Analysis of porous materials for transpiration cooled heat flux sensor
development

Analysis of porous materials for transpiration cooled heat flux sensor development

The Non-Integer System Identification (NISI) method is an useful tool for the determination of surface heat flux from in-depth temperature data even in transpiration cooled environments. Recently it was demonstrated that in these transpiration cooled environments the surface heat flux can be determi...

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Bibliografiske detaljer
Main Authors:	Hufgard, F, Löhle, S, Hermann, T, Schweikert, S, McGilvray, M, Von Wolfersdorf, J, Steelant, J, Fasoulas, S
Format:	Conference item
Udgivet:	2018

Lignende værker

Plenum pressure behavior in transiently heat loaded transpiration cooling system
af: Hufgard, F, et al.
Udgivet: (2020)

A heat flux sensor based on transpiration cooling
af: Hufgard, F, et al.
Udgivet: (2020)

Thermal impulse response in porous media for transpiration cooling systems
af: Hermann, T, et al.
Udgivet: (2020)

Thermal Impulse Response in Porous Media for Transpiration Cooling Systems - Dataset
af: Hermann, T, et al.
Udgivet: (2022)

Fluid-solid heat exchange in porous media for transpiration cooling systems
af: Hermann, T, et al.
Udgivet: (2019)

Analytical solution of flows in porous media for transpiration cooling applications
af: Hermann, T, et al.
Udgivet: (2021)

Transpiration cooling at Mach 5 employing porous UHTC
af: Ifti, H, et al.
Udgivet: (2019)

Analytical Solution of Flows in Porous Media for Transpiration Cooling Applications - Dataset
af: Hermann, T, et al.
Udgivet: (2022)

Performance of transpiration cooled heat shields for re-entry vehicles
af: Hermann, T, et al.
Udgivet: (2019)

Performance of Transpiration Cooled Heat Shields for Re-entry Vehicles - Dataset
af: Hermann, T, et al.
Udgivet: (2022)

Quantifying the surface heat transfer on transpiration cooled porous materials in laminar and turbulent hypersonic boundary layers
af: Naved, I, et al.
Udgivet: (2022)

Flow characterization of porous ultra-high-temperature ceramics for transpiration cooling
af: Ifti, HS, et al.
Udgivet: (2022)

Flow characterisation of transpiring porous media for hypersonic vehicles
af: Ifti, H, et al.
Udgivet: (2018)

Flow Characterization of Porous Ultra-High-Temperature Ceramics for Transpiration Cooling - Dataset
af: Ifti, H S, et al.
Udgivet: (2022)

Aerodynamic effects and heat flux augmentation of a transpiration cooled hypersonic sharp leading edge
af: Ravichandran, R, et al.
Udgivet: (2023)

Tool for rapid transient transpiration cooled re-entry simulation
af: Hermann, T, et al.
Udgivet: (2019)

Numerical simulation of transpiration cooling with a two-dimensional substructure
af: Naved, I, et al.
Udgivet: (2019)

Tool for Rapid Transient Transpiration Cooled Re-Entry Simulation - Dataset
af: Hermann, T, et al.
Udgivet: (2022)

Gel-casting for manufacturing porous alumina ceramics with complex shapes for transpiration cooling
af: Belrhiti, Y, et al.
Udgivet: (2023)

Numerical simulation of transpiration cooling in a laminar hypersonic boundary layer
af: Ifti, HS, et al.
Udgivet: (2022)

Novel heat flux controlled surface cooling for hypersonic flight
af: Fabian Hufgard, et al.
Udgivet: (2023-08-01)

Numerical Simulation of Transpiration Cooling for a High-Speed Vehicle with Substructure - Dataset
af: Naved, I, et al.
Udgivet: (2022)

Numerical simulation of transpiration cooling for a high speed vehicle with substructure
af: Naved, I, et al.
Udgivet: (2021)

Numerical Simulation of Transpiration Cooling in a Laminar Hypersonic Boundary Layer - Dataset
af: Ifti, H S, et al.
Udgivet: (2022)

Transpiration-cooling heat transfer experiments in laminar and turbulent hypersonic flows
af: Naved, I, et al.
Udgivet: (2022)

Testing a transpiration cooled Zirconium-Di-Boride sample in the plasma tunnel at IRS
af: Ewenz Rocher, M, et al.
Udgivet: (2019)

Oxidation response of transpiration-cooled ZrB2 on a hypersonic stagnation point
af: Ewenz Rocher, M, et al.
Udgivet: (2022)

Experimental studies of hypersonic shock impingement on a transpiration-cooled flat plate
af: Naved, I, et al.
Udgivet: (2023)

Laminar transpiration cooling experiments in hypersonic flow
af: Ifti, HS, et al.
Udgivet: (2022)

Oxidation Response of Transpiration Cooled ZrB2 on a Hypersonic Stagnation Point - Dataset
af: Ewenz Rocher, M, et al.
Udgivet: (2022)

Laminar transpiration cooling experiments in hypersonic flow - Dataset
af: Ifti, H S, et al.
Udgivet: (2022)

Measuring the concentration of freestream species on a hypersonic transpiration-cooled stagnation point
af: Ewenz Rocher, M, et al.
Udgivet: (2022)

Studying the film effectiveness of transpiration cooled walls using pressure sensitive paint
af: Ewenz Rocher, M, et al.
Udgivet: (2019)

Heat transfer measurements of a transpiration-cooled stagnation point in transient hypersonic flow
af: Naved, I, et al.
Udgivet: (2022)

Measuring the concentration of freestream species on a hypersonic transpiration-cooled stagnation point - Dataset
af: Ewenz Rocher, M, et al.
Udgivet: (2022)

Mixing characteristics in a hypersonic flow around a transpiration cooled flat plate model
af: Hermann, T, et al.
Udgivet: (2018)

Stagnation point heat flux measurements in a plasma wind tunnel using a diamond heat transfer gauge
af: Penty Geraets, R, et al.
Udgivet: (2019)

Numerical simulation of transpiration cooling on stagnation line in thermochemical non-equilibrium
af: Brody, S, et al.
Udgivet: (2024)

Heat Transfer Measurements of a Transpiration-Cooled Stagnation Point in Transient Hypersonic Flow - Dataset
af: Naved, I, et al.
Udgivet: (2022)

Mixing Characteristics in a Hypersonic Flow around a Transpiration Cooled Flat Plate Model - Dataset
af: Hermann, T, et al.
Udgivet: (2022)