Computational analysis is conducted to study the effect of an linear aerospike engine plume on the X-33 base-heating environment during ascent flight. To properly account for the freestream-body interaction and to allow for potential plume-induced flow-separation, the thermo-flowfield of the entire vehicle at several trajectory points is computed. A sequential grid-refinement technique is used in conjunction with solution-adaptive, patched, and embedded grid methods to limit the model to a manageable size. The computational methodology is based on a three-dimensional, finite-difference, viscous flow, chemically reacting, pressure-based computational fluid dynamics formulation, and a three-dimensional, finite-volume, spectral-line based weig...
A three-dimensional, unstructured-grid, pressure-based, reacting flow, computational fluid dynamics ...
The goal of the NASA Reusable Launch Vehicle (RLV) technology program is to mature and demonstrate e...
Laminar and turbulent heating-rate calculations from an "engineering" code and laminar calculations ...
A computational heat transfer methodology was developed to study the dual-engine linear aerospike pl...
A computational heat transfer design methodology was developed to study tbe dual-engine linear aeros...
Base heating characteristics is crucial to the success and the overall performance of the X-33 engin...
Design of the thermal protection system for any hypersonic flight vehicle requires determination of ...
Radiative equilibrium surface temperatures and surface heating rates from a combined inviscid-bounda...
Critical technologies are being developed to support the goals of the NASA Office of Aeronautics and...
Computer programs and engineering methods for calculating heating rates and forces in jet plume impi...
Radiative equilibrium surface temperatures, heating rates, streamlines, surface pressures, and flow-...
The flow field around generic space launch vehicles with hot exhaust plumes is investigated numerica...
Excessive base heating has been a problem for many launch vehicles. For certain designs such as the ...
The NASA Space Launch System (SLS) vehicle is composed of four RS-25 liquid oxygen- hydrogen rocket ...
The objective of this study is to propose a computational methodology that can effectively anchor th...
A three-dimensional, unstructured-grid, pressure-based, reacting flow, computational fluid dynamics ...
The goal of the NASA Reusable Launch Vehicle (RLV) technology program is to mature and demonstrate e...
Laminar and turbulent heating-rate calculations from an "engineering" code and laminar calculations ...
A computational heat transfer methodology was developed to study the dual-engine linear aerospike pl...
A computational heat transfer design methodology was developed to study tbe dual-engine linear aeros...
Base heating characteristics is crucial to the success and the overall performance of the X-33 engin...
Design of the thermal protection system for any hypersonic flight vehicle requires determination of ...
Radiative equilibrium surface temperatures and surface heating rates from a combined inviscid-bounda...
Critical technologies are being developed to support the goals of the NASA Office of Aeronautics and...
Computer programs and engineering methods for calculating heating rates and forces in jet plume impi...
Radiative equilibrium surface temperatures, heating rates, streamlines, surface pressures, and flow-...
The flow field around generic space launch vehicles with hot exhaust plumes is investigated numerica...
Excessive base heating has been a problem for many launch vehicles. For certain designs such as the ...
The NASA Space Launch System (SLS) vehicle is composed of four RS-25 liquid oxygen- hydrogen rocket ...
The objective of this study is to propose a computational methodology that can effectively anchor th...
A three-dimensional, unstructured-grid, pressure-based, reacting flow, computational fluid dynamics ...
The goal of the NASA Reusable Launch Vehicle (RLV) technology program is to mature and demonstrate e...
Laminar and turbulent heating-rate calculations from an "engineering" code and laminar calculations ...