Effect of composition and homogenization pressure of chia oil emulsions elaborated by microfluidization

S. C. Pereyra-Castro; V. Pérez-Pérez; H. Hernández-Sánchez; A. Jiménez-Aparicio; G. F. Gutiérrez-López; L. Alamilla-Beltrán

doi:10.24275/UAM/IZT/DCBI/REVMEXINGQUIM/2019V18N1/PEREYRA

Effect of composition and homogenization pressure of chia oil emulsions elaborated by microfluidization

Translated title of the contribution: Effect of composition and homogenization pressure of chia oil emulsions elaborated by microfluidization

S. C. Pereyra-Castro, V. Pérez-Pérez, H. Hernández-Sánchez, A. Jiménez-Aparicio, G. F. Gutiérrez-López, L. Alamilla-Beltrán

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The effect of continuous phase composition and microfluidization pressure on properties of chia oil emulsions was analyzed using a D-optimal combined design. The results indicated that the suggested models were significantly (p ≤ 0:05) fitted for all response variables (emulsion droplet size, ξ-potential, Turbiscan stability index and apparent viscosity) and showed high coefficients of determinations (0.897 - 0.933). The soy protein isolate had the major effect on the evaluated parameters due to their emulsifying property and electrical charge. The microfluidization technology allowed the production of emulsions with a droplet size in the range of nanometers (<500 nm) and monomodal particle size distribution. The optimum condition to obtain the minimum emulsion droplet size (300.97 nm), ε-potential (-40.03 mV), Turbiscan stability index (1.06) and apparent viscosity (18.65 mPa·s) was when a chia oil emulsion was formulated with 4.8% w/w of SPI and 25.2% w/w of MD, applying high microfluidization pressure (104 MPa).

Translated title of the contribution	Effect of composition and homogenization pressure of chia oil emulsions elaborated by microfluidization
Original language	English
Pages (from-to)	69-81
Number of pages	13
Journal	Revista Mexicana de Ingeniera Quimica
Volume	18
Issue number	1
DOIs	https://doi.org/10.24275/UAM/IZT/DCBI/REVMEXINGQUIM/2019V18N1/PEREYRA
State	Published - 2019

Keywords

Chia oil
D-optimal combined design
Emulsion stability
Maltodextrin
Microfluidization
Soy protein isolate

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10.24275/UAM/IZT/DCBI/REVMEXINGQUIM/2019V18N1/PEREYRA

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Pereyra-Castro, S. C., Pérez-Pérez, V., Hernández-Sánchez, H., Jiménez-Aparicio, A., Gutiérrez-López, G. F., & Alamilla-Beltrán, L. (2019). Effect of composition and homogenization pressure of chia oil emulsions elaborated by microfluidization. Revista Mexicana de Ingeniera Quimica, 18(1), 69-81. https://doi.org/10.24275/UAM/IZT/DCBI/REVMEXINGQUIM/2019V18N1/PEREYRA

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title = "Effect of composition and homogenization pressure of chia oil emulsions elaborated by microfluidization",

abstract = "The effect of continuous phase composition and microfluidization pressure on properties of chia oil emulsions was analyzed using a D-optimal combined design. The results indicated that the suggested models were significantly (p ≤ 0:05) fitted for all response variables (emulsion droplet size, ξ-potential, Turbiscan stability index and apparent viscosity) and showed high coefficients of determinations (0.897 - 0.933). The soy protein isolate had the major effect on the evaluated parameters due to their emulsifying property and electrical charge. The microfluidization technology allowed the production of emulsions with a droplet size in the range of nanometers (<500 nm) and monomodal particle size distribution. The optimum condition to obtain the minimum emulsion droplet size (300.97 nm), ε-potential (-40.03 mV), Turbiscan stability index (1.06) and apparent viscosity (18.65 mPa·s) was when a chia oil emulsion was formulated with 4.8% w/w of SPI and 25.2% w/w of MD, applying high microfluidization pressure (104 MPa).",

keywords = "Chia oil, D-optimal combined design, Emulsion stability, Maltodextrin, Microfluidization, Soy protein isolate",

author = "Pereyra-Castro, {S. C.} and V. P{\'e}rez-P{\'e}rez and H. Hern{\'a}ndez-S{\'a}nchez and A. Jim{\'e}nez-Aparicio and Guti{\'e}rrez-L{\'o}pez, {G. F.} and L. Alamilla-Beltr{\'a}n",

year = "2019",

doi = "10.24275/UAM/IZT/DCBI/REVMEXINGQUIM/2019V18N1/PEREYRA",

language = "Ingl{\'e}s",

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pages = "69--81",

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Pereyra-Castro, SC, Pérez-Pérez, V, Hernández-Sánchez, H , Jiménez-Aparicio, A , Gutiérrez-López, GF & Alamilla-Beltrán, L 2019, 'Effect of composition and homogenization pressure of chia oil emulsions elaborated by microfluidization', Revista Mexicana de Ingeniera Quimica, vol. 18, no. 1, pp. 69-81. https://doi.org/10.24275/UAM/IZT/DCBI/REVMEXINGQUIM/2019V18N1/PEREYRA

TY - JOUR

T1 - Effect of composition and homogenization pressure of chia oil emulsions elaborated by microfluidization

AU - Pereyra-Castro, S. C.

AU - Pérez-Pérez, V.

AU - Hernández-Sánchez, H.

AU - Jiménez-Aparicio, A.

AU - Gutiérrez-López, G. F.

AU - Alamilla-Beltrán, L.

PY - 2019

Y1 - 2019

N2 - The effect of continuous phase composition and microfluidization pressure on properties of chia oil emulsions was analyzed using a D-optimal combined design. The results indicated that the suggested models were significantly (p ≤ 0:05) fitted for all response variables (emulsion droplet size, ξ-potential, Turbiscan stability index and apparent viscosity) and showed high coefficients of determinations (0.897 - 0.933). The soy protein isolate had the major effect on the evaluated parameters due to their emulsifying property and electrical charge. The microfluidization technology allowed the production of emulsions with a droplet size in the range of nanometers (<500 nm) and monomodal particle size distribution. The optimum condition to obtain the minimum emulsion droplet size (300.97 nm), ε-potential (-40.03 mV), Turbiscan stability index (1.06) and apparent viscosity (18.65 mPa·s) was when a chia oil emulsion was formulated with 4.8% w/w of SPI and 25.2% w/w of MD, applying high microfluidization pressure (104 MPa).

AB - The effect of continuous phase composition and microfluidization pressure on properties of chia oil emulsions was analyzed using a D-optimal combined design. The results indicated that the suggested models were significantly (p ≤ 0:05) fitted for all response variables (emulsion droplet size, ξ-potential, Turbiscan stability index and apparent viscosity) and showed high coefficients of determinations (0.897 - 0.933). The soy protein isolate had the major effect on the evaluated parameters due to their emulsifying property and electrical charge. The microfluidization technology allowed the production of emulsions with a droplet size in the range of nanometers (<500 nm) and monomodal particle size distribution. The optimum condition to obtain the minimum emulsion droplet size (300.97 nm), ε-potential (-40.03 mV), Turbiscan stability index (1.06) and apparent viscosity (18.65 mPa·s) was when a chia oil emulsion was formulated with 4.8% w/w of SPI and 25.2% w/w of MD, applying high microfluidization pressure (104 MPa).

KW - Chia oil

KW - D-optimal combined design

KW - Emulsion stability

KW - Maltodextrin

KW - Microfluidization

KW - Soy protein isolate

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U2 - 10.24275/UAM/IZT/DCBI/REVMEXINGQUIM/2019V18N1/PEREYRA

DO - 10.24275/UAM/IZT/DCBI/REVMEXINGQUIM/2019V18N1/PEREYRA

M3 - Artículo

AN - SCOPUS:85066766702

SN - 1665-2738

VL - 18

SP - 69

EP - 81

JO - Revista Mexicana de Ingeniera Quimica

JF - Revista Mexicana de Ingeniera Quimica

IS - 1

ER -

Effect of composition and homogenization pressure of chia oil emulsions elaborated by microfluidization

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Keywords

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