Prenos toplote i termomehaničko ponašanje atmosmosferskog gorionika kućne gasne grejalice
Heat transfer and thermo-mechanical behavior of the domestic heater atmospheric burner
Апстракт
Rad izlaže realizovanu 3D CFD simulaciju faze paljenja gasnog gorionika sa ciljem određivanja maksimalne temperaturske razlike koja u njemu izaziva maksimalne termičke napone. Proces je nestacionaran. Simulacije je realizovana za minimalnu snagu jer je taj slučaj kritičan.
This paper presents performed 3D CFD simulation of burner start-up and finding the maximal temperature difference through mantle thickness which induces maximal thermal stress. The process is unsteady, beginning from the mantle room temperature and ending with its steady state condition. The behavior of burner is simulated for minimal thermal power, i.e., for critical conditions from the mantle temperature standpoint.
Кључне речи:
simulation / combustion / CFD / atmospheric burnerИзвор:
FME Transactions, 2017, 45, 1, 65-68Издавач:
- Univerzitet u Beogradu - Mašinski fakultet, Beograd
DOI: 10.5937/fmet1701065F
ISSN: 1451-2092
WoS: 000408082100010
Scopus: 2-s2.0-85011321645
Колекције
Институција/група
Mašinski fakultetTY - JOUR AU - Fotev, Vasko AU - Dinulović, Mirko PY - 2017 UR - https://machinery.mas.bg.ac.rs/handle/123456789/2627 AB - Rad izlaže realizovanu 3D CFD simulaciju faze paljenja gasnog gorionika sa ciljem određivanja maksimalne temperaturske razlike koja u njemu izaziva maksimalne termičke napone. Proces je nestacionaran. Simulacije je realizovana za minimalnu snagu jer je taj slučaj kritičan. AB - This paper presents performed 3D CFD simulation of burner start-up and finding the maximal temperature difference through mantle thickness which induces maximal thermal stress. The process is unsteady, beginning from the mantle room temperature and ending with its steady state condition. The behavior of burner is simulated for minimal thermal power, i.e., for critical conditions from the mantle temperature standpoint. PB - Univerzitet u Beogradu - Mašinski fakultet, Beograd T2 - FME Transactions T1 - Prenos toplote i termomehaničko ponašanje atmosmosferskog gorionika kućne gasne grejalice T1 - Heat transfer and thermo-mechanical behavior of the domestic heater atmospheric burner EP - 68 IS - 1 SP - 65 VL - 45 DO - 10.5937/fmet1701065F ER -
@article{ author = "Fotev, Vasko and Dinulović, Mirko", year = "2017", abstract = "Rad izlaže realizovanu 3D CFD simulaciju faze paljenja gasnog gorionika sa ciljem određivanja maksimalne temperaturske razlike koja u njemu izaziva maksimalne termičke napone. Proces je nestacionaran. Simulacije je realizovana za minimalnu snagu jer je taj slučaj kritičan., This paper presents performed 3D CFD simulation of burner start-up and finding the maximal temperature difference through mantle thickness which induces maximal thermal stress. The process is unsteady, beginning from the mantle room temperature and ending with its steady state condition. The behavior of burner is simulated for minimal thermal power, i.e., for critical conditions from the mantle temperature standpoint.", publisher = "Univerzitet u Beogradu - Mašinski fakultet, Beograd", journal = "FME Transactions", title = "Prenos toplote i termomehaničko ponašanje atmosmosferskog gorionika kućne gasne grejalice, Heat transfer and thermo-mechanical behavior of the domestic heater atmospheric burner", pages = "68-65", number = "1", volume = "45", doi = "10.5937/fmet1701065F" }
Fotev, V.,& Dinulović, M.. (2017). Prenos toplote i termomehaničko ponašanje atmosmosferskog gorionika kućne gasne grejalice. in FME Transactions Univerzitet u Beogradu - Mašinski fakultet, Beograd., 45(1), 65-68. https://doi.org/10.5937/fmet1701065F
Fotev V, Dinulović M. Prenos toplote i termomehaničko ponašanje atmosmosferskog gorionika kućne gasne grejalice. in FME Transactions. 2017;45(1):65-68. doi:10.5937/fmet1701065F .
Fotev, Vasko, Dinulović, Mirko, "Prenos toplote i termomehaničko ponašanje atmosmosferskog gorionika kućne gasne grejalice" in FME Transactions, 45, no. 1 (2017):65-68, https://doi.org/10.5937/fmet1701065F . .