Detail publikace
Numerická simulace rekonstrukce polosuchého odsiřování spalin a provozních testů
KATOLICKÝ, J. JÍCHA, M.
Český název
Numerická simulace rekonstrukce polosuchého odsiřování spalin a provozních testů
Anglický název
Numerical simulation of semi-dry flue gas desulfurization retrofit and operation tests
Typ
článek v časopise - ostatní, Jost
Jazyk
en
Originální abstrakt
In the present article a process of the retrofit of the desulfurization absorber in the Plzenska energetika power plant in the city of Pilzen, the Czech Republic, is described with details provided on the modeling approach to both the flow field in the desulfurization vessel and the performance of the rotary atomizer used there. The retrofit is performed on the numerical basis using CFD code with a simple yet correct and validated model for the semi-dry desulfurization. For the numerical modeling of the multiphase flow in the absorber the Euler-Lagrange approach is used with the Eddy Interaction Model. The retrofit measures that were numerically tested focus on the optimization of the flow field inside the absorber with the goal to increase the time during which the lime slurry remains in contact with flue gases. The main idea behind the retrofit was to keep the installation costs of the retrofit measures as low as possible yet improving the desulfurization efficiency. Results of the numerical modeling are in very good agreement with operation tests.
Český abstrakt
Článek se věnuje využití modelování proudění a procesu odsíření při rekonstrukci odsiřovacího absorbéru včetně vlivu parametrů rotačního atomizér. Při rekonstrukci se využilo numerických výpočtu na bázi CFD s implementovaným modelem pro polosuché odsiřování. Pro numerické modelování vícefázového proudění v absorbéru byl použit Euler-Lagrangeuv.
Anglický abstrakt
In the present article a process of the retrofit of the desulfurization absorber in the Plzenska energetika power plant in the city of Pilzen, the Czech Republic, is described with details provided on the modeling approach to both the flow field in the desulfurization vessel and the performance of the rotary atomizer used there. The retrofit is performed on the numerical basis using CFD code with a simple yet correct and validated model for the semi-dry desulfurization. For the numerical modeling of the multiphase flow in the absorber the Euler-Lagrange approach is used with the Eddy Interaction Model. The retrofit measures that were numerically tested focus on the optimization of the flow field inside the absorber with the goal to increase the time during which the lime slurry remains in contact with flue gases. The main idea behind the retrofit was to keep the installation costs of the retrofit measures as low as possible yet improving the desulfurization efficiency. Results of the numerical modeling are in very good agreement with operation tests.
Klíčová slova česky
Polosuché odsíření spalin, renovace, Numerické modelování, Euler-Lagrange přístup; Rotační rozprašovač
Klíčová slova anglicky
Semi-dry flue gas desulfurization; Retrofit measures; Numerical modeling; Euler-Lagrange approach; Rotary atomizer
Rok RIV
2013
Vydáno
22.04.2013
Nakladatel
Sila Science
Místo
Trabzon, Turkey
ISSN
1308-772X
Ročník
2013 (31)
Číslo
2
Strany od–do
861–878
Počet stran
18
BIBTEX
@article{BUT101662,
author="Jaroslav {Katolický} and Miroslav {Jícha},
title="Numerical simulation of semi-dry flue gas desulfurization retrofit and operation tests",
year="2013",
volume="2013 (31)",
number="2",
month="April",
pages="861--878",
publisher="Sila Science",
address="Trabzon, Turkey",
issn="1308-772X"
}