Separation processes based on colloidal gas aphrons for the recovery of phenolic compounds

Giorgia Spigno; P. Jauregi; Dante Marco De Faveri

Separation processes based on colloidal gas aphrons for the recovery of phenolic compounds

Giorgia Spigno
, P. Jauregi
, Dante Marco De Faveri

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This work presents the results of experimentations carried out to determine the main factors affecting the colloidal gas aphrons (CGA) separation of both standard (gallic acid) and real (a red grape marc extract) phenolic compounds and to gain a better insight into the separation mechanism. Batch mode trials were performed in a flotation column set-up (i.d. 4.2 cm, H 50.6 cm) investigating the influence of different parameters: volumetric (CGA/sample) ratio; pH; surfactant type and concentration. Results were evaluated in terms of recovery yield and quality of phenolic compounds in the aphron phase, and of separation factor. Data showed the potential of CGA to separate polyphenolic compounds from real plant extracts. Further research is in progress for optimisation of working parameters and employment of food-grade surfactants is in progress to develop low-cost purification processes for the production of bioactive ingredients.

Original language	English
Title of host publication	GRICU 2012 - Ingegneria Chimica: dalla nanoscala alla macroscala
Pages	75-78
Number of pages	4
Publication status	Published - 2012
Event	GRICU 2012 - Montesilvano Duration: 17 Sept 2012 → 19 Sept 2012

Conference

Conference	GRICU 2012
City	Montesilvano
Period	17/9/12 → 19/9/12

Keywords

Antioxidant
colloidal gas aphrons
grape marc
polyphenols
surfactants

Cite this

@inproceedings{f9a435632fe74db7a01b344ffdbd0751,

title = "Separation processes based on colloidal gas aphrons for the recovery of phenolic compounds",

abstract = "This work presents the results of experimentations carried out to determine the main factors affecting the colloidal gas aphrons (CGA) separation of both standard (gallic acid) and real (a red grape marc extract) phenolic compounds and to gain a better insight into the separation mechanism. Batch mode trials were performed in a flotation column set-up (i.d. 4.2 cm, H 50.6 cm) investigating the influence of different parameters: volumetric (CGA/sample) ratio; pH; surfactant type and concentration. Results were evaluated in terms of recovery yield and quality of phenolic compounds in the aphron phase, and of separation factor. Data showed the potential of CGA to separate polyphenolic compounds from real plant extracts. Further research is in progress for optimisation of working parameters and employment of food-grade surfactants is in progress to develop low-cost purification processes for the production of bioactive ingredients.",

keywords = "Antioxidant, colloidal gas aphrons, grape marc, polyphenols, surfactants, Antioxidant, colloidal gas aphrons, grape marc, polyphenols, surfactants",

author = "Giorgia Spigno and P. Jauregi and \{De Faveri\}, \{Dante Marco\}",

year = "2012",

language = "English",

pages = "75--78",

booktitle = "GRICU 2012 - Ingegneria Chimica: dalla nanoscala alla macroscala",

note = "GRICU 2012 ; Conference date: 17-09-2012 Through 19-09-2012",

}

TY - GEN

T1 - Separation processes based on colloidal gas aphrons for the recovery of phenolic compounds

AU - Spigno, Giorgia

AU - Jauregi, P.

AU - De Faveri, Dante Marco

PY - 2012

Y1 - 2012

N2 - This work presents the results of experimentations carried out to determine the main factors affecting the colloidal gas aphrons (CGA) separation of both standard (gallic acid) and real (a red grape marc extract) phenolic compounds and to gain a better insight into the separation mechanism. Batch mode trials were performed in a flotation column set-up (i.d. 4.2 cm, H 50.6 cm) investigating the influence of different parameters: volumetric (CGA/sample) ratio; pH; surfactant type and concentration. Results were evaluated in terms of recovery yield and quality of phenolic compounds in the aphron phase, and of separation factor. Data showed the potential of CGA to separate polyphenolic compounds from real plant extracts. Further research is in progress for optimisation of working parameters and employment of food-grade surfactants is in progress to develop low-cost purification processes for the production of bioactive ingredients.

AB - This work presents the results of experimentations carried out to determine the main factors affecting the colloidal gas aphrons (CGA) separation of both standard (gallic acid) and real (a red grape marc extract) phenolic compounds and to gain a better insight into the separation mechanism. Batch mode trials were performed in a flotation column set-up (i.d. 4.2 cm, H 50.6 cm) investigating the influence of different parameters: volumetric (CGA/sample) ratio; pH; surfactant type and concentration. Results were evaluated in terms of recovery yield and quality of phenolic compounds in the aphron phase, and of separation factor. Data showed the potential of CGA to separate polyphenolic compounds from real plant extracts. Further research is in progress for optimisation of working parameters and employment of food-grade surfactants is in progress to develop low-cost purification processes for the production of bioactive ingredients.

KW - Antioxidant

KW - colloidal gas aphrons

KW - grape marc

KW - polyphenols

KW - surfactants

KW - Antioxidant

KW - colloidal gas aphrons

KW - grape marc

KW - polyphenols

KW - surfactants

UR - http://hdl.handle.net/10807/41435

M3 - Conference contribution

SP - 75

EP - 78

BT - GRICU 2012 - Ingegneria Chimica: dalla nanoscala alla macroscala

T2 - GRICU 2012

Y2 - 17 September 2012 through 19 September 2012

ER -

Separation processes based on colloidal gas aphrons for the recovery of phenolic compounds

Abstract

Conference

Keywords

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