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Simulation on Performance of Sequential Turbocharging Diesel Engine with Inlet and Exhaust Bypass System

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Abstract:

Sequential turbocharging and inlet/exhaust bypass (STC-CAB) were composited to used on diesel engine, which can expand engine running area in part load and optimize the matching of turbocharger and diesel engine. The simulation was studied based on GT-POWER software in order to investigate the engine performance difference caused by stc-cab system. The simulation results showed that STC-CAB system can make the compressor away from surge area and expand diesel engine running area, improve the performance of torque in low load.

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Periodical:

Applied Mechanics and Materials (Volumes 490-491)

Pages:

464-467

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.490-491.464

Citation:

Cite this paper

Online since:

January 2014

Authors:

Xin Jie Cui, Shi Dong Zhang, Fan Shi, Chuan Lei Yang*

Keywords:

Diesel Engine, Inlet Exhaust Bypass, Sequential Turbocharing, Simulation

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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References

[1] Benvenuto G., Campora U. Dynamic simulation of a high-performance sequentially turbocharged marine diesel engine. Int J Engine Reach, 2002, 3(3).

DOI: 10.1243/14680870260189244

Google Scholar

[2] Lu Jia-Xiang. Diesel Engine Turbocharging Technology. Mechine Press, (1999).

Google Scholar

[3] Zhu Da-xin. Turbocharging and Turbocharger. The 70 Research Institute . (1997).

Google Scholar

[4] Theotokatos G, Kytrtatos N P. Investigation of a Large High-Speed Diesel Engine Transient Behavior Including Compressor Surging and Emergency Shutdown. ASME Journal of Engineering for Gas Turbines and Power, 2003, 125.

DOI: 10.1115/1.1559903

Google Scholar

[5] Guo Lin-Fu. Development of VGT Electronic Control Turbocharging System and Research on the Optimum Matching between Turbocharger and Diesel Engine. Doctor's degree thesis of Beijing Institute of Technology . (2003).

Google Scholar

[6] Rasmus Hemph. A CFD Investigation of 2D and 3D Viscous Pulse Propagation in Engine Exhuast Systems. Master Degree Thesis of Göteborg University, Sweden. 2003: 1-20P.

Google Scholar

[7] Pearson R J, Bassett M D, Batten P, Winterbone D E. Two-dimensional Simulation of Wave Propagation in a Three-pipe Junction. Journal of Engineering for Gas Turbines and Power, ASME. 2000, Vol. 122: 549-555P.

DOI: 10.1115/1.1290589

Google Scholar

[8] Chalet D, Chesse P, Hetet J F, Tauzia X. Some Basic Elements to Achieve a Future 1D Simulation of Wave Propagation in I.C.E. Pipes. ASME, 2002: 55-62P.

DOI: 10.1115/ices2002-449

Google Scholar

[9] Chalet D, Chesse P, Violleau M. Unsteady Flows Inside the Piping Systems of Interal Combustion Engines: 1D Simulation Modeling and Experimental Validation. ASME, 2002: 419-426P.

DOI: 10.1115/icef2002-525

Google Scholar