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Integrated design optimization method for novel vapour-compression-cycle-based environmental control systems

Federica Ascione, Piero Colonna, Carlo De Servi

2023Applied Thermal Engineering12 citationsDOIOpen Access PDF

Abstract

The aircraft Environmental Control System (ECS) is the primary consumer of non-propulsive power at cruise conditions, hence, its performance optimization is crucial for the reduction of specific fuel consumption. A novel integrated system design optimization method is presented: thermodynamic cycle, components sizing and working fluid are taken into account simultaneously. This method was applied to the ECS of large rotorcraft based on a Vapour Compression Cycle system electrically driven by a high/̄speed centrifugal compressor. Steady/̄state and lumped parameters system components models have been developed using the Modelica acausal modelling language. The optimization design framework consists of an in-house code, featuring a Python/̄Modelica interface. The study case refers to a critical operating condition: the helicopter is on the ground during a hot and humid day. The working fluid is R/̄134a. The multi/̄objective optimization targets the maximization of the system efficiency and the minimization of system weight. The results show that more efficient systems can be designed only with heavier components. The design feasibility of high/̄speed centrifugal compressors is demonstrated. The advantage of an integrated system design optimization framework for complex energy systems is proved, allowing for the analysis of the impact of both components design and working fluid on system performance.

Topics & Concepts

Gas compressorSizingModelicaEngineeringSystems designEnvironmental control systemWorking fluidMaximizationAutomotive engineeringIntegrated designControl engineeringMechanical engineeringMathematical optimizationMathematicsArtSystems engineeringCivil engineeringVisual artsRefrigeration and Air Conditioning TechnologiesHeat Transfer and OptimizationAdvanced Combustion Engine Technologies