Robust object-oriented formulation of directed thermofluid stream networks
Dirk Zimmer
Abstract
Object-oriented formulation of thermal fluid streams often yields large non-linear equation systems whose numerical solution is difficult to achieve. This paper revisits the fundamental equations for thermal fluid streams and introduces a new term: the steady mass flow pressure $$\hat p$$pˆ. Using this term, the equations can be brought into a form where all non-linear computations are explicit. This enables a robust and object-oriented formulation of even complex architectures. The modelling of aircraft environmental control systems is presented as one possible application example.
Topics & Concepts
ComputationComputer scienceObject (grammar)Control theory (sociology)Term (time)Applied mathematicsMathematical optimizationControl engineeringMathematicsAlgorithmControl (management)EngineeringArtificial intelligencePhysicsQuantum mechanicsModeling and Simulation SystemsSimulation Techniques and ApplicationsAdvanced Control Systems Optimization