Composition and Properties of Aquafaba: Water Recovered from Commercially Canned Chickpeas

Shim, Youn Young; Mustafa, Rana; Shen, Jianheng; Ratanapariyanuch, Kornsulee; Reaney, Martin J. T.

doi:10.3791/56305

Cited by 28 publications

(46 citation statements)

References 15 publications

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“…To our knowledge, scientific peer‐reviewed information regarding aquafaba composition is limited; however, our previous study revealed that aquafaba from commercial chickpea cans consist of 94 g/100 g water, 1.5 g/100 g protein, 0.5 g/100 g ash and the remainder is simple and complex carbohydrates. Fat was not detected (Shim et al ., ). These results are in accordance with previously published data on garbanzo chickpea cooking water (Aquafaba, ; Stantiall et al ., ).…”

Section: Resultsmentioning

confidence: 97%

“…Aquafaba from commercial chickpea cans (kabuli cultivars) was recovered as previously described by Shim et al (2018). The chickpea cans were opened, and seed was separated from the aquafaba using a stainless steel mesh kitchen strainer.…”

Section: Aquafaba Preparationmentioning

confidence: 99%

“…Foaming capacity (FC) and foaming stability (FS) were determined according to Martinez et al (2016) and Shim et al (2018) for either fresh egg white, egg white liquid or aquafaba. Aquafaba (5 mL) or egg white (5 mL) were diluted with 10 mL water in 150 mL graduated measuring cup, then whipped for 2 min at speed setting 10 using a Kitchen Aid Ultra Power Mixer (Kitchen Aid, St. Joseph's, MI) with a 4.3 L stationary bowl.…”

Section: Foaming Capacity and Stabilitymentioning

confidence: 99%

“…meringue-based recipes (Stantiall et al, 2018), mayonnaise, vegan cakes, butter and whipped cream, etc.). Unfortunately, aquafaba functional properties vary depending on chickpea seed composition, steeping time, temperature, pressure, cooking time and genotype (Shim et al, 2018). It would be expected that chickpeas from commercially available brands might be prepared under different conditions and that this could lead to differences in the quality of aquafaba arising from each brand.…”

Section: Introductionmentioning

confidence: 99%

“…Variances in processing conditions might result in inconsistent and irreproducible aquafaba quality, stability and foaming properties where the manufacturing conditions were varied. There are only two peer-reviewed publications on aquafaba (Shim et al, 2018;Stantiall et al, 2018). Therefore, the objectives of this research are to 1) study aquafaba's foaming and emulsifying properties for aquafaba prepared from commercially available chickpeas; 2) choose aquafaba with the best functional properties to replace egg white in a sponge cake recipe; and 3) compare physiochemical and textural properties of aquafaba and egg white cake.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Aquafaba, wastewater from chickpea canning, functions as an egg replacer in sponge cake

Mustafa

Shim

et al. 2018

Int J of Food Sci Tech

Self Cite

112

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Summary Aquafaba, the viscous liquid resulting from cooking chickpeas in water is typically discarded. However, this solution is now widely used by the vegan community as an egg replacement that adds texture to food products, such as mayonnaise, pudding, ice cream and baked goods. Sponge cake was prepared with either egg white or aquafaba derived from ten different brands of canned chickpea and the texture and colour were compared. Aquafaba obtained from each chickpea can produced foam which differed in both properties and stability. In addition, aquafaba from some brands provided comparable foam volume and stability to that achieved with egg white. The colour and texture of sponge cake made with either egg white or aquafaba were similar and acceptable, but cakes prepared with aquafaba were less springy, and less cohesive than cake that included egg white. Based on our results, it appears that aquafaba has potential to replace egg white in eggless cake recipes.

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Section: Resultsmentioning

confidence: 97%

Section: Aquafaba Preparationmentioning

confidence: 99%

Section: Foaming Capacity and Stabilitymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Aquafaba, wastewater from chickpea canning, functions as an egg replacer in sponge cake

Mustafa

Shim

et al. 2018

Int J of Food Sci Tech

Self Cite

112

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show abstract

Utilizing side streams of pulse protein processing: A review

Ratnayake

Naguleswaran

2021

Legume Science

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Plant-based protein ingredients are gaining popularity among consumers for various reasons such as the increasing demand for high-protein diets, sustainability of the sources, and negative perceptions associated with animal proteins. Main source for plant proteins is pulses such as peas and beans. Pulse seeds contain up to 25% (w/w) protein, whereas nonprotein components are present in much higher proportions.Starch, fiber, and soluble material are generated as side streams of pulse protein manufacturing processes. These side streams, unless properly utilized, create both economic and environmental challenges. Therefore, the utilization of process side streams is of paramount importance for the overall sustainability of the plant protein manufacturing processes. This review summarizes the key research advances and potential opportunities in valorization of side streams from pulse protein manufacturing processes.

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Evaluation and optimization of functional and antinutritional properties of aquafaba

Salameen

Tulbek²,

Nickerson

et al. 2020

Legume Science

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Egg protein is responsible for the second most serious of all food allergens, which affects predominantly the children. Therefore, a new type of vegan ingredient called "aquafaba," is getting recognized as a plant-based emulsifier in many bakery product preparations instead of the conventionally used egg white and is emerging in the consumer market. It is the residue water from cooked chickpeas. In this study, an I-optimal mixture experimental design is combined with a response surface methodology to evaluate the chickpeas cooking process for obtaining aquafaba. The following variables were used: chickpea to cooking water ratio (CPCWR; 1:2, 1:4, and 2:3) and cook time (15, 30, 45, and 60 min). The principal goal was to maximize the functional properties and protein content, while minimizing tannin and phytate contents of aquafaba. The results showed that both CPCWR and cooking time had significant effect on the responses. Emulsion properties were the maximum at 2:3 CPCWR and cooking time of 60 min. Foaming capacity was highest (120%) at 2:3 CPCWR cooked for 30 min, whereas the foam was most stable (57 min) at 1:2 CPCWR with 45 min cooking. Water holding capacity reached the maximum level when cooked for 15 min, and oil holding capacity maximum was obtained after 60 min cooking. Polynomial models were developed for all 11 responses. Optimal results were achieved under the following conditions: 1.5:3.5 CPCWR and 60 min cook time, and the overall desirability fraction was 0.81. Validation tests confirmed these results. K E Y W O R D Santinutritional factors, aquafaba, functional properties, hydrophobicity

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Composition and Properties of Aquafaba: Water Recovered from Commercially Canned Chickpeas

Cited by 28 publications

References 15 publications

Aquafaba, wastewater from chickpea canning, functions as an egg replacer in sponge cake

Aquafaba, wastewater from chickpea canning, functions as an egg replacer in sponge cake

Utilizing side streams of pulse protein processing: A review

Evaluation and optimization of functional and antinutritional properties of aquafaba

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