Application of microwave energy for Poly Phenol Oxidase inactivation in green tea processing

Safaei Chaeikar, Sanam; Motevalli Jalali, Maryam Sadat; Javadein Divshali, Setare

doi:10.22092/fooder.2023.358838.1333

Document Type : Research Paper

Authors

¹ Faculty member ofTea Research Center, Horticultural Science Research Institute, Agricultural Research Education and Extension Organization (AREEO), Lahijan, Iran.

² Expert ofTea Research Center, Horticultural Science Research Institute, Agricultural Research Education and Extension Organization (AREEO), Lahijan, Iran.

³ Graduated from Islamic Azad University of Iran, Lahijan

https://doi.org/10.22092/fooder.2023.358838.1333

Abstract

The use of microwaves for heating in food industry is known as a safe alternative. In this study, microwave energy at different times and powers for fresh green leaf enzyme inactivation in green tea production was used. In the first stage, the blanching times (30, 60, 90 and 120 s) in the highest power (900 w) of the microwave were applied on green leaves; and in the second stage different microwave powers (500, 600, 700, 800 and 900 w) in the best time of blanching were used on green leaves. Quality characteristics including total polyphenol, antioxidant activity, chlorophyll and sensory evaluation were determined. The data were analyzed in a completely randomized design with four treatments (in first part) and five treatments (in second part) in three replications. The results showed increasing the blanching time (90 and 120 s), caused increasing in antioxidant activity and improved the sensory properties of green tea. Green tea treated in 90 and 120 s blanching did not show a significant decrease in quality after one year of storage. As the oven power for green leaf blanching increased, the taste, aroma and total sensory scores of green tea clearly increased. The amount of chlorophyll, polyphenols and sensory properties such as taste, aroma and total sensory scores of green tea treated in 500 w power was less than that in other treats. Green leaf blanching in 120 s with a power of at least 700 w showed the best result in terms of quality characteristics of green tea and its storage properties.

Keywords

Main Subjects

تکنولوژی مواد غذایی

References

Anon. 2018. Application of Microwave Technology in Modern Tea Industry. Retrieved Jon 24, 2020, from http://www.ntbaler.com/news/application-of-microwave-technology-in-modern-12333307.html.

Adarsh M. K. and Devaraju R. 2017. Microwave energy and its application in food industry: A review. Asian Journal of Dairy & Food Research, 36 (1): 37-44.

Ceni, G.C., Baldissera, E.M., Primo, M.D.S., Antunes, O.A.C., Dariva, C. Oliveira, J.V. and Oliveira, D. 2009. Influence of Microwave Energy on Mate Tea Leaves. Food Technology Biotechnology, 47 (2) 221–226.

Chávez-Reyes, Y., Dorantes-Alvarez, L., Arrieta-Baez, D., Osorio-Esquivel, O., & Ortiz-Moreno, A. 2013. Polyphenol oxidase inactivation by microwave oven and its effect on phenolic profile of loquat (Eriobotrya japonica) fruit. Food and Nutrition Sciences, 4(09), 87.

Dmowski, P., & Ruszkowska, M. 2018. Equilibrium Moisture Content Importance in Safe Maritime Transport of Black Tea. TransNav: International Journal on Marine Navigation and Safety of Sea Transportation, 12(2):399-404.

Gulati, A. Rawat, R. Singh, B. and Ravindranath, S. D. 2003. Application of Microwave Energy in the Manufacture of Enhanced-Quality Green Tea. Journal of Agricultural Food Chemistry, 51, 4764-4768

Hatibaruah, D., Baruah, D.C. & Sanyal, S. 2012. Microwave Drying Characteristics of Assam CTC Tea (Camellia Assamica). Journal of Food Processing and Preservation, 1-5.

Huang, Y., Sheng, J., Yang, F. and Hu, Q. 2007. Effect of Enzyme Inactivation by Microwave and Oven Heating on Preservation Quality of Green Tea. Journal of Food Engineering. 78: 687–692.

Iranian National Standardization Organization. 2001. Tea - Preparation of liquor for organoleptic evaluation and testing. No.5608. (In Persian).

Iranian National Standardization Organization. 2006. Green and black tea – Determination of substances characteristic of green and black tea – Part 1: Content of total polyphenols in tea – Colorimetric method using Folin - Ciocalteu reagent. No.8986-1. (In Persian).

Iranian National Standardization Organization. 2014. Green Tea – Specification and Test Methods. No. 10768. (In Persian).

Karadağ, A., Avcı, N., Kasapoğlu, K.N. and BeraatÖzçelik , B . 2016. Effect of Microwave Technology on Some Quality Parameters and Sensory Attributes of Black Tea. Czech Journal Food Science, 34,(5): 397–405. doi: 10.17221/5/2016-CJFS

Liyanage, A. C., Punyasiri, P. A. N., Bandara, U. B. S. & Mohamed, M. Z. 2003. Microwave Drying of Black Tea. Sri Lanka Journal of Tea Science, 68(2), 34-43.

Melican, N.J T. 2004. Processing Tea for Lower Cost and Better Quality. In: Tankariwala, N.F. Technical Session 2, Cost Reduction in Factory, Chapter 11, 3(3&4): 63-71.

Osinboyejo, M. A., Walker, L. T., Ogutu, S. and Verghese, M. 2003. Effects of Microwave Blanching vs. Boiling Water Blanching on Retention of Selected Water-soluble Vitamins in Turnip Greens Using HPLC. Institute of Food Technologists Annual Meeting, Chicago, IL, July 15, 2003.

Pripdeevech, P. and Machan, T. 2011. Fingerprint of volatile flavour constituents and antioxidant activities of teas from Thailand. Food Chemistry, 125, 797–802.

Roofigari Haghighat, Sh. SafaeiChaeikar, S., Shokrgozar, A., Jalali, M., Mohebian, S., Cheraghi, K., Javadein, S. 2020 .Application of microwave energy for Poly Phenol Oxidase inactivation in green tea processing. Research Report. No. 59319. Tea Research Center. (In Persian).

Roshanak, S., Rahimmalek, M. & Goli, S.A. 2015. Evaluation of seven different drying treatments in respectto total flavonoid, phenolic, vitamin C content, chlorophyll,antioxidant activity and color of green tea (Camellia sinensisor C. assamica) leaves. Journal of Food Science and Technology, DOI 10.1007/s13197-015-2030-x

Tampson, R. D. 2000. Coffee and tea. Association of Official Agricultural Chemists, 30: 1-12.

Zarein, M., Samadi, S.H. &Ghobadian, B. 2015. Investigation of microwave dryer effect on energyefficiency during drying of apple slices. Journal of the Saudi Society of Agricultural Sciences, 14, 41–47.

Food Engineering Research

Application of microwave energy for Poly Phenol Oxidase inactivation in green tea processing

References

References

Volume 22, Issue 1 - Serial Number 74
Spring and Summer 2023
June 2023
Pages 97-114

Application of microwave energy for Poly Phenol Oxidase inactivation in green tea processing

References

References

Volume 22, Issue 1 - Serial Number 74Spring and Summer 2023June 2023Pages 97-114

Volume 22, Issue 1 - Serial Number 74
Spring and Summer 2023
June 2023
Pages 97-114