@article{ART001851427},
author={Hwang Woohyeon and Kyung-Ok Lee},
title={Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas},
journal={Journal of The Korea Society of Computer and Information},
issn={1598-849X},
year={2014},
volume={19},
number={2},
pages={161-171}
TY - JOUR
AU - Hwang Woohyeon
AU - Kyung-Ok Lee
TI - Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas
JO - Journal of The Korea Society of Computer and Information
PY - 2014
VL - 19
IS - 2
PB - The Korean Society Of Computer And Information
SP - 161
EP - 171
SN - 1598-849X
AB - In this paper the flow dynamics of the flue gas equipment in the desulfurization system wasnumerically analyzed by simulating the problems for the turbulent and combustion flow fromInduced Draft Fan(I.D.Fan) outlet to Booster Up Fan(B.U.Fan) inlet using the commercial CFDsoftware of CFD-ACE+ in CFDRC company for Computational Fluid Dynamic Analysis. The guidevane of this section was examined for the minimum pressure loss and the uniform flow dynamic to B.U.Fan with the proper velocity from I.D,Fan exit to B,U,Fan inlet section at the boiler both themaximum continuous rating and the design base. The guide vanes at I,D.Fan outlet and B.U.Faninlet were removed and modified by numerical simulation of the CFD analysis. The flue gas at thesystem had the less pressure loss and the uniform flow dynamics of the flow velocity and flow lineby comparing with the old design equipment.
KW - Computational Fluid Dynamic;Flue gas desulfurization;Guide vane;Duct
DO -
UR -
ER -
Hwang Woohyeon and Kyung-Ok Lee. (2014). Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas. Journal of The Korea Society of Computer and Information, 19(2), 161-171.
Hwang Woohyeon and Kyung-Ok Lee. 2014, "Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas", Journal of The Korea Society of Computer and Information, vol.19, no.2 pp.161-171.
Hwang Woohyeon, Kyung-Ok Lee "Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas" Journal of The Korea Society of Computer and Information 19.2 pp.161-171 (2014) : 161.
Hwang Woohyeon, Kyung-Ok Lee. Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas. 2014; 19(2), 161-171.
Hwang Woohyeon and Kyung-Ok Lee. "Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas" Journal of The Korea Society of Computer and Information 19, no.2 (2014) : 161-171.
Hwang Woohyeon; Kyung-Ok Lee. Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas. Journal of The Korea Society of Computer and Information, 19(2), 161-171.
Hwang Woohyeon; Kyung-Ok Lee. Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas. Journal of The Korea Society of Computer and Information. 2014; 19(2) 161-171.
Hwang Woohyeon, Kyung-Ok Lee. Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas. 2014; 19(2), 161-171.
Hwang Woohyeon and Kyung-Ok Lee. "Computational Fluid Dynamic Analysis for Improving the Efficiency of Desulfurization System for the Wet Flue Gas" Journal of The Korea Society of Computer and Information 19, no.2 (2014) : 161-171.
