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Chaminda Karunasena
Chaminda Karunasena
Senior Lecturer (Faculty of Engineering, University of Ruhuna - Sri Lanka)
在 mme.ruh.ac.lk 的电子邮件经过验证 - 首页
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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
632014
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
622014
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
372015
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
312022
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
312015
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
222019
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
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
162013
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
R Mudiyanselage, HCP Karunasena, YT Gu, L Guan, J Banks, ...
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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