IHTM PLAVI
University of Belgrade
Institute of Chemistry, Technology and Metallurgy
National Institute of the Republic of Serbia

grb BUUniversity of Belgrade

Mihal Đuriš

Research Associate

 

 

 

 

 

Address:

Center for Catalysis and chemical Engineering, Institute of Chemistry, Technology and Metallurgy,
University of Belgrade, Njegoševa 12, 11000 Belgrade, SERBIA

Telephone: +381 11 3370408
Fax: +381 11 3370500
E-mail: mdjuris@tmf.bg.ac.rs

Date & Place of Birth: 1984 Pančevo, Serbia

Academic Degree: 2014 Ph.D. in Chemical Engineering – University of Belgrade, Faculty of Technology and Metallurgy

Research Rank: 2014 Research Associate – University of Belgrade, Institute of Chemistry, Technology and Metallurgy

Memberships:

Association of the Chemical Engineers of Serbia - AChE (Serbia)
Serbian Chemical Society - SCS(Serbia)

Professional Experience: 2009 – Today Center for Catalysis and chemical Engineering, Institute of Chemistry, Technology and Metallurgy, University of Belgrade

Research Interests:

  • Transport phenomena and chemical reactions in multiphase fluid-particle systems; 
  • Gas, liquid and solid particles interaction in a fluidized, spouted and modified spouted beds; 
  • Drying of organic and inorganic solutions/slluries/pastes in systems with inert particles;
  • Integrated processes and multifunctional equipment for yield and energy efficiency improvement in different areas, primarily in purification of waste gasses/waters and various liquid and solid waste menagement;

Citations: 12 (without self-citations and co-citations), h index = 2

Language Skills: Serbian (native), English, Slovak

Major Projects:

International:
2014 – 2017 Development of advanced catalytic systems applicable to chemical and photochemical processes for neutralization of environmental pollutions (associate).
(The project of bilateral cooperation with Bulgaria (BAS - IChTM))

National:
Basic Research:
2006 – 2010 Research of the transport phenomena relevant for the development of multi-phase processes and equipment, the project 142014G, (associate)
2011 – 2016 The development of efficient chemical-engineering processes based on the research of transport phenomena and principles of process intensification, Project 172022
factory, Innovation Project Type No.411-00-00144/2008-01-IP 1./, (associate)

Major Publications:

Journal Papers:

  1. Đuriš M, Kaluđerović-Radoičić T, Arsenijević Z., Garić-Grulović R, Grbavčić Ž, Prediction of bed expansion of polydisperse quartz sand mixtures fluidized with water. Powder Technology, 289  (2016), 95-103.
  2. Arsenijević Z, Kaluđerović-Radoičić T, Đuriš M, Grbavčić Ž, Experimental investigation of heat transfer in three phase fluidized bed cooling column, Chem. Ind. Chem. Eng. Q., 21 (2015), 519-526
  3. Arsenijević Z, Kaluđerović Radoičić T, Garić-Grulović R, Đuriš M, Grbavčić Ž, Hydrodynamic modeling of downward gas-solids flow. Part II: Co-current flow, Powder Technology, 256 (2014) 416–427
  4. Garić-Grulović R, Kaluđerović Radoičić T, Arsenijević Z, Đuriš M, Grbavčić Ž, Hydrodynamic modeling of downward gas-solids flow. Part I: Counter-current flow, Powder Technology, 256 (2014) 404–415
  5. Kaluđerović Radoičić T, Đuriš M, Garić-Grulović R, Arsenijević Z, Grbavčić Ž, Particle characterization of polydisperse quartz filtration sand, Powder Technology, 254 (2014) 63–71
  6. Kaluđerović Radoičić T, Đuriš M, Garić-Grulović R, Arsenijević Z, Željko Grbavčić, Solid circulation rate and particle collisions in quasi two-dimensional water fluidized beds of spherical particles, Powder Technology, 253 (2014) 295–303
  7. Đuriš M, Kaluđerović Radoičić T, Garić-Grulović R, Arsenijević Z, Grbavčić Ž, Particle velocities in quasi two-dimensional water fluidized beds of spherical particles, Powder Technology, 246 (2013) 98-107
  8. Đuriš M, Garić-Grulović R, Arsenijević Z, Jaćimovski D, Grbavčić Ž, Segregation in water fluidized beds of sand particles, Powder Technology, 235 (2013) 173–179
  9. Arsenijević ZLj, Grbavčić ŽB, Grbić BV, Radić ND, Garić-Grulović RV, Đuriš MM. Removal of Ethylene Oxide from Waste Gases by Absorption. Hemijska industrija 2011; 65(4):389-395.

Presentations:

  1. Arsenijevic Z., Grbavcic Z., Grbic B., Radic N., Garic-Grulovic R., Djuris M., Pesticide Manufacturing Liquid Waste Combustion in a Fluidized Bed of Inert Particles, ASME-ATI-UIT 2010 Conference on Thermal and Environmental Issues in Energy Systems 16 – 19 May, 2010,  Sorrento, Italy