PhD, Engineering Sciences, Institute of Thermophysics of USSR Academy of Sciences, 1983. Dissertation subject: Hydrodynamics and Heat/Mass Transfer in Confined Vortex Turbulent Flows
Research interests
- Air pollution control
- Supercritical carbon dioxide
- Heat/mass transfer
- Turbulent boundary layers and vortex flows
- Food freezing, drying and thermo- processing
- Handling of bulk solids
Courses taught at Nazarbayev University, The University of Nottingham, University Putra Malaysia, Novosibirsk Military College, Donetsk Technical University
- Multi-Phase Flow, Fluid Mechanics, Transport Phenomena, Pipeline Engineering and Flow Assurance, Chemical Thermodynamics, Advanced Heat/Mass Transfer, Physical Unit Operations, Mass Transfer Operations, Engineering Mathematics, Engineering Statistics, Statistical Quality Control, Physics, Computer Programming for Process Engineers.
Non-uniformity of the radon indoor concentration under convective diffusion.Atabayev, J., Ibrayev, N., Sharipova, D., Spotar, S.,
2017 Non-uniformity of the radon indoor concentration under convective diffusion..
A revisit to the separation of a binary mixture of ethanol-water using ultrasonic distillation as a separation processSpotar, S., Rahman, A., Gee, O., Jun, K., Manickam, S.,
2015 In : Chemical Engineering and Processing: Process Intensification. 87, p. 45-50
Desorption isotherm model for a malaysian rough rice variety (MR219)Ibrahim, M., Talab, K., Spotar, S., Kharidah, M., Rosnita, A.,
2013 In : Pertanika Journal of Tropical Agricultural Science. 36, 2, p. 189-198
Effects of airflow reversal in fixed-bed drying of rough rice on head rice yield and drying performanceIbrahim, M., Tajaddodi Talab, K., Spotar, S., Muhammad, K., Talib, R.,
2013 In : Transactions of the ASABE. 56, 4, p. 1485-1493
The introduction of an autumn and spring activity week into the first year of a chemical engineering undergraduate program in MalaysiaGan, S., Hanson, S., Hassell, D., Hii, C., Kabir, F., Lau, P., Lee, L., Lim, S., Spotar, S., Wilson, T.,
2012 In : Education for Chemical Engineers. 7, 3,
Glass transition temperature, mechanical properties of rice and their relationships with milling qualityTalab, K., Ibrahim, M., Spotar, S., Talib, R., Muhammad, K.,
2012 In : International Journal of Food Engineering. 8, 3,
Simple guidelines for a self-built laboratory-scale supercritical anti-solvent systemChong, G., Yunus, R., Choong, T., Abdullah, N., Spotar, S.,
2011 In : Journal of Supercritical Fluids. 60, p. 69-74
Focusing of the flow capture for local exhaust ventilation systemsSpotar, S., Sorokin, A.,
2010 In : American Journal of Applied Sciences. 7, 6, p. 732-738
Numerical modeling of mass transfer for solvent-carbon dioxide system at supercritical (miscible) conditionsChong, G., Spotar, S., Yunus, R.,
2009 In : Journal of Applied Sciences. 9, 17, p. 3055-3061
Coating and encapsulation of nanoparticles using supercritical antisolventChong, G., Yunus, R., Abdullah, N., Choong, T., Spotar, S.,
2009 In : American Journal of Applied Sciences. 6, 7, p. 1352-1358
Use of a laser doppler anemometer to study turbulent swirled jetsVolchkov, E., Matovich, M., Oka, S., Spotar, S., Chokhar, T.,
1991 In : Heat transfer. Soviet research. 23, 4, p. 470-502
Two spontaneously alternating regimes of vortex flow above a planeSpotar', S., Terekhov, V.,
1987 In : Journal of Applied Mechanics and Technical Physics. 28, 2, p. 227-228
Turbulent friction and heat exchange in stream swirling in a pipeVolchkov, E., Dvornikov, N., Spotar', S., Terekhov, V.,
1987 In : Journal of Applied Mechanics and Technical Physics. 28, 2, p. 229-236
TURBULENT HEAT AND MASS TRANSFER IN THE INLET ZONE OF A TUBE WITH SWIRLED FLOW.VOLCHKOV, E., SPOTAR, S., TEREKHOV, V.,
1981 In : Heat transfer. Soviet research. V 13, N 4, p. 92-105
MASS TRANSFER AT AN ABLATING SURFACE, COOLED WITH A SWIRLED-FILM.Volchkov, E., Spotar', S., Terekhov, V.,
1980 In : Fluid mechanics. Soviet research. 9, 6, p. 52-68
TURBULENT HEAT AND MASS TRANSFER IN THE INLET ZONE OF A TUBE WITH SWIRLED FLOW.Volchkov, E., Spotar', S., Terekhov, V.,
1980 In : Heat transfer. Soviet research. 13, 4, p. 92-105