496

Hamza Bozkır 0000-0002-8868-697X

Publication Date February 14, 2024
Published in Issue Year 2024

Cite

APA Güldane, M., & Bozkır, H. (2024). DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS. Gıda, 49(1), 88-100. https://doi.org/10.15237/gida.GD23099
AMA Güldane M, Bozkır H. DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS. GIDA. February 2024;49(1):88-100. doi:10.15237/gida.GD23099
Chicago Güldane, Mehmet, and Hamza Bozkır. “DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS”. Gıda 49, no. 1 (February 2024): 88-100. https://doi.org/10.15237/gida.GD23099.
EndNote Güldane M, Bozkır H (February 1, 2024) DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS. Gıda 49 1 88–100.
IEEE M. Güldane and H. Bozkır, “DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS”, GIDA, vol. 49, no. 1, pp. 88–100, 2024, doi: 10.15237/gida.GD23099.
ISNAD Güldane, Mehmet - Bozkır, Hamza. “DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS”. Gıda 49/1 (February 2024), 88-100. https://doi.org/10.15237/gida.GD23099.
JAMA Güldane M, Bozkır H. DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS. GIDA. 2024;49:88–100.
MLA Güldane, Mehmet and Hamza Bozkır. “DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS”. Gıda, vol. 49, no. 1, 2024, pp. 88-100, doi:10.15237/gida.GD23099.
Vancouver Güldane M, Bozkır H. DRYING OF CHERRY LAUREL JUICE USING FOAM MAT DRYING TECHNIQUE AND INVESTIGATING THE EFFECT OF DRYING TEMPERATURE ON DRYING CHARACTERISTICS AND BIOACTIVE COMPONENTS. GIDA. 2024;49(1):88-100.

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