Abstract
Achieving a uniform extraction of soluble material from a porous matrix is a generic problem in various separation and filtration operations, with applications in the food processing, chemical and pharmaceutical industries. This paper describes models of fluid flow and transport of soluble material within a packed granular bed in the context of coffee extraction. Coffee extraction is described by diffusion of soluble material from particles of one or more representative sizes into fluid flowing through the packed bed. One-dimensional flow models are compared to computational fluid dynamics (CFD) models. A fine and a coarse coffee grind are considered. Model results are compared to experimental data for a packed cylindrical coffee bed and the influence of a change in geometry to a truncated cone is considered. Non-uniform flow in the truncated cone causes significant variation in the local extraction level. Coffee extraction levels during brewing are analysed using extraction maps and the degree of variation is represented on the industry standard coffee brewing control chart. A high variation in extraction yield can be expected to impart bitter flavours into the brew and thus is an important variable to quantify.
Highlights
IntroductionSfi.ie/) ‘Modelling of Multi-Phase Transport Processes to Enable Automation in Manufacturing, (MOMEnTUM)’ awarded to GW and SOB and is cofunded under the European Regional Development
While recent work has considered a variety of physical models of coffee extraction, physical models of flow have largely been restricted to Darcy’s law in one-dimension, incorporating some porosity dependent permeability term
The impact of deviations from one-dimensional flow in a cylindrical and conical bed geometry was considered by comparing computational fluid dynamics (CFD) simulations to one-dimensional flow models
Summary
Sfi.ie/) ‘Modelling of Multi-Phase Transport Processes to Enable Automation in Manufacturing, (MOMEnTUM)’ awarded to GW and SOB and is cofunded under the European Regional Development. World coffee consumption is steadily increasing with published figures having reached over 157 million bags (9.42 × 109 kg) in the year October 2016–September 2017 [1]. The demand on coffee appliance manufacturers to engineer a precise and reproducible process into their products is ever increasing.
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