Nalazite se na CroRIS probnoj okolini. Ovdje evidentirani podaci neće biti pohranjeni u Informacijskom sustavu znanosti RH. Ako je ovo greška, CroRIS produkcijskoj okolini moguće je pristupi putem poveznice www.croris.hr
izvor podataka: crosbi !

Implementation of the Spectral-Line based Weighted-Sum-of-Grey-Gases Model in the Finite Volume Method for Accurate Modelling of Radiation in Internal Combustion Engines (CROSBI ID 692245)

Prilog sa skupa u zborniku | izvorni znanstveni rad | međunarodna recenzija

Jurić, Filip ; Vujanović, Milan ; Coelho, Pedro J. ; Petranović, Zvonimir ; Priesching, Peter Implementation of the Spectral-Line based Weighted-Sum-of-Grey-Gases Model in the Finite Volume Method for Accurate Modelling of Radiation in Internal Combustion Engines // Digital Proceedings of 4th South East European Conference on Sustainable Development of Energy, Water and Environment Systems - SEE SDEWES / Ban, Marko (ur.). Zagreb: SDEWES, 2020

Podaci o odgovornosti

Jurić, Filip ; Vujanović, Milan ; Coelho, Pedro J. ; Petranović, Zvonimir ; Priesching, Peter

engleski

Implementation of the Spectral-Line based Weighted-Sum-of-Grey-Gases Model in the Finite Volume Method for Accurate Modelling of Radiation in Internal Combustion Engines

It is well-known that the radiative heat transfer has an impact on the overall heat transfer and emissions in the engineering systems that operate at high temperatures. Detailed radiative heat transfer modelling in reactive multiphase processes is still computationally demanding and therefore radiative models are not commonly applied to calculate the radiation impact in internal combustion engines. Meanwhile, in internal combustion engines, current operating conditions feature higher operating temperature and share of exhaust gas recirculation, which both increase participation of gas radiation. Therefore, models that describe the spectral line gas properties are required to enhance the accuracy of the calculated gaseous radiation and predictions of combustion and pollutant formation processes. In this work, the Spectral-Line based Weighted-sum-of-grey-gases (SLW) model is implemented in the computational fluid dynamics code AVL FIRE™ via user functions to account for gaseous and soot radiation. For the solution of the radiative transfer equation, the finite volume method is used featuring multiprocessing, moving meshes, and mesh-rezone procedure. Validation of the radiation model for non-grey media is conducted on simple geometry cases for which analytical results are available in the literature, and on a real internal combustion engine for which the mean temperature, NO and soot emissions are measured. The implemented model is employed for the estimation of the impact of radiation on emissions, such as soot and NO, during the combustion process. Finally, the comparison between results calculated using the SLW and conventional Weighted-Sum-of-Grey-Gases Model (WSGGM) with experimental data is shown. The results calculated using SLW show a good agreement with the experimental mean temperature, soot emissions and NO emissions.

Radiative Absorption, Radiative Heat Transfer, Participating Media, Gas Radiation, Engine

nije evidentirano

nije evidentirano

nije evidentirano

nije evidentirano

nije evidentirano

nije evidentirano

Podaci o prilogu

SEE.SDEWES2020.0038

2020.

objavljeno

Podaci o matičnoj publikaciji

Digital Proceedings of 4th South East European Conference on Sustainable Development of Energy, Water and Environment Systems - SEE SDEWES

Ban, Marko

Zagreb: SDEWES

Podaci o skupu

4th South East Europe Conference on Sustainable Development of Energy, Water and Environment Systems (4th SEE SDEWES Conference)

predavanje

28.06.2020-02.07.2020

Sarajevo, Bosna i Hercegovina

Povezanost rada

Strojarstvo