Elyssa Chan scite author profile

Pulse flours are nutritionally dense ingredients that can increase protein and fiber contents of extruded foods to create healthier snacks. However, extruding with such ingredients can deteriorate desirable physical properties such as expansion. The use of physical blowing agents (e.g., gases) can counter this. In this study, N2 and CO2 gases were used to investigate the impact of blowing agents on physical properties of red lentil and yellow pea extrudates. Microscopy imaging of extrudate cross‐sections showed increased number of cells brought about by gas injection. Some textural parameters, such as crunchiness, were positively affected by gas use regardless of pulse type, whereas others, such as bowl life, were a function of both pulse and gas type. The greatest changes in overall extrudate color and lightness were observed for red lentil with N2 gas injection. The use of physical blowing agents during food extrusion presents great potential in manipulating extrudate expansion, microstructure, texture, and color, with N2 gas well suited for red lentil extrudates in dry form and CO2 gas well suited for yellow pea extrudates in wet form. Practical applications Physical blowing agent‐assisted extrusion is a novel technology for the food industry's ability to control aerated food structure and texture. As such, the concentration and solubility of blowing agents may be manipulated to enhance the physical properties of high protein‐ and high fiber‐aerated foods, including ready‐to‐eat snacks, breakfast cereals, and gluten‐free products. The use of physical blowing agent‐assisted extrusion has tremendous potential for the development of nutritionally dense, plant‐based aerated foods with consumer appeal. The results obtained are useful for the food industry because incorporation of such food products into our daily diets, through processing them using innovative technologies, not only adds value to plants (e.g., pulses and cereals) but also has potential health, economic, and ecological benefits for the society.

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Effects of extrusion conditions and nitrogen injection on physical, mechanical, and microstructural properties of red lentil puffed snacks

Luo

Chan

Masatcioglu

et al. 2020

Food and Bioproducts Processing

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Effects of protein formula and extrusion cooking conditions on the techno‐functional properties of texturised pea proteins

Chan

Rodas‐González

Tulbek³

et al. 2023

Int J of Food Sci Tech

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SummaryPea protein concentrate and isolate were blended to obtain protein blend formulas (PBFs) with three levels of protein content and investigated for their potential for developing texturised vegetable proteins (TVPs). PBFs were extruded at three screw speeds and two feed moisture contents to obtain TVPs. Nitrogen solubility index (NSI) and techno‐functional properties, i.e. water holding capacity, oil absorbance capacity, emulsion capacity and emulsion stability, of the raw materials and the TVPs were examined. Raising the protein content through PBF decreased NSI for both the raw formulas and the TVPs. Regardless of the PBF, extrusion processing substantially decreased NSI, but increased oil absorption capacity. Extrusion's impact on water holding capacity, emulsion capacity and stability was complex and might have been impacted by the protein content and source. Overall, PBF's impact on the techno‐functionality of TVPs was more pronounced than that of extrusion conditions. At higher PBF, the NSI, emulsion capacity and stability values of TVPs were negatively impacted, implying that high protein content does not equate to better TVP quality. Future, TVP techno‐functionality research should focus on a wider range of extrusion screw speed and feed moisture content or the effects of protein content and source.

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Elyssa Chan

Effects of different blowing agents on physical properties of extruded puffed snacks made from yellow pea and red lentil flours

Effects of extrusion conditions and nitrogen injection on physical, mechanical, and microstructural properties of red lentil puffed snacks

Effects of protein formula and extrusion cooking conditions on the techno‐functional properties of texturised pea proteins

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