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Transient Modeling and Performance Analysis of Hydrogen-Fueled Aero Engines

Xiting Wang, Ai He, Zhongzhi Hu

2023Processes14 citationsDOIOpen Access PDF

Abstract

With the combustor burning hydrogen, as well as the strongly coupled fuel and cooling system, the configuration of a hydrogen-fueled aero engine is more complex than that of a conventional aero engine. The performance, and especially the dynamic behavior of a hydrogen-fueled aero engine, need to be fully understood for engine system design and optimization. In this paper, both the transient modeling and performance analysis of hydrogen-fueled engines are presented. Firstly, the models specific to the hydrogen-fueled engine components and systems, including the hydrogen-fueled combustor, the steam injection system, a simplified model for a quick NOx emission assessment, and the heat exchangers, are developed and then integrated to a conventional engine models. The simulations with both Simulink and Speedgoat-based hardware in the loop system are carried out. Secondly, the performance analysis is performed for a typical turbofan engine configuration, CF6, and for the two hydrogen-fueled engine configurations, ENABLEH2 and HySIITE, which are currently under research and development by the European Union and Pratt & Whitney, respectively. At last, the simulation results demonstrate that the developed transient models can effectively reflect the characteristics of hydrogen burning, heat exchanging, and NOx emission for hydrogen-fueled engines. In most cases, the hydrogen-fueled engines show lower specific fuel consumption, lower turbine entry temperature, and less NOx emissions compared with conventional engines. For example, at max thrust state, the advanced hydrogen-fueled engine can reduce the parameters mentioned above by about 68.5%, 3.7%, and 12.7%, respectively (a mean value of two configurations).

Topics & Concepts

TurbofanCombustorTransient (computer programming)Automotive engineeringNOxHydrogen vehicleHydrogenCold start (automotive)Nuclear engineeringEngine efficiencyHydrogen fuelEngineeringEnvironmental scienceComputer scienceMechanical engineeringCombustionInternal combustion engineChemistryPetrol engineOperating systemOrganic chemistryAdvanced Combustion Engine TechnologiesRocket and propulsion systems researchAdvanced Aircraft Design and Technologies