Effects of ethanol modified supercritical carbon dioxide extraction and particle size on the physical, chemical, and functional properties of yellow pea flour

Background and objectives Supercritical carbon dioxide + ethanol (SC‐CO 2  + EtOH) extraction was previously found to improve organoleptic attributes of yellow pea ( Pisum sativum L.) flour. However, the impact of this extraction, in combination with different flour particle sizes, on physical, chemical, and functional properties of yellow pea flour was not established and is thus the focus of this study. Findings The interaction effect between SC‐CO 2  + EtOH extraction and yellow pea flour particle size lead to differences in physical, chemical, and functional properties. Extraction caused reductions in most chemical constituents and a lowering of functionality test values such as pasting viscosities. Variable impacts of particle size on flour composition and functionality were observed. Conclusion The impacts of particle size on functionality were anticipated. The degree of differences in functionality between extracted and nonextracted yellow pea flour was not anticipated. Scanning electron micrographs supported protein‐rich particle adherence to the surface of starch granules of extracted pea flour. This observed modification may be responsible for differences in functionality between extracted and nonextracted flours. Significance and novelty The SC‐CO 2  + EtOH extraction method combined with particle size can be an effective method to modify the functionality of yellow pea flour and ultimately diversifying its application in food systems.