Debiane, L.Ivorra, Benjamín Pierre PaulMohammadi, BijanNicoud, F.Poinsot, Th.Ern, A.Pitsch, H.2023-06-202023-06-2020061061-856210.1080/10618560600771758https://hdl.handle.net/20.500.14352/51337Controlling flame shapes and emissions is a major objective for all combustion engineers. Considering the complexity of reacting flows, new optimization methods are required: this paper explores the application of control theory for partial differential equations to combustion. Both flame temperature and pollutant levels are optimized in a laminar Bunsen burner computed with complex chemistry using a recursive semi-deterministic global optimization algorithm. In order to keep computational time low, the optimization procedure is coupled with mesh adaptation and incomplete gradient techniques.engjournal articlehttp://www.tandfonline.com/doi/abs/10.1080/10618560600771758#.VSuow_msW0Jhttp://www.tandfonline.comopen access544.452519.8CombustionBunsen flamePollutionOptimizationIncomplete sensitivityMesh adaptationTermodinámicaInvestigación operativa (Matemáticas)2213 Termodinámica1207 Investigación Operativa