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Journal of the Air & Waste Management Association Volume 42, 1992 - Issue 7
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Original Articles

Limestone Dissolution in Flue Gas Scrubbing: Effect of Sulfite

Cynthia L. Gage Department of Chemical Engineering, The University of Texas, Austin, Texas, USA
&
Gary T. Rochelle Department of Chemical Engineering, The University of Texas, Austin, Texas, USA
Pages 926-935 | Received 07 Aug 1991, Accepted 23 Mar 1992, Published online: 06 Mar 2012

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JUN WANG, TIMC. KEENER, GUANG LI & SOON-JAI KHANG. (1998) THE DISSOLUTION RATE OF Ca(OH)2 IN AQUEOUS SOLUTIONS. Chemical Engineering Communications 169:1, pages 167-184.
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Articles from other publishers (26)

Vibhav Dabadghao, Lorenz T. Biegler & Debangsu Bhattacharyya. (2022) Multiscale modeling and nonlinear model predictive control for flue gas desulfurization. Chemical Engineering Science 252, pages 117451.
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Zhiyong Zhou, Jianyi Lu, Qian Feng & Wenting Liu. (2022) Review on occurrence, speciation, transition and fate of sulfur in typical ultra-low emission coal-fired power plants. Journal of the Energy Institute 100, pages 259-276.
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Halil Ibrahim Gonul & Mehmet Bilen. (2020) Modeling Absorbers in WFGD System and Prediction of SO2 Removal Rate Based on Size Parameters. Journal of Energy Resources Technology 142:8.
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Cataldo De Blasio, Ermei M?kil?Tapio Westerlund. (2012) Use of carbonate rocks for flue gas desulfurization: Reactive dissolution of limestone particles. Applied Energy 90:1, pages 175-181.
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Thibaut Neveux & Yann Le Moullec. (2011) Wet Industrial Flue Gas Desulfurization Unit: Model Development and Validation on Industrial Data. Industrial & Engineering Chemistry Research 50:12, pages 7579-7592.
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Selene M. A. Guelli U. Souza, Fabiane B. F. Santos, Antonio Augusto Ulson de Souza & Fernando Vidal Barrero. (2010) Limestone dissolution in flue gas desulfurization—experimental and numerical study. Journal of Chemical Technology & Biotechnology 85:9, pages 1208-1214.
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Bo Sun, Qulan Zhou, Xi Chen, Tongmo Xu & Shien Hui. (2010) Effect of particle size in a limestone–hydrochloric acid reaction system. Journal of Hazardous Materials 179:1-3, pages 400-408.
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F. Vidal Barrero, P. Ollero, A. L. Villanueva Perales & A. Gómez-Barea. (2009) Catalytic Seawater Flue Gas Desulfurization Model. Environmental Science & Technology 43:24, pages 9393-9399.
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Gao Xiang, Guo Rui-tang, Ding Hong-lei, Luo Zhong-yang & Cen Ke-fa. (2009) Dissolution rate of limestone for wet flue gas desulfurization in the presence of sulfite. Journal of Hazardous Materials 168:2-3, pages 1059-1064.
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Luca Marocco & Fabio Inzoli. (2009) Multiphase Euler–Lagrange CFD simulation applied to Wet Flue Gas Desulphurisation technology. International Journal of Multiphase Flow 35:2, pages 185-194.
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A. L. Villanueva Perales, P. Ollero, F. J. Gutiérrez Ortiz & F. Vidal B.. (2008) Dynamic Analysis and Identification of a Wet Limestone Flue Gas Desulfurization Pilot Plant. Industrial & Engineering Chemistry Research 47:21, pages 8263-8272.
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Antonio G?mez, Norberto Fueyo & Alfredo Tom?s. (2007) Detailed modelling of a flue-gas desulfurisation plant. Computers & Chemical Engineering 31:11, pages 1419-1431.
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T. Recelj & J. Golob. (2004) Equilibrium and Mass Transfer in the Ca2+–SO2–H2O System for the Analysis of the Flue Gas Desulphurization Process. Process Safety and Environmental Protection 82:5, pages 371-380.
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Liang‐Shih Fan & Raja A. Jadhav. (2004) Clean coal technologies: OSCAR and CARBONOX commercial demonstrations. AIChE Journal 48:10, pages 2115-2123.
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Francesco Pepe. (2001) Dissolution of Finely Ground Limestone Particles in Acidic Solutions. Industrial & Engineering Chemistry Research 40:23, pages 5378-5385.
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Jerzy Warych & Marek Szymanowski. (2001) Model of the Wet Limestone Flue Gas Desulfurization Process for Cost Optimization. Industrial & Engineering Chemistry Research 40:12, pages 2597-2605.
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Shin-Min Shih, Jyh-Ping Lin & Gwo-Yuan Shiau. (2000) Dissolution rates of limestones of different sources. Journal of Hazardous Materials 79:1-2, pages 159-171.
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J. E. Johnsson & S. Kiil. 2000. Pollutants from Combustion. Pollutants from Combustion 283 301 .
Søren Kiil, Michael L. Michelsen & Kim Dam-Johansen. (1998) Experimental Investigation and Modeling of a Wet Flue Gas Desulfurization Pilot Plant. Industrial & Engineering Chemistry Research 37:7, pages 2792-2806.
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Charlotte Brogren & Hans T. Karlsson. (1997) A Model for Prediction of Limestone Dissolution in Wet Flue Gas Desulfurization Applications. Industrial & Engineering Chemistry Research 36:9, pages 3889-3897.
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Amedeo Lancia, Dino Musmarra & Francesco Pepe. (1997) Mass Transfer between a Fixed Bed of Limestone Particles and Acid Solutions † . Industrial & Engineering Chemistry Research 36:9, pages 3859-3865.
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Charlotte Brogren & Hans T. Karlsson. (1997) Modeling the absorption of SO2 in a spray scrubber using the penetration theory. Chemical Engineering Science 52:18, pages 3085-3099.
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Lars Storm Pedersen, Hanne Philbert Nielsen, S?ren Kiil, Lone Aslaug Hansen, Kim Dam-Johansen, Finn Kildsig, Jan Christensen & Peer Jespersen. (1996) Full-scale co-firing of straw and coal. Fuel 75:13, pages 1584-1590.
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Jarl Ahlbeck, Torbj?rn Engman, Stefan F?lt?n & Maija Vihma. (1995) Measuring the reactivity of limestone for wet flue-gas desulfurization. Chemical Engineering Science 50:7, pages 1081-1089.
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Amedeo. Lancia, Dino. Musmarra, Francesco. Pepe & Gennaro. Volpicelli. (2002) Characteristic Times for Limestone Particle Dissolution in the Production of Gypsum from the Wet Flue Gas Desulfurization Process. Environmental Science & Technology 28:6, pages 1031-1036.
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Jarl Ahlbeck, Torbj?rn Engman, Stefan F?lt?n & Maija Vihma. (1993) A method for measuring the reactivity of absorbents for wet flue gas desulfurization. Chemical Engineering Science 48:20, pages 3479-3484.
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