Your search keyword '"Retnowati, Diah Susetyo"' showing total 3 results

1. Implementation of Steady State Approximation for Modelling of Reaction Kinetic of UV Catalysed Hydrogen Peroxide Oxidation of Starch.

Author

Kumoro, Andri Cahyo, Retnowati, Diah Susetyo, Ratnawati, and Budiyati, Catarina Sri

Subjects

*CHEMICAL kinetics, *HYDROGEN peroxide, *OXIDATION, *STARCH, *APPROXIMATION theory, *ULTRAVIOLET radiation

Abstract

With regard to its low viscosity, high stability, clarity, film forming and binding properties, oxidised starch has been widely used in various applications specifically in the food, paper, textile, laundry finishing and binding materials industries. A number of methods have been used to produce oxidised starch through reactions with various oxidizing agents, such as hydrogen peroxide, air oxygen, ozone, bromine, chromic acid, permanganate, nitrogen dioxide and hypochlorite. Unfortunately, most of previous works reported in the literatures were focused on the study of reaction mechanism and physicochemical properties characterization of the oxidised starches produced without investigation of the reaction kinetics of the oxidation process. This work aimed to develop a simple kinetic model for UV catalysed hydrogen peroxide oxidation of starch through implementation of steady state approximation for the radical reaction rates. The model was then verified using experimental data available in the literature. The model verification revealed that the proposed model shows its good agreement with the experimental data as indicated by an average absolute relative error of only 2.45%. The model also confirmed that carboxyl groups are oxidised further by hydroxyl radical. The carbonyl production rate was found to follow first order reaction with respect to carbonyl concentration. Similarly, carboxyl production rate also followed first order reaction with respect to carbonyl concentration. The apparent reaction rate constant for carbonyl formation and oxidation were 6.24 × 104 s-1 and 1.01 × 104 M-1.s-1, respectively. While apparent reaction rate constant for carboxyl oxidation was 4.86 × 104 M-1.s-1. [ABSTRACT FROM AUTHOR]

Published

2015

2. Reaction and Mass Transfer Kinetics Model of Hydrogen Peroxide Oxidation of Starch under Influence of Ultraviolet Irradiation.

Author

Kumoro, Andri Cahyo, Ratnawati, Ratnawati, and Retnowati, Diah Susetyo

Subjects

MASS transfer, HYDROGEN peroxide, OXIDATION, IRRADIATION, CORNSTARCH

Abstract

The coupled hydrogen peroxide/ultraviolet irradiation (H2O2/UV) process as one of environmentally friendly advanced oxidation processes (AOPs) has been successfully applied in the oxidation of corn starch. The aim of this work was to develop a simplified model for the describing of reaction kinetics and mass transfer phenomena of starch oxidation using hydrogen peroxide under influence of UV irradiation. The model development involved the elementary chemical and photochemical reactions as well as pseudo-steady state mass transfer of hydroxyl radicals from bulk liquid to the surface of starch particles. Effects of initial H2O2 concentration and pH were investigated. The results show that H2O2/UV starch oxidation follows the first order reaction with respect to H2O2 and starch concentrations. The proposed model satisfactorily describes the H2O2/UV starch oxidation phenomena, where very good agreement with experimental data was obtained. Hydroxyl radical's mass transfer from bulk liquid to the surface of starch particles was found to be the rate controlling step for coupled H2O2/UV starch oxidation. [ABSTRACT FROM AUTHOR]

Published

2017

3. A simplified kinetics model of natural and iron complex catalysed hydrogen peroxide oxidation of starch.

Author

Kumoro, Andri Cahyo, Ratnawati, R., and Retnowati, Diah Susetyo

Subjects

HYDROGEN peroxide, DYNAMICS, CARBOHYDRATES, OXIDATION, MASS transfer

Abstract

Hydrogen peroxide is well known as one of environmentally benign reagents for the oxidation of starch. The aim of this work was to develop a simplified model for the describing of mass transfer and reaction kinetics phenomena of non-catalytic and iron complex catalysed starch oxidation using hydrogen peroxide under alkaline condition. The model was composed based on hydrogen peroxide consumptions for its decomposition and reaction with starch molecules as well as mass transfer between liquid-solid reactants. Effects of starch-water ratio (S/L), catalyst concentration and pH were evaluated. The results show that both non-catalytic and iron complex catalysed hydrogen peroxide starch oxidation follows pseudo-first-order reaction with respect to hydrogen peroxide concentration. The proposed model satisfactorily describes the overall reaction, where very good agreement with experimental data was obtained. Mass transfer between liquid-solid reactants was likely to be the controlling step for the iron complex catalysed starch oxidation using hydrogen peroxide. © 2015 Curtin University of Technology and John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2015