Functional and thermal properties of yellow pea and red lentil extrudates produced by nitrogen gas injection assisted extrusion cooking

Masatcioglu, M. Tugrul; Köksel, Filiz

doi:10.1002/jsfa.9964

Cited by 21 publications

(16 citation statements)

References 45 publications

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“…In contrast to the raw yellow pea flour, the peak viscosity (that is, starch gelatinization peak) and pasting temperature were not clearly seen in the pasting curves of extrudates containing 0% bread crumb, except for the highest feed moisture (Figure 4b). The lack of a hot peak indicates that all of the starch was degraded during the extrusion cooking process (Ai et al., 2016; Masatcioglu & Koksel, 2019; Menegassi, Pilosof, & Arêas, 2011). As for the 18% feed moisture extrudate in Figure 4b, the small peak around 7 min is representative of a portion of the starch granules in yellow pea flour that were still in their native state (that is, not degraded) at the end of extrusion cooking (Masatcioglu & Koksel, 2019).…”

Section: Resultsmentioning

confidence: 99%

“…The lack of a hot peak indicates that all of the starch was degraded during the extrusion cooking process (Ai et al., 2016; Masatcioglu & Koksel, 2019; Menegassi, Pilosof, & Arêas, 2011). As for the 18% feed moisture extrudate in Figure 4b, the small peak around 7 min is representative of a portion of the starch granules in yellow pea flour that were still in their native state (that is, not degraded) at the end of extrusion cooking (Masatcioglu & Koksel, 2019). Similar small peaks were also observed from the RVA curves of some extruded common bean flours (Ai et al., 2016).…”

Section: Resultsmentioning

confidence: 99%

“…2.4.1 Emulsifying capacity (EC) and emulsifying stability. Emulsifying properties (that is, EC and emulsifying stability) were determined using the method of Ahmedna, Prinyawiwatkul, and Rao (1999) as modified by Masatcioglu and Koksel (2019). Before testing, extrudates were ground and sieved (sieve size: 212 μm).…”

Section: Technofunctional Qualitymentioning

confidence: 99%

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Physical and technofunctional properties of yellow pea flour and bread crumb mixtures processed with low moisture extrusion cooking

Luo

Köksel

2020

Journal of Food Science

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The potential utilization of yellow pea flour and bread crumb blends was investigated to generate nutritionally‐dense extruded products with superior physical and/or technofunctional properties. Yellow pea flour mixed with bread crumb at different ratios were processed using low‐moisture twin‐screw extrusion cooking conditions to examine the effect of blending ratios and feed moisture contents on physical (that is, radial expansion index, extrudate density, microstructure, texture, and color) and technofunctional (that is, emulsifying capacity, emulsifying stability, water solubility [WS], water binding capacity [WBC], oil binding capacity [OBC], and pasting) properties of the final products. Compared to the two feed materials alone, samples produced with yellow pea flour and bread crumb blends showed lower hardness and higher crispiness. Moisture content (12% to 18%) was found to significantly affect physical and technofunctional properties. With an increase in feed moisture content from 12% to 18%, the WBC of the extrudates increased while the WS decreased. Extrudates produced with higher feed moisture content, and higher yellow pea flour content had higher setback viscosity. Among all formulas and feed moisture contents studied, extrudates produced with 50% yellow pea flour and 50% bread crumb at 12% feed moisture content had the highest radial expansion and bigger cells with thinner cell walls. This study has shown that incorporation of yellow pea flour and bread crumb in extrusion cooking process could be used to develop nutritionally‐dense foods with improved physical and technofunctional properties.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Physical and technofunctional properties of yellow pea flour and bread crumb mixtures processed with low moisture extrusion cooking

Luo

Köksel

2020

Journal of Food Science

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“…In the global food marketplace, pulse-based ingredients, mostly pea ingredients, have been used to produce pulse protein snacks. Efforts to address high consumer demand for healthier and more nutritious snacks have sparked renewed interest in extruded pea snacks (30,60,61,62). There have been several studies published on expanded snacks using pulse protein ingredients (Table II) (60,61,62).…”

Section: Cereal Foods World July-mentioning

confidence: 99%

“…Efforts to address high consumer demand for healthier and more nutritious snacks have sparked renewed interest in extruded pea snacks (30,60,61,62). There have been several studies published on expanded snacks using pulse protein ingredients (Table II) (60,61,62). An expanded yellow pea snack using yellow pea flour (24% protein) was successfully obtained by adjusting operating conditions (Table II) and using nitrogen gas as a blowing agent.…”

Section: Cereal Foods World July-mentioning

confidence: 99%

Low- and High-Moisture Extrusion of Pulse Proteins as Plant-Based Meat Ingredients: A Review

2020

CFW

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Plant-based meat alternatives have become a major staple in the North American marketplace due to changing consumer demands. The main drivers of this market segment are changing dietary patterns, increasing numbers of consumers pursuing vegetarian and flexitarian lifestyles, rising individual income in developing countries, and an increase in global awareness of environmental concerns. Pulse crops and pulse proteins present an outstanding nutritional value chain, along with superior techno-functionality that can meet the requirements of plant proteins for producing meat analogue ingredients. In addition, pulse crops can assist in reducing carbon footprint by fixing nitrogen during agricultural production rotations. Pulse proteins also offer alternative solutions for addressing gluten-free, low-allergen, and GMO-free meat alternatives in the global marketplace. Alternative pulse-based solutions with similar sensory and texture attributes may be used to substitute for meat ingredients in new product applications. Global awareness of healthy lifestyles, increased protein intake, and rising income in developing countries have shifted eating habits toward following a well-balanced diet that consists of a complete combination of proteins, carbohydrates, lipids, and micronutrients (1). As the world population has been predicted to reach 9.5 billion by 2050, the demand for animal proteins would significantly increase due to changing consumption patterns in Asian and Southeast Asian countries (2). However, increased demand for animal-based products and their higher consumption levels may have negative impacts on the nutritional health of consumers and the environmental health of the planet (2-4). Particularly, increased use of animal-based proteins may increase carbon footprint, water consumption, and contribute to increased greenhouse gas formation. Alternative vegetable-based proteins can be considered to reduce these negative impacts and help food manufacturers develop sustainable solutions (3). Meat production has significantly increased in the United States, with 87,409 million pounds produced by November 2019 (8). The global demand for animal-based proteins has been rising as well and is expected to reach twice its current level by 2050 (2). However, the animal protein production industry may negatively affect a sustainable environment and human health. Additionally, the dietary restrictions of various cultures and high cost of animal-based proteins may limit the consumption of animal-based products (5). Thus, a new generation of North American consumers has recently started following a more sustainable and eco-friendly plant-based protein consumption pattern that 1) consumes low-cholesterol, low-fat, high-protein, and high-dietary fiber foods; 2) contributes to a sustainable food supply; 3) contributes to a reduction in pollution and ecological footprint; and 4) assists in the reduction of water consumption in the food production chain (1,2,5-7). Scientists have been conducting research on alternative protein resou...

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Pasting, Thermal, and Structural Properties of Lentils

Ahmed

Nahar

2023

Lentils

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Functional and thermal properties of yellow pea and red lentil extrudates produced by nitrogen gas injection assisted extrusion cooking

Cited by 21 publications

References 45 publications

Physical and technofunctional properties of yellow pea flour and bread crumb mixtures processed with low moisture extrusion cooking

Physical and technofunctional properties of yellow pea flour and bread crumb mixtures processed with low moisture extrusion cooking

Low- and High-Moisture Extrusion of Pulse Proteins as Plant-Based Meat Ingredients: A Review

Pasting, Thermal, and Structural Properties of Lentils

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