Simulation and Experimental Study of SCR Injection System

1. Baik J H, Yim S D, Nam I S, et al., Control of NO_x emissions from diesel engine by selective catalytic reduction (SCR) with urea [J]. Topics in Catalysis, 2004, 30–31(1–4): 37–41.10.1023/B:TOCA.0000029725.88068.97Search in Google Scholar

2. Lei Z, Wen C, Chen B., Optimization of internals for Selective Catalytic Reduction (SCR) for NO removal [J]. Environmental Science & Technology, 2011, 45(8): 3437–3444.10.1021/es104156jSearch in Google Scholar

3. Chen, Ming, and S. Williams. Modelling and Optimization of SCR-Exhaust Aftertreatment Systems. SAE 2005 World Congress & Exhibition, 2005.10.4271/2005-01-0969Search in Google Scholar

4. Weltens, Herman, et al., Optimisation of Catalytic Converter Gas Flow Distribution by CFD Prediction. International Congress & Exposition, 1993.10.4271/930780Search in Google Scholar

5. Ho Jeong Chae, 500Tac Choo, Hoon Choe, et al., Direct use of Knetic parameters for modeling and simulation of a selective catalytic reduction Process [J] Ind. Eng. Chem. Res. 2000 39(5): 1159–1170.10.1021/ie9907270Search in Google Scholar

6. Tronconi E, Beretta A, Elmi A S, et al., A complete model of scr monolith reactors for the analysis of interacting NO_x, reduction and SO₂, oxidation reactions [J]. Chemical Engineering Science, 1994, 49(24): 4277–4287.10.1016/S0009-2509(05)80021-1Search in Google Scholar

7. Upadhyay D, Nieuwstadt M V. Model Based Analysis and Control Design of a Urea-SCR deNO_x Aftertreatment System [J]. Journal of Dynamic Systems Measurement & Control, 2006, 128(3): 737–741.10.1115/1.2234494Search in Google Scholar

8. Bhattacharjee S, Haworth D C, Moores R. CFD modeling of processes upstream of the catalyst for urea SCR NO_x reduction systems in heavy-duty diesel applications [J]. Sae Technical Papers, 2011.10.4271/2011-01-1322Search in Google Scholar

9. Adams B, Cremer M, Valentine J, et al., Use of CFD Modeling for Design of NOx Reduction Systems in Utility Boilers [C]. International Joint Power Generation Conference. 2002: 695–702.10.1115/IJPGC2002-26081Search in Google Scholar

10. Naqvi Mughis Meyer Chris. Gas-Gas Mixing as Applied to SCR’s [C].NETL conference Pittsburgh Pennsylvania 2003: 1–30.Search in Google Scholar

11. Enrico Tronconi, Andrea Cavanna, Carlo OrseIligo, Pio Forzani, Transient Kinetics of S02 Oxidation Over SCR-DeNOx Monolith Cataysts. Industrial & Engineering Chemistry Research, 1999, 38(7): 2593–2598.10.1021/ie980673eSearch in Google Scholar

12. Tao Qiu, Xuchu Li, Hong Liang, Xinghua Liu, Yan Lei. A method for estimating the temperature downstream of the SCR (selective catalytic reduction) catalyst in diesel engines [J]. Energy,2014,68.10.1016/j.energy.2014.02.101Search in Google Scholar

13. Ossi Tapani Kaario, Ville Vuorinen, Lei Zhu, Martti Larmi, Ronghou Liu. Mixing and evaporation analysis of a high-pressure SCR system using a hybrid LES-RANS approach [J]. Energy, 2016.Search in Google Scholar

14. Amsden A A, Orourke P J, Butler T D. KIVA-2: A computer program for chemically reactive flows with sprays [J]. Nasa Sti/recon Technical Report N, 1989, 89.10.2172/6228444Search in Google Scholar

15. Yim S D, Kim S J, And J H B, et al., Decomposition of Urea into NH3 for the SCR Process [J]. Industrial & Engineering Chemistry Research, 2004, 43(16): 4856–4863.10.1021/ie034052jSearch in Google Scholar

16. Weili Zhang. Study on the urea storage and injection unit of the ship SCR system. Dalian Maritime University. 2012: 1–62.Search in Google Scholar