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Chaminda Karunasena
Chaminda Karunasena
Senior Lecturer (Faculty of Engineering, University of Ruhuna - Sri Lanka)
Verified email at mme.ruh.ac.lk - Homepage
Title
Cited by
Cited by
Year
Scanning electron microscopic study of microstructure of gala apples during hot air drying
HCP Karunasena, P Hesami, W Senadeera, YT Gu, RJ Brown, A Oloyede
Drying Technology 32 (4), 455-468, 2014
992014
A particle based model to simulate microscale morphological changes of plant tissues during drying
HCP Karunasena, W Senadeera, RJ Brown, YT Gu
Soft matter 10 (29), 5249-5268, 2014
622014
A coupled SPH-DEM model for micro-scale structural deformations of plant cells during drying
HCP Karunasena, W Senadeera, YT Gu, RJ Brown
Applied Mathematical Modelling 38 (15-16), 3781-3801, 2014
602014
Application of meshfree methods to numerically simulate microscale deformations of different plant food materials during drying
HCP Karunasena, RJ Brown, YT Gu, W Senadeera
Journal of Food Engineering 146, 209-226, 2015
472015
Novel trends in numerical modelling of plant food tissues and their morphological changes during drying–a review
CMR Mudiyanselage, HCP Karunasena, YT Gu, L Guan, W Senadeera
Journal of Food Engineering 194, 24-39, 2017
412017
Simulation of plant cell shrinkage during drying–A SPH–DEM approach
HCP Karunasena, W Senadeera, RJ Brown, YT Gu
Engineering Analysis with Boundary Elements 44, 1-18, 2014
392014
Numerical investigation of plant tissue porosity and its influence on cellular level shrinkage during drying
HCP Karunasena, YT Gu, RJ Brown, W Senadeera
Biosystems Engineering 132, 71-87, 2015
362015
A physics-informed neural network-based surrogate framework to predict moisture concentration and shrinkage of a plant cell during drying
CP Batuwatta-Gamage, CM Rathnayaka, HCP Karunasena, W Wijerathne, ...
Journal of Food Engineering 332, 111137, 2022
322022
Numerical investigation of case hardening of plant tissue during drying and its influence on the cellular-level shrinkage
HCP Karunasena, YT Gu, RJ Brown, W Senadeera
Drying Technology 33 (6), 713-734, 2015
292015
A coupled SPH-DEM model for fluid and solid mechanics of apple parenchyma cells during drying
HCP Karunasena, W Senadeera, YT Gu, RJ Brown
Proceedings of the 18th Australasian Fluid Mechanics Conference (AFMC 2012), 2012
222012
A coarse-grained multiscale model to simulate morphological changes of food-plant tissues undergoing drying
W Wijerathne, CM Rathnayaka, HCP Karunasena, W Senadeera, ...
Soft matter 15 (5), 901-916, 2019
212019
Application of 3D imaging and analysis techniques for the study of food plant cellular deformations during drying
CM Rathnayaka, HCP Karunasena, W Senadeera, YT Gu
Drying technology 36 (5), 509-522, 2018
182018
A meshfree model for plant tissue deformations during drying
CPK Helambage, W Senadeera, RJ Brown, YT Gu
Anziam Journal 55, C110-C137, 2013
172013
Application of a coupled smoothed particle hydrodynamics (SPH) and coarse-grained (CG) numerical modelling approach to study three-dimensional (3-D) deformations of single …
CM Rathnayaka, HCP Karunasena, W Senadeera, YT Gu
Soft Matter 14 (11), 2015-2031, 2018
142018
A 3-D coupled Smoothed Particle Hydrodynamics and Coarse-Grained model to simulate drying mechanisms of small cell aggregates
CM Rathnayaka, HCP Karunasena, W Senadeera, ...
Applied Mathematical Modelling 67, 219-233, 2019
132019
A three-dimensional (3-D) meshfree-based computational model to investigate stress-strain-time relationships of plant cells during drying
CM Rathnayaka, HCP Karunasena, W Wijerathne, W Senadeera, YT Gu
Plos one 15 (7), e0235712, 2020
112020
A particle based micromechanics model to simulate drying behaviors of vegetable cells
HCP Karunasena, W Senadeera, YT Gu, RJ Brown
4th International Conference on Computational Methods (ICCM 2012), 25-28, 2012
112012
A 3-D meshfree numerical model to analyze cellular scale shrinkage of different categories of fruits and vegetables during drying
C Rathnayaka, C Karunasena, YT Gu, L Guan, J Banks, W Senadeera
Proceedings of the 7th International Conference on Computational Methods …, 2016
102016
A novel physics-informed neural networks approach (PINN-MT) to solve mass transfer in plant cells during drying
CP Batuwatta-Gamage, C Rathnayaka, HCP Karunasena, H Jeong, ...
Biosystems Engineering 230, 219-241, 2023
92023
Novel use of the cell-linked list algorithm to reduce computational time in meshfree based numerical models for plant cell drying
KGP Hansani, B Sumith, HCP Karunasena
2016 Manufacturing & Industrial Engineering Symposium (MIES), 1-6, 2016
62016
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