원문정보
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초록
영어
In this paper numerical simulation and experimental study was carried out for a tangential inlet air swirl burner which is used for high heat value biomass gas. Study on the different inlet angle effects on Combustion by numerical method. The results of the study show that the 30 degree is the best. The intake angle burner 30 degrees were tested to verify the accuracy of simulation results. Through the comparative analysis of the trajectory and the velocity of the air, the method and the conclusion of the simulation study are reliable.
목차
Abstract
1. Introduction
2. Research Objects, Methods and Techniques
2.1. Research Object and Method
2.2. Technical Roadmap
3. Numerical Simulation of Biomass Swirl Burner
3.1. Model Establishment and Boundary Conditions Setting
3.2. Analysis of Simulation Results
3.3. Aerodynamic Field simulation under the Optimal Inlet Deflection Angle
4. Cold Test of Optimal Deflection Angle Burner
4.1. Apparatus and Methods
4.2. The Process of Test
4.3. Comparison of Experimental Results and Simulation Results
5. Conclusion
Acknowledgments
References
1. Introduction
2. Research Objects, Methods and Techniques
2.1. Research Object and Method
2.2. Technical Roadmap
3. Numerical Simulation of Biomass Swirl Burner
3.1. Model Establishment and Boundary Conditions Setting
3.2. Analysis of Simulation Results
3.3. Aerodynamic Field simulation under the Optimal Inlet Deflection Angle
4. Cold Test of Optimal Deflection Angle Burner
4.1. Apparatus and Methods
4.2. The Process of Test
4.3. Comparison of Experimental Results and Simulation Results
5. Conclusion
Acknowledgments
References
저자정보
참고문헌
자료제공 : 네이버학술정보