Anumerical and an Experimental Study for Optimization of a Small Annular Combustor
The small annular combustor of a micro gas turbine fueled with methane is investigated experimentally and numerically in order to improve the overall efficiency of the small engine. The CFD analysis of the combustor relies on a newly developed low-Reynolds number turbulent combustion model based on the Eddy Dissipation Concept (EDC) and provides important insight about the turbulent flow pattern, flame shape, position and optimal flame anchoring. For the experimental observation, a model combustor, representing 120 degrees of the original annular combustor, is fabricated, which enables us to visualize internal flow. The burning area in the combustion chamber moves to downstream with increase of air flow rate. At full-load, some fuel remains at the combustion chamber exit. Moreover, temperatures are measured and compared with the numerical simulations. The results shown here will form the basis for future optimization of the micro gas turbine with minimal or no increase in combustor pressure loss.
Micro-GT Optimization Modeling Combustion Combustor
Norihiko Iki Andrea Gruber Hiro Yoshida
Energy Technology Research Institute, National Institute of Advanced Industrial Science and Technolo Department of Energy Processes, SINTEF Energy Research, K. Heiesvei 1a, 7465 Trondheim, Norway
国际会议
2007杭州国际动力工程会议(The International Conference on Power Engineering 2007)
杭州
英文
2007-10-23(万方平台首次上网日期,不代表论文的发表时间)