Comparative study of hydrogen and kerosene commercial aircraft with advanced airframe and propulsion technologies for more sustainable aviation

Karpuk, Stanislav; Elham, Ali

doi:10.1177/09544100221144342

Cited by 2 publications

(1 citation statement)

References 52 publications

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“…Automation stands out as a crucial facilitator in this regard, as it not only enhances precision and reproducibility but also enables reductions in both test time and energy consumption [5,6]. This task has become increasingly complex since the emergence of new propulsion systems that promise significant reductions in environmental emissions [7], increasing the complexity of the facilities [8]. Moreover, future propulsion systems will utilize their full operational potential [9] and require increased performance in the testbed-test specimen connection [10].…”

Section: Introductionmentioning

confidence: 99%

Asymmetric Flow Phenomena Affecting the Characterization of the Control Plant of an Altitude Test Facility for Aircraft Engines

Roth,

Hartmann,

Schiewe

et al. 2023

Symmetry

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As an indispensable part of the engine manufacturer supply chain, the eco-efficiency of altitude test facility (ATF) operations must improve. Automation is a key enabler in this context since it not only increases precision and reproducibility but also allows for reducing the test time and energy consumption. A suitable controller and reliable validation are crucial to ensure the stability and appropriate response of the control system. Both aspects necessitate a thorough understanding of the control plant, expressed in a numerical model. These models have to be suitable for control system design and validation while covering asymmetric flow phenomena that occur in the pipe system and detailing the nonlinear system dynamics to a high degree of accuracy. One-dimensional network models, state-space models, highly resolving numerical models, and data-driven models are relevant applications for this task. We compare the results of state-of-the-art one-dimensional network models which mainly imply symmetric flow conditions with those of three-dimensional Reynolds-averaged-Navier–Stokes (RANS) simulations which cover asymmetric flow phenomena. The findings show that the assumptions of idealized, axis-symmetric flow in the one-dimensional flow elements do not hold true for the complex flows in an altitude test facility. In a second step, we have compared the results of one-dimensional simulations with in-service measurements taken during ATF test campaigns. Deviations were observed, which become explainable based on the insights gained from the comparison with the RANS simulation. The findings reveal that the one-dimensional simulation-based approach is insufficient to adequately reflect the plant and subsequently for validation due to the observed asymmetric flow phenomena. To overcome this limitation, the application of an empirical first-order transfer function using system identification methods is proposed. Its applicability is successfully demonstrated for the exhaust gas section of the ATF. Subsequently, essential criteria for the design of a suitable control concept for the outlet condition are derived.

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Section: Introductionmentioning

confidence: 99%

Asymmetric Flow Phenomena Affecting the Characterization of the Control Plant of an Altitude Test Facility for Aircraft Engines

Roth,

Hartmann,

Schiewe

et al. 2023

Symmetry

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Parametric analysis of the oil pressure limiter built on the influence on the diaphragm compressors for hydrogen refueling stations

Ren,

Zhao,

Diao

et al. 2024

Proceedings of the Institution of Mechanical Engineers, Part C:

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The oil pressure limiter is crucial for ensuring the steady operation of the diaphragm compressor, but there is a lack of systematic research on its design method. This study conducted a theoretical analysis of the operation characteristics of the oil pressure limiter in diaphragm compressors, and established a simulation model. Furthermore, a test rig for the oil system of a 90 MPa diaphragm compressor was built to verify the accuracy of the model. The results indicated that the simulated oil pressure curve was in good agreement with the measured curve during the oil overflow process, which confirmed the reliability of the model used to study the oil pressure limiter. The study found that the operational stability of the pressure limiter was significantly influenced by the spring stiffness and valve ball diameter. The oil overflow pressure of the compressor could be made more precise and stable by increasing the valve ball diameter, but the structural size should also be sensible.

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Comparative study of hydrogen and kerosene commercial aircraft with advanced airframe and propulsion technologies for more sustainable aviation

Cited by 2 publications

References 52 publications

Asymmetric Flow Phenomena Affecting the Characterization of the Control Plant of an Altitude Test Facility for Aircraft Engines

Asymmetric Flow Phenomena Affecting the Characterization of the Control Plant of an Altitude Test Facility for Aircraft Engines

Parametric analysis of the oil pressure limiter built on the influence on the diaphragm compressors for hydrogen refueling stations

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