Modeling of calcium carbonate nanoparticle formation in reverse Micelles

Diwakar Shukla; Anurag Mehra

Modeling of calcium carbonate nanoparticle formation in reverse Micelles

Diwakar Shukla
, Anurag Mehra

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

Abstract

Coagulation of nanoparticles plays a critical role in the growth of nanoparticles during precipitation in reverse micelles. Shukla et al.1 have proposed a population balance model incorporating the effect of coagulation of nanoparticles during precipitation of nanoparticles in gas-reverse micelle system. Experimental results of Kandori et al.² and Dagaohkar et al.³ are explained using the model. The effect of continuous phase and water-to-surfactant molar ratio on the coagulation kinetics has been investigated based on the experimental observation of Dagaonkar et al. ³.

Original language	English (US)
Title of host publication	CHISA 2006 - 17th International Congress of Chemical and Process Engineering
State	Published - 2006
Externally published	Yes
Event	CHISA 2006 - 17th International Congress of Chemical and Process Engineering - Prague, Czech Republic Duration: Aug 27 2006 → Aug 31 2006

Publication series

Name	CHISA 2006 - 17th International Congress of Chemical and Process Engineering

Other

Other	CHISA 2006 - 17th International Congress of Chemical and Process Engineering
Country/Territory	Czech Republic
City	Prague
Period	8/27/06 → 8/31/06

ASJC Scopus subject areas

General Chemical Engineering

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Shukla, D & Mehra, A 2006, Modeling of calcium carbonate nanoparticle formation in reverse Micelles. in CHISA 2006 - 17th International Congress of Chemical and Process Engineering. CHISA 2006 - 17th International Congress of Chemical and Process Engineering, CHISA 2006 - 17th International Congress of Chemical and Process Engineering, Prague, Czech Republic, 8/27/06.

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title = "Modeling of calcium carbonate nanoparticle formation in reverse Micelles",

abstract = "Coagulation of nanoparticles plays a critical role in the growth of nanoparticles during precipitation in reverse micelles. Shukla et al.1 have proposed a population balance model incorporating the effect of coagulation of nanoparticles during precipitation of nanoparticles in gas-reverse micelle system. Experimental results of Kandori et al.2 and Dagaohkar et al.3 are explained using the model. The effect of continuous phase and water-to-surfactant molar ratio on the coagulation kinetics has been investigated based on the experimental observation of Dagaonkar et al. 3.",

author = "Diwakar Shukla and Anurag Mehra",

year = "2006",

language = "English (US)",

isbn = "8086059456",

series = "CHISA 2006 - 17th International Congress of Chemical and Process Engineering",

booktitle = "CHISA 2006 - 17th International Congress of Chemical and Process Engineering",

note = "CHISA 2006 - 17th International Congress of Chemical and Process Engineering ; Conference date: 27-08-2006 Through 31-08-2006",

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TY - GEN

T1 - Modeling of calcium carbonate nanoparticle formation in reverse Micelles

AU - Shukla, Diwakar

AU - Mehra, Anurag

PY - 2006

Y1 - 2006

N2 - Coagulation of nanoparticles plays a critical role in the growth of nanoparticles during precipitation in reverse micelles. Shukla et al.1 have proposed a population balance model incorporating the effect of coagulation of nanoparticles during precipitation of nanoparticles in gas-reverse micelle system. Experimental results of Kandori et al.2 and Dagaohkar et al.3 are explained using the model. The effect of continuous phase and water-to-surfactant molar ratio on the coagulation kinetics has been investigated based on the experimental observation of Dagaonkar et al. 3.

AB - Coagulation of nanoparticles plays a critical role in the growth of nanoparticles during precipitation in reverse micelles. Shukla et al.1 have proposed a population balance model incorporating the effect of coagulation of nanoparticles during precipitation of nanoparticles in gas-reverse micelle system. Experimental results of Kandori et al.2 and Dagaohkar et al.3 are explained using the model. The effect of continuous phase and water-to-surfactant molar ratio on the coagulation kinetics has been investigated based on the experimental observation of Dagaonkar et al. 3.

UR - https://www.scopus.com/pages/publications/34748841416

UR - https://www.scopus.com/pages/publications/34748841416#tab=citedBy

M3 - Conference contribution

AN - SCOPUS:34748841416

SN - 8086059456

SN - 9788086059457

T3 - CHISA 2006 - 17th International Congress of Chemical and Process Engineering

BT - CHISA 2006 - 17th International Congress of Chemical and Process Engineering

T2 - CHISA 2006 - 17th International Congress of Chemical and Process Engineering

Y2 - 27 August 2006 through 31 August 2006

ER -

Modeling of calcium carbonate nanoparticle formation in reverse Micelles

Abstract

Publication series

Other

ASJC Scopus subject areas

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