Under pressure: poroelastic regulation of flow in espresso brewing

TL;DR

This paper investigates how poroelastic properties influence flow dynamics in espresso brewing, introducing a minimal model to describe pressure-flow relationships and dissolution effects.

Contribution

It presents a novel experimental setup and a minimal model that captures the nonlinear flow behavior and dissolution dynamics in espresso extraction.

Findings

Elasticity and porosity govern long-time flow rate.

Dissolution dynamics influence flow evolution.

The model reproduces time-dependent extraction behavior.

Abstract

The sensory richness of coffee is widely recognised and arises from the complex chemistry and immersion in cultural practices of coffee preparation. In contrast, the physical complexity of espresso has received less attention. The multiphase reactive flow through a dissolving, elastic porous medium remains challenging to describe. Using a controlled experimental setup based on a caf\'e-grade espresso machine, we demonstrate that the interplay between elasticity and porosity governs the long-time flow rate during espresso extraction and, consequently, the concentration of solubles in the final beverage. We introduce a minimal model that captures the resulting non-linear pressure-flow relationship and propose a methodology capable of reproducing the time-dependent behaviour of the espresso brewing process. Finally, we show that dissolution dynamics play a central role in determining the temporal evolution of flow during extraction.