Multi-Fidelity Combustor Design and Experimental Test for a Micro Gas Turbine System

A multi-fidelity micro combustor design approach is developed for a small-scale combined heat and power CHP system. The characterised by the coupling of preliminary model using method 3D high-fidelity modelling experimental testing. integrated multi-physics schemes their underlying interactions are initially provided. During phase, rapid exploration achieved coupled reduced-order models, where details combustion chamber layout, flow distributions, burner geometry defined as well basic performance. then followed to provide insights into detailed emission physics, which explores effect parameters optimises design. fabricated assembled in MGT test bench. performed indicates that designed successfully implemented models verified validated against data. refinement on lower-order given based acquired methods. shortage conventional fossil fuels continued demand energy supplies have led development micro-turbine system running renewable fuels. Numerical analysis carried out assess potential operation biogas terms It produces less NOx but presents flame stabilisation challenge at lower methane content. strategy address also