In order to solve the simulation problem of steady compressible turbulent combustion, a small scale high performance parallel cluster system was designed. It based on the open source CFD platform OpenFOAM, and was used to to simulate the bluff-body stabilized Sydney flame hm1 which refers to the detailed chemical kinetic mechanisms of coal gas and air combustion reaction. The flow of combustion reaction component concentration distribution and temperature curve diagram are plotted according to the computational results. The comparison between the simulation and the experimental results shows that this parallel cluster system has efficient computation for steady compressible turbulent combustion flow.
목차
Abstract 1. Introduction 2. Design of Parallel Computation Platform 2.1. Software Configuration 2.2. SSH Server 2.3. Hardware Configuration 3. The Performance Analysis of Cluster System 3.1. HPL Arithmetic Brief Description 3.2. Factors of Influence Performance 3.3. NB-the Size of a Block Matrix 3.4. PXQ- distribution of Process Gird 3.5. The Correspondences between Process and Processor 4. The Summarization of Analysis for Test Results 4.1. Efficiency of Single Node 4.2. Communication among Nodes 5. The Parallel Computation of Openfoam on Cluster System 5.1. Partition Algorithm 5.2. Example and Test 5.3. The Simulation Results and Analysis 5.4. The Computational Process and Results of Analysis Calculation 5.5. The Analysis of Parallel Effect 6. Conclusions Acknowledgements References
보안공학연구지원센터(IJHIT) [Science & Engineering Research Support Center, Republic of Korea(IJHIT)]
설립연도
2006
분야
공학>컴퓨터학
소개
1. 보안공학에 대한 각종 조사 및 연구
2. 보안공학에 대한 응용기술 연구 및 발표
3. 보안공학에 관한 각종 학술 발표회 및 전시회 개최
4. 보안공학 기술의 상호 협조 및 정보교환
5. 보안공학에 관한 표준화 사업 및 규격의 제정
6. 보안공학에 관한 산학연 협동의 증진
7. 국제적 학술 교류 및 기술 협력
8. 보안공학에 관한 논문지 발간
9. 기타 본 회 목적 달성에 필요한 사업
간행물
간행물명
International Journal of Hybrid Information Technology
간기
격월간
pISSN
1738-9968
수록기간
2008~2016
십진분류
KDC 505DDC 605
이 권호 내 다른 논문 / International Journal of Hybrid Information Technology Vol.8 No.2