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...

Deskribapen osoa

Xehetasun bibliografikoak
Egile Nagusiak:	Hufgard, F, Löhle, S, Hermann, T, Schweikert, S, McGilvray, M, Von Wolfersdorf, J, Steelant, J, Fasoulas, S
Formatua:	Conference item
Argitaratua:	2018

Antzeko izenburuak

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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