Saud A. Khashan
Saud A. Khashan
Professor of Mechanical Engineering, Jordan University of Science and Technology
Verified email at - Homepage
Cited by
Cited by
Microfluidics based magnetophoresis: A review
F Alnaimat, S Dagher, B Mathew, A Hilal‐Alnqbi, S Khashan
The Chemical Record 18 (11), 1596-1612, 2018
Novel method for synthesis of Fe3O4@ TiO2 core/shell nanoparticles
S Khashan, S Dagher, N Tit, A Alazzam, I Obaidat
Surface and Coatings Technology 322, 92-98, 2017
Numerical simulation of natural convection heat transfer in a porous cavity heated from below using a non-Darcian and thermal non-equilibrium model
SA Khashan, AM Al-Amiri, I Pop
International Journal of Heat and Mass Transfer 49 (5-6), 1039-1049, 2006
Assessment of the local thermal non-equilibrium condition in developing forced convection flows through fluid-saturated porous tubes
SA Khashan, AM Al-Amiri, MA Al-Nimr
Applied thermal engineering 25 (10), 1429-1445, 2005
Effects of particle–fluid coupling on particle transport and capture in a magnetophoretic microsystem
SA Khashan, EP Furlani
Microfluidics and nanofluidics 12, 565-580, 2012
Photocatalytic removal of methylene blue using titania-and silica-coated magnetic nanoparticles
S Dagher, A Soliman, A Ziout, N Tit, A Hilal-Alnaqbi, S Khashan, ...
Materials Research Express 5 (6), 065518, 2018
Scalability analysis of magnetic bead separation in a microchannel with an array of soft magnetic elements in a uniform magnetic field
SA Khashan, EP Furlani
Separation and Purification Technology 125, 311-318, 2014
Numerical simulation of biomagnetic fluid downstream an eccentric stenotic orifice
SA Khashan, Y Haik
Physics of Fluids 18 (11), 2006
Computational analysis of enhanced magnetic bioseparation in microfluidic systems with flow-invasive magnetic elements
SA Khashan, A Alazzam, EP Furlani
Scientific reports 4 (1), 5299, 2014
Photo-thermal characteristics of water-based Fe3O4@SiO 2 nanofluid for solar-thermal applications
S Khashan, S Dagher, S Al Omari, N Tit, E Elnajjar, B Mathew, ...
Materials Research Express 4, 055701, 2017
Coupled particle–fluid transport and magnetic separation in microfluidic systems with passive magnetic functionality
SA Khashan, EP Furlani
Journal of Physics D: Applied Physics 46 (12), 125002, 2013
Modeling the trajectory of microparticles subjected to dielectrophoresis in a microfluidic device for field flow fractionation
B Mathew, A Alazzam, M Abutayeh, A Gawanmeh, S Khashan
Chemical Engineering Science 138, 266-280, 2015
Effect of energy extraction on solar pond performance
K Al-Jamal, S Khashan
Energy conversion and management 39 (7), 559-566, 1998
Validation of the local thermal equilibrium assumption in forced convection of non-Newtonian fluids through porous channels
SA Khashan, MA Al-Nimr
Transport in Porous Media 61, 291-305, 2005
Microdevice for continuous flow magnetic separation for bioengineering applications
SA Khashan, S Dagher, A Alazzam, B Mathew, A Hilal-Alnaqbi
Journal of Micromechanics and Microengineering 27 (5), 055016, 2017
Lab-on-chip for liquid biopsy (LoC-LB) based on dielectrophoresis
B Mathew, A Alazzam, S Khashan, M Abutayeh
Talanta 164, 608-611, 2017
CFD simulation of the magnetophoretic separation in a microchannel
SA Khashan, E Elnajjar, Y Haik
Journal of Magnetism and Magnetic Materials 323 (23), 2960-2967, 2011
Advanced mechatronics and MEMS devices II
D Zhang, B Wei
Springer, 2016
Numerical simulation of the continuous biomagnetic separation in a two-dimensional channel
SA Khashan, E Elnajjar, Y Haik
International journal of multiphase flow 37 (8), 947-955, 2011
A microfluidics device for 3D switching of microparticles using dielectrophoresis
W Waheed, A Alazzam, E Abu-Nada, S Khashan, M Abutayeh
Journal of Electrostatics 94, 1-7, 2018
The system can't perform the operation now. Try again later.
Articles 1–20