Multiscale Nonequilibrium Thermodynamics
Project goals
Any system in physics can be described on various levels of description varying by the level of detail, and it is governed by an independent set of evolution equations on each of those levels. Nonequilibrium thermodynamics should become the bridge between the levels, providing passage between various level of description in a sound manner. The purpose of this project is to search for a common structure on all levels of description that is preserved when passing between the levels.
Keywords
nonequilibrium thermodynamicsmultiscale thermodynamicsHamiltonian evolutiondissipation potentialreduced descriptionscomplex fluids
Public support
Provider
Czech Science Foundation
Programme
Junior Grants
Call for proposals
Juniorské granty 3 (SGA0201700002)
Main participants
Univerzita Karlova / Matematicko-fyzikální fakulta
Contest type
VS - Public tender
Contract ID
17-15498Y
Alternative language
Project name in Czech
Víceškálová nerovnovážná termodynamika
Annotation in Czech
Jakýkoliv fyzikální systém může být popsán na různých úrovních popisu, které se navzájem liší mírou detailnosti. Každá úroveň popisu pak přináší nové evoluční rovnice daného systému. Nerovnovážná termodynamika by měla sloužit jako most mezi úrovněmi popisu tak, aby se dalo systematicky přecházet z jedné úrovně na druhou. Cílem tohoto projektu je hledání struktury, která je společná všem úrovním popisu a která se zachovává při přecházení mezi úrovněmi.
Scientific branches
R&D category
ZV - Basic research
CEP classification - main branch
BJ - Thermodynamics
CEP - secondary branch
BK - Liquid mechanics
CEP - another secondary branch
CF - Physical chemistry and theoretical chemistry
10305 - Fluids and plasma physics (including surface physics)
10403 - Physical chemistry
20303 - Thermodynamics
Completed project evaluation
Provider evaluation
V - Vynikající výsledky projektu (s mezinárodním významem atd.)
Project results evaluation
It can be stated that the results of project solution correspond to the declared objectives. The benefit for the field is identifiable here. The project results have been published in 12 impacted journals, a specialized book (B) and a book chapter (C). Shortcomings in compliance with grant rules have not been found. The project can be considered to be successfully completed.
Solution timeline
Realization period - beginning
Jan 1, 2017
Realization period - end
Dec 31, 2019
Project status
U - Finished project
Latest support payment
Apr 10, 2019
Data delivery to CEP
Confidentiality
S - Úplné a pravdivé údaje o projektu nepodléhají ochraně podle zvláštních právních předpisů
Data delivery code
CEP20-GA0-GJ-U/04:1
Data delivery date
Jul 23, 2020
Finance
Total approved costs
2,790 thou. CZK
Public financial support
2,790 thou. CZK
Other public sources
0 thou. CZK
Non public and foreign sources
0 thou. CZK
Recognised costs
2 790 CZK thou.
Public support
2 790 CZK thou.
0%
Provider
Czech Science Foundation
CEP
BJ - Thermodynamics
Solution period
01. 01. 2017 - 31. 12. 2019