Current status of soot modeling applied to diesel combustion simulations(Diesel Engines, Combustion Modeling I)
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, we will briefly review the soot modeling approaches that have been proposed for diesel combustion studies. Beginning from Hiroyasu's model, to Fusco's model, and then to a complex-chemistry coupled phenomenological model, we will compare the results predicted using these three models for one engine case, and put the future application of soot modeling into perspective.
- 社団法人日本機械学会の論文
- 2004-08-02
著者
-
Foster David
Univ. Wisconsin‐madison Wi Usa
-
TAO Feng
Engine Research Center, University of Wisconsin-Madison Madison
-
SRINIVAS Sukhin
Engine Research Center, University of Wisconsin-Madison Madison
-
REITZ Rolf
Engine Research Center, University of Wisconsin-Madison Madison
-
FOSTER David
Engine Research Center, University of Wisconsin-Madison Madison
-
Srinivas Sukhin
Engine Research Center University Of Wisconsin-madison Madison
-
Tao Feng
Engine Research Center University Of Wisconsin-madison Madison
-
Reitz Rolf
Engine Research Center University Of Wisconsin-madison Madison
-
Reitz Rolf
Engine Research Center Department Of Mechanical Engineering University Of Wisconsin-madison
-
Foster David
Engine Research Center University Of Wisconsin-madison
-
Foster David
Engine Research Center (erc) University Of Wisconsin-madison
関連論文
- Comparison of Three Soot Models Applied to Multi-Dimensional Diesel Combustion Simulations(Advanced Combustion Technology in Internal Combustion Engines)
- Current status of soot modeling applied to diesel combustion simulations(Diesel Engines, Combustion Modeling I)
- C_2H_4 Decomposition Behavior of a Non-Thermal Plasma Discharge-Photocatalyst System for an Air Purifying Device
- The Effect of Intake Boost Pressure on MK (Modulated Kinetics) Combustion
- EM3-1: Impact of Filtration Velocities and Particulate Matter Characteristics on Diesel Particulate Filter Wall Loading Performance(EM: Exhaust Emission Control and Measurement,General Session Papers)
- Effect of Radiation on Diesel Engine Combustion and Heat Transfer