Add to ORKGWe have viewed cooking meat from the perspective of soft condensed physics and posed that the moisture transport during cooking can be described by Flory-Rehner theory of swelling/shrinking polymer gels. This theory contains the essential physics to describe the transport of liquid moisture due to the denaturation and shrinkage of the heated protein matrix. The validity of our hypothesis is shown by a numerical model, which comprises a linearization of the Flory-Rehner theory augmented with Darcy's law for porous media flow, applied to the simulation of cooking experiments performed on a rectangular piece of beef. Reasonably, comparable results are obtained from simulations and experiments. Further analysis of simulations resolves yet anoth...
In this paper, we present the rich physics and chemistry of the gastric digestion of protein gels. K...
We give an overview of the prediction of thermodynamics of food materials, and the kinetics of water...
This paper presents a mathematical model of fermented sausage drying, which relies on an innovative ...
It is proposed that the moisture transport during cooking of meat can be described by the Flory¿Rehn...
Mathematical modelling of transport phenomena in food processes is vital to understand the process d...
In this paper we present a numerical model describing the heat and mass transport during the cooking...
We describe the water activity of meat, being a mixture of proteins, salts and water, by the Free-Vo...
This paper presents a basic work that supplies complementary knowledge and open new perspectives to ...
The primary aim of this work is mathematical modeling of transport phenomena during processing of fo...
This paper investigates the physical mechanisms of structure formation during high-moisture extrusio...
Food engineering aspects of cooking of meat products in relation to their biophysical properties, su...
In this paper, we report on the use of confined compression to study the water release properties fr...
A framework of porous media multiphase models has been developed which can be applied to a wide rang...
This paper delivers a contribution aimed at improving available mathematical models of salami ripeni...
In this paper, we present the rich physics and chemistry of the gastric digestion of protein gels. K...
We give an overview of the prediction of thermodynamics of food materials, and the kinetics of water...
This paper presents a mathematical model of fermented sausage drying, which relies on an innovative ...
It is proposed that the moisture transport during cooking of meat can be described by the Flory¿Rehn...
Mathematical modelling of transport phenomena in food processes is vital to understand the process d...
In this paper we present a numerical model describing the heat and mass transport during the cooking...
We describe the water activity of meat, being a mixture of proteins, salts and water, by the Free-Vo...
This paper presents a basic work that supplies complementary knowledge and open new perspectives to ...
The primary aim of this work is mathematical modeling of transport phenomena during processing of fo...
This paper investigates the physical mechanisms of structure formation during high-moisture extrusio...
Food engineering aspects of cooking of meat products in relation to their biophysical properties, su...
In this paper, we report on the use of confined compression to study the water release properties fr...
A framework of porous media multiphase models has been developed which can be applied to a wide rang...
This paper delivers a contribution aimed at improving available mathematical models of salami ripeni...
In this paper, we present the rich physics and chemistry of the gastric digestion of protein gels. K...
We give an overview of the prediction of thermodynamics of food materials, and the kinetics of water...
This paper presents a mathematical model of fermented sausage drying, which relies on an innovative ...