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OSCILOS_opt
PublicOSCILOS_opt is a variant of OSCILOS_lite. It allows the user to optimise a thermoacoustically unstable combustor by varying the combustor dimensions. The optimisation implements a genetic algorithm. OSCILOS_opt is written in Matlab®, and has no Graphical User Interface (GUI), so users run the code using Matlab commands.OSCILOS_brass
PublicOSCILOS_brass is an acoustic solver for predicting the natural modes of brass wind instruments from their geometry. OSCILOS_brass was developed at Imperial College London by Alexander MacLaren, Renaud Gaudron, and Aimee S. Morgans. The code is open source and written in MATLAB.OSCILOS_long
PublicOSCILOS_long is an open source code for simulating combustion instabilities. OSCILOS_lite was developed at Imperial College London by Prof. Aimee S. Morgans and co-workers. The code is open source and written in MATLAB.OSCILOS_sim
PublicFor the special cases of combustors which can represented as a constant area duct (such as Rijke tubes), time domain simulations can be performed using Simulink®. OSCILOS_Sim, a Simulink library which provides the building blocks for such simulations is included here, along with a brief User Guide. OSCILOS_SIM includes provision to simulate the …OSCILOS_ann
PublicOSCILOS_ann is the full version of OSCILOS for annular-shaped combustors, or combustors which can be represented as a network of annular and longitudinal geometry modules. It has capability for frequency domain calculations. OSCILOS_ann is for geometries which can sustain both longitudinal and circumferential modes.OSCILOS_lite
PublicOSCILOS_lite is an acoustic network model tool that can be used to predict the longitudinal acoustic modes appearing in reactive and non-reactive geometries. It can thus be used to predict the thermoacoustic stability of combustors. OSCILOS_lite was developed at Imperial College London by Renaud Gaudron, Alexander MacLaren, and Aimee S. Morgans.…