Browsing School of Engineering and Materials Science by Author "Abad, JMN"
Now showing items 1-7 of 7
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Analysis of transport processes in a reacting flow of hybrid nanofluid around a bluff-body embedded in porous media using artificial neural network and particle swarm optimization
Abad, JMN; Alizadeh, R; Fattahi, A; Doranehgard, MH; Alhajri, E; Karimi, N (2020-09-01) -
Application of Machine Learning to Investigation of Heat and Mass Transfer Over a Cylinder Surrounded by Porous Media-The Radial Basic Function Network
Alizadeh, R; Abad, JMN; Fattahi, A; Alhajri, E; Karimi, N (2020-11-01) -
A Machine Learning Approach to Predicting the Heat Convection and Thermodynamics of an External Flow of Hybrid Nanofluid
Alizadeh, R; Abad, JMN; Fattahi, A; Mohebbi, MR; Doranehgard, MH; Li, LKB; Alhajri, E; Karimi, N (American Society of Mechanical Engineers, 2021-01-15) -
A machine learning approach to the prediction of transport and thermodynamic processes in multiphysics systems - heat transfer in a hybrid nanofluid flow in porous media
Alizadeh, R; Abad, JMN; Ameri, A; Mohebbi, MR; Mehdizadeh, A; Zhao, D; Karimi, N (2021-04-01) -
Machine-Learning Enhanced Analysis of Mixed Biothermal Convection of Single Particle and Hybrid Nanofluids within a Complex Configuration
Alizadeh, R; Abad, JMN; Fattahi, A; Mesgarpour, M; Doranehgard, MH; Xiong, Q; Karimi, N (2022) -
Predicting the effects of environmental parameters on the spatio-temporal distribution of the droplets carrying coronavirus in public transport- A machine learning approach.
Mesgarpour, M; Abad, JMN; Alizadeh, R; Wongwises, S; Doranehgard, MH; Jowkar, S; Karimi, N (Elsevier, 2021-10-07)Human-generated droplets constitute the main route for the transmission of coronavirus. However, the details of such transmission in enclosed environments are yet to be understood. This is because geometrical and environmental ... -
Prediction of the spread of Corona-virus carrying droplets in a bus-A computational based artificial intelligence approach
Mesgarpour, M; Abad, JMN; Alizadeh, R; Wongwises, S; Doranehgard, MH; Ghaderi, S; Karimi, N (2021)