Abstract
High-moisture extrusion is a common process to impart an anisotropic, meat-like structure to plant proteins, such as wheat gluten. The addition of oil during the process promises to enhance the sensory properties of the meat analogs. In this study, the influence of oil on extrusion-relevant parameters as well as the structure-related characteristics of extruded wheat gluten was investigated. Oil was added directly to the extruder at different contents (0, 2, 4, 6%) and addition points (front/end of the extruder barrel). Process conditions, complex viscosity, Young’s modulus and oil phase morphology were determined as a function of oil content and oil addition point. With increasing oil content, material temperature, die pressure, and complex viscosity decreased. The addition of oil at the end of the extruder barrel reduced this effect compared to the addition of oil in the front part of the extruder. It was observed that the extrudate’s tensile strength is a function of material temperature, resulting in an increase in tensile strength with increasing material temperature. The oil was dispersed in the gluten matrix as small droplets with irregular shape. As the oil content increased, the size of the oil droplets increased, while the addition of oil at the end of the extruder resulted in a decrease in droplet size.
Highlights
The material temperature measured at the end of the screw section decreases
This effect can be observed for both oil addition points
The results indicate that the process conditions, which are a function of the oil content as well as the oil addition point, are the major factors influencing the formation of the mechanical properties
Summary
Many consumers are not willing to compromise on the sensory properties of animal products. The demand for protein-rich products on a plant basis with an appealing, meat-like texture is constantly increasing [1,2,3]. Plant proteins can be texturized to generate a fibrous and anisotropic structure that resembles the characteristic properties of meat. A common process to create these is high-moisture extrusion with an attached cooling die. The plant proteins are mixed with water, heated, sheared, and forced through the cooling die, resulting in the formation of an anisotropic structure [4,5,6,7,8,9,10,11,12,13,14,15]
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