Effects of different decaffeination methods on caffeine contents, physicochemical, and sensory properties of coffee-Reference-Cited by-同舟云学术

Effects of different decaffeination methods on caffeine contents, physicochemical, and sensory properties of coffee

Published:2024-07-26 Issue:8 Volume:20 Page:561-581
ISSN:1556-3758
Container-title:International Journal of Food Engineering
language:en
Short-container-title:

Author:

Shofinita Dian¹²,Lestari Dianika¹²,Purwadi Ronny¹²,Sumampouw Giovanni A.¹²,Gunawan Karen C.¹,Ambarwati Sekar A.¹,Achmadi Amarthya B.²,Tjahjadi Jason T.¹

Affiliation:

1. Department of Food Engineering , 362529 Institut Teknologi Bandung , Jl. Let. Jen. Purn. Dr. (HC) Mashudi No. 1/Jalan Raya Jatinangor KM 20,75 , Sumedang 45363 , Indonesia

2. Department of Chemical Engineering , 362529 Institut Teknologi Bandung , Jl. Ganesa No. 10 , Bandung 40132 , Indonesia

Abstract

Abstract Coffee consumption could provide various benefits for human health, but also could contribute to several health problems. The growing trend of coffee consumption has created a rising demand for decaffeinated coffee that is safe for consumers with low caffeine tolerance. Decaffeination process, however, can result in the alteration of several properties of coffee which affect overall coffee taste. This review discussed current decaffeination methods such as water decaffeination, solvent decaffeination, supercritical decaffeination, and biodecaffeination which includes their mechanisms, benefits, and drawbacks as well as their effect in the physicochemical and sensory characteristics of coffee. Solvent decaffeination has showed potential improvements in the future such as the incorporation of membrane and ultrasonic technology. In addition, the mathematical model for caffeine diffusion has been arranged according to Fick’s second law of diffusion, based upon spherical and rectangular coordinates with several assumptions. Further research should be aimed to maintain the properties of coffee after decaffeination process. Furthermore, utilizing new solvents that are safe and non-toxic will potentially be favorable research in the development of decaffeination methods in the future.

Publisher

Walter de Gruyter GmbH

Link

https://www.degruyter.com/document/doi/10.1515/ijfe-2024-0013/pdf

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