Aditya Putranto
Aditya Putranto
Lecturer in Chemical Engineering, Queen's University Belfast, United Kingdom
Verified email at qub.ac.uk
TitleCited byYear
Application of the reaction engineering approach (REA) for modeling intermittent drying under time-varying humidity and temperature
A Putranto, XD Chen, S Devahastin, Z Xiao, PA Webley
Chemical Engineering Science 66 (10), 2149-2156, 2011
452011
Modelling Drying Processes: A Reaction Engineering Approach
XD Chen, A Putranto
Cambridge University Press, 2013
442013
Intermittent drying of mango tissues: implementation of the reaction engineering approach
A Putranto, Z Xiao, XD Chen, PA Webley
Industrial & Engineering Chemistry Research 50 (2), 1089-1098, 2010
382010
Mathematical modeling of intermittent and convective drying of rice and coffee using the reaction engineering approach (REA)
A Putranto, XD Chen, Z Xiao, PA Webley
Journal of food engineering 105 (4), 638-646, 2011
352011
Infrared and convective drying of thin layer of polyvinyl alcohol (PVA)/glycerol/water mixture—The reaction engineering approach (REA)
A Putranto, XD Chen, PA Webley
Chemical Engineering and Processing: Process Intensification 49 (4), 348-357, 2010
342010
Spatial reaction engineering approach as an alternative for nonequilibrium multiphase mass‐transfer model for drying of food and biological materials
A Putranto, XD Chen
AIChE Journal 59 (1), 55-67, 2013
272013
Application of the reaction engineering approach (REA) to model cyclic drying of thin layers of polyvinyl alcohol (PVA)/glycerol/water mixture
A Putranto, XD Chen, PA Webley
Chemical Engineering Science 65 (18), 5193-5203, 2010
232010
Multiphase modeling of intermittent drying using the spatial reaction engineering approach (S-REA)
A Putranto, XD Chen
Chemical Engineering and Processing: Process Intensification 70, 169-183, 2013
222013
Simple, accurate and robust modeling of various systems of drying of foods and biomaterials: a demonstration of the feasibility of the reaction engineering approach (REA)
A Putranto, XD Chen, Z Xiao, PA Webley
Drying Technology 29 (13), 1519-1528, 2011
222011
Drying and denaturation kinetics of whey protein isolate (WPI) during convective air drying process
M Amdadul Haque, A Putranto, P Aldred, J Chen, B Adhikari
Drying Technology 31 (13-14), 1532-1544, 2013
212013
Energy-saving combination of N2 production, NH3 synthesis, and power generation
M Aziz, A Putranto, MK Biddinika, AT Wijayanta
International Journal of Hydrogen Energy 42 (44), 27174-27183, 2017
182017
Modeling of baking of thin layer of cake using the lumped reaction engineering approach (L-REA)
A Putranto, XD Chen, W Zhou
Journal of food engineering 105 (2), 306-311, 2011
182011
Roasting of barley and coffee modeled using the lumped-reaction engineering approach (L-REA)
A Putranto, XD Chen
Drying Technology 30 (5), 475-483, 2012
172012
Modeling of drying of food materials with thickness of several centimeters by the reaction engineering approach (REA)
A Putranto, XD Chen, PA Webley
Drying Technology 29 (8), 961-973, 2011
152011
Modeling of drying of thick samples of mango and apple tissues using the reaction engineering approach (REA)
A Putranto, XD Chen, PA Webley
Drying Technology 29, 961-973, 2011
152011
An assessment on modeling drying processes: Equilibrium multiphase model and the spatial reaction engineering approach (S-REA)
A Putranto, XD Chen
Chemical Engineering Research and Design 94, 660-672, 2015
142015
Bread baking and its color kinetics modeled by the spatial reaction engineering approach (S-REA)
A Putranto, XD Chen, W Zhou
Food Research International 71, 58-67, 2015
122015
Modeling of high-temperature treatment of wood using the reaction engineering approach (REA)
A Putranto, XD Chen, Z Xiao, PA Webley
Bioresource technology 102 (10), 6214-6220, 2011
122011
S-REA (spatial reaction engineering approach): An effective approach to model drying, baking and water vapor sorption processes
A Putranto, XD Chen
Chemical Engineering Research and Design 101, 135-145, 2015
112015
Modeling intermittent drying of wood under rapidly varying temperature and humidity conditions with the lumped reaction engineering approach (L-REA)
A Putranto, XD Chen
Drying Technology 30 (14), 1658-1665, 2012
112012
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