Numerical Investigation of Conventional and Ultrasound-Assisted Aqueous Extraction of Caffeine from Whole Green Robusta Coffee Beans: Extraction Enhancement via Changing of Extraction Water
Kuson Bawornruttanaboonya, Nathamol Chindapan, Sakamon Devahastin

TL;DR
This paper investigates how ultrasound and changing extraction water can improve caffeine removal from coffee beans using mathematical modeling.
Contribution
A novel mathematical model is proposed to predict caffeine concentration during ultrasound-assisted extraction and evaluate the impact of water changes.
Findings
Ultrasound-assisted extraction removes caffeine 10% faster than conventional methods.
Optimal conditions include 70°C temperature, 1:3 bean-to-water ratio, and water changes every hour.
Extraction durations of 13 and 24 hours meet US and EU caffeine standards, respectively.
Abstract
To enhance the low-efficiency but potentially health and environmentally friendly aqueous decaffeination process, ultrasound-assisted aqueous extraction (UAAE) has recently been proposed. A novel concept of intermittent extraction water change to further enhance UAAE has also been mentioned, but not yet studied in detail. For this reason, a mathematical model that can be used to predict the concentration evolutions of caffeine during UAAE and conventional aqueous extraction (CAE) of whole green robusta coffee beans is herein proposed. The model consists of terms representing transient intra-bean caffeine and water diffusion as well as molar fluxes of caffeine and water on the bean surface. After validation, the model was used to investigate the effects of extraction temperature, bean-to-water mass ratio and frequency of extraction water change on caffeine concentration evolutions.…
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Taxonomy
TopicsCoffee research and impacts · Nanomaterials and Printing Technologies
