Extrusion of high-moisture meat analogues from hempseed protein concentrate and oat fibre residue

Izalin Zahari, Jeanette K. Purhagen, Marilyn Rayner, Cecilia Ahlström, Amanda Helstad, Michael Landers, Jens Müller, Jacob Eriksson, Karolina Östbring

Research output: Contribution to journalArticlepeer-review

Abstract

Hempseed protein concentrate (HPC) was extracted from hempseed press cake with a protein content of 85.7% and co-extruded with oat fibre residue (OFR) to produce high-moisture meat analogues (HMMA) at different moisture contents (60, 63, 66%), screw speeds (500, 700, 900) and temperature profiles (40-70-110-130 °C and 40-70-120-150 °C). The effect of extrusion processing parameters such as moisture content, screw speed, and different temperature profiles on the properties of the extrudates was investigated. The produced meat analogues had a fibrous structure and brown colour, which may be due to the derived hempseed protein. The specific mechanical energy (SME) required in this study was low and ranged from 63 to 185 kJ/kg. As moisture content increased, it was discovered that hardness, chewiness, and cutting strength values decreased. Nevertheless, cutting strength values increased when a higher temperature profile was used. By using a higher temperature profile, the protein was completely denatured, leading to the formation of stronger fibres in the meat analogues with a higher quality in terms of texture. The study demonstrated the possibility for both materials from underutilised side-streams to be converted into meat analogues, which would provide variety for the HMMA on the market.

Original languageEnglish
Article number111567
Number of pages9
JournalJournal of Food Engineering
Volume354
DOIs
Publication statusPublished - 2023

Subject classification (UKÄ)

  • Food Engineering

Free keywords

  • Bio-waste stream
  • Hempseed protein
  • High-moisture extrusion cooking
  • Meat analogues
  • Oat fibre residue

Fingerprint

Dive into the research topics of 'Extrusion of high-moisture meat analogues from hempseed protein concentrate and oat fibre residue'. Together they form a unique fingerprint.

Cite this