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Ing. Tomáš Němec, Ph.D.

Phone +420 266 053 152 E-mail nemec@it.cas.cz Room M2205 Department Department D 2 - Thermodynamics Research area nucleation theory, condensation and cavitation processes in multicomponent systems, ice nucleation
Curriculum vitae
Education
2006  (Ph.D.) Faculty of Nuclear Sciences and Physical Engineering CTU in Prague, programme Applied Natural Sciences
2001  (Ing.) Faculty of Nuclear Sciences and Physical Engineering CTU in Prague, programme Mathematical Engineering (Ing. is an equivalent of M.Sc.)
   
Experience
2011– New Technologies - Research centre (NTC)
2003– Institute of Thermomechanics ASCR, v. v. i.
2001–2002 Soluziona, s.r.o.
   
Stays abroad
2011–2012 University of Stuttgart, Institute of Aerospace Thermodynamics, Germany
Theoretical research of ice nucleation in supercooled water droplets, project SFB Transregio 75 (3 months)
2003 Oak Ridge National Laboratory, Chemical Sciences Division, USA
Binary nucleation in aqueous systems, Young Scientist IAPWS Project (6 months)
2002 University of Dortmund
Featflow summerschool (2 weeks)
   
Scientific community membership
IAPWS Physical Chemistry of Aqueous Systems (PCAS) working group
View author's publications in the ASCR database
Selected publications
  1. Němec T.: Homogeneous bubble nucleation in binary systems of liquid solvent and dissolved gas. Chemical Physics, 467, 26-37, 2016. DOI: 10.1016/j.chemphys.2016.01.003
  2. Němec T.: Prediction of surface tension of binary mixtures with the parachor method. EPJ Web of Conferences, 92, 02054, 2015. DOI: 10.1051/epjconf/20159202054
  3. Němec T.: Scaled nucleation theory for bubble nucleation of lower alkanes. European Physical Journal E, 37 (11), 111, 2014. DOI: 10.1140/epje/i2014-14111-5
  4. Němec T.: Estimation of ice-water interfacial energy based on pressure-dependent formulation of classical nucleation theory. Chemical Physics Letters, 583, 64-68, 2013. DOI: 10.1016/j.cplett.2013.07.085
  5. Němec T., Maršík F., Palmer D. A.: Binary nucleation of water and sodium chloride. Journal of Chemical Physics124 (4), 0445091-0445096, 2006. DOI: 10.1063/1.2162880
ResearcherID: B-2433-2009
Projects
2010-2012 GAP101/10/1819Mathematical modelling of nucleation and condensation processes
2007-2009 KJB400760701Classical Multicomponent Nucleation Theory for Cavitation and Condensation

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