研究领域
Combustion and fire dynamics are the main topics of my research. I use Computational Fluid Dynamics (CFD) for modelling turbulent reacting flows in combustion devices as well as fire safety related problems. When combustion involves liquid or solid fuels, which is usually the case in my research projects, then the modelling should include CFD techniques for multiphase flows problems. I am particularly interested in Large Eddy Simulation (LES) of large scale fire scenarios as well as spray combustion in combustion devices.
In addition to this, I am also interested in understanding of bio-fluid mechanics, such as blood flows and its non-Newtonian behaviour.
近期论文
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1. C. Gong, M. Jangi, X.S. Bai, Diesel flame lift-off stabilization in the presence of laser-ignition: a numerical study, Combustion Theory and Modelling, 2015, DOI:10.1080/13647830.2015.1077997. 2015
2. M. Jangi, T Lucchini, C Gong, XS Bai, Effects of fuel cetane number on the structure of diesel spray combustion: An accelerated Eulerian stochastic fields method, Combustion Theory and Modelling, 19 (2015),1-19.
3. M. Jangi, D. Haworth, X.S. Bai, Stabilization and liftoff of a partially premixed methane/air jet flame discharging into a high-temperature environment Chemistry coordinate mapping approach for accelerating transported PDF method. Combustion and Flame, 162 (2015) 408-419.
4. K.M. Pang,M. Jangi, X.S. Bai, J. Schramm, Evaluation and Optimization of Phenomenological MultiStep Soot Model for Spray Combustion under Diesel Engine-like Operating Conditions, Combustion Theory and Modeling, 19 (2015), 279-308.
5. M. Jangi, R. Solsjo, B. Johansson, X.S. Bai, On large eddy simulation of evaporating disel spray, Int. J. Heat and Fluid Flow, 53 (2015), 68-80.
6. C. Gong, M. Jangi, X.S. Bai, Large eddy simulation of n-Dodecane spray combustion in a high pressure combustion vessel, Applied energy, 136 (2014), 373-381.
7. C. Gong, M. Jangi, T. Lucchini, G. D’Errico, X.S. Bai, Large eddy simulation of air entrainment and mixing in reacting and non-reacting diesel sprays, Flow turbulence and combustion, Flow Turbulence Combust (2014) 93:385–404
8. G. D’Errico, T. Lucchini, F. Contino, M. Jangi, X.S. Bai, Comparison of well-mixed and multiple representative interactive flamelet approaches for Diesel spray combustion modelling, Combustion Theory and Modelling 18 (1), 65-88.
9. M. Jangi, T. Luccini, G. D’Erico, X.S. Bai, Effects of EGR on the structure and emissions of diesel combustion. Proc. Combust. Inst., 2013 (34), Pages 3091-3098.
10. M. Jangi, X.S. Bai, Multidimensional chemistry coordinate mapping approach for combustion modelling with finite-rate chemistry, Combustion theory and modeling, Vol. 16, No. 6, 2012, 1109-1132.
11. R. Solsjo, M. Jangi, C. Chartier, O. Andersson, X.S. Bai, Lift-off and stabilization of
n-heptane combustion in a Diesel engine with a multiple-nozzle injection. Proc. Combust. Inst.,2013 (34), Pages 3031-3038.
12. M. Jangi, R. Yu, X.S. Bai, Development of chemistry coordinate mapping approach for partially premixed combustion, Flow turbulence and combustion, DOI 10.1007/s10494-012-9412-1.
13. M. Jangi, R. Yu, X.S. Bai, A multi-zone chemistry mapping approach for direct numerical simulation of auto-ignition and flame propagation in a constant volume enclosure, Combustion theory and modeling, 16: 221-249 (2012).2
14. M. Jangi, B.D. Shaw, H. Kobayashi, Thermal-drag Instability and Transition from Quasi-steady to Highly-unsteady Combustion of a Fuel Droplet in the Presence of Upstream Velocity Oscillations, Flow, turbulence and combustion 84: 97-123 (2010).
15. M. Jangi, H. Kobayashi, The Response of Droplet Combustion to the Upstream Velocity Oscillation: The Mechanisms of Enhancement and Hysteresis of Burning Rate, Combustion and flame 157: 91-105 (2010).
16. M. Jangi, S. Sakurai, Y. Ogami, H. Kobayashi, On the Validity of Quasi-steady Assumption in Transient Droplet Combustion, Combustion and flame, 156: 99-105 (2009).
17. M. Jangi and H. Kobayashi, Heat and Mass Transfer of a Fuel Droplet Evaporating in Oscillatory Flow, International Journal of Heat and Fluid Flow, 30: 729-740 (2009).
18. Y. Ogami, S. Sakurai, S. Hasegawa, M. Jangi, Hisashi Nakamura, Kentaro Yoshinaga and Hideaki Kobayashi, Microgravity Experiments of Single Droplet Combustion In Oscillatory Flow At Elevated Pressure, Proceeding of the Combustion Institute, 32: 2171-2178 (2009).