Radiative equilibrium surface temperatures and surface heating rates from a combined inviscid-boundary layer method are presented for the X-34 Reusable Launch Vehicle for several points along the hypersonic descent portion of its trajectory. Inviscid, perfect-gas solutions are generated with the Langley Aerothermodynamic Upwind Relaxation Algorithm (LAURA) and the Data-Parallel Lower-Upper Relaxation (DPLUR) code. Surface temperatures and heating rates are then computed using the Langley Approximate Three-Dimensional Convective Heating (LATCH) engineering code employing both laminar and turbulent flow models. The combined inviscid-boundary layer method provides accurate predictions of surface temperatures over most of the vehicle and requir...
textTurbulent boundary layers approximating those found on the NASA Orion Multi-Purpose Crew Vehicle...
The objective is to provide useful engineering formulations and to instill a modest degree of physic...
An integral method for predicting boundary layer development in turbulent flow regions on two-dimens...
Radiative equilibrium surface temperatures and surface heating rates from a combined inviscid-bounda...
Design of the thermal protection system for any hypersonic flight vehicle requires determination of ...
Radiative equilibrium surface temperatures, heating rates, streamlines, surface pressures, and flow-...
Critical technologies are being developed to support the goals of the NASA Office of Aeronautics and...
A typical entry vehicle design depends on the synthesis of many essential subsystems, including ther...
Orbital launch vehicles with re-useable major components or stages provide the potential to decrease...
Computational analysis is conducted to study the effect of an linear aerospike engine plume on the X...
The results are presented for the stagnation-point heat-transfer rates used in the design process of...
The Mars Science Laboratory heatshield was designed to withstand a fully turbulent heat pulse based ...
The aerodynamic and aerothermal heating at the leeward surfaces of the Apollo capsule flying high an...
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 ...
textTurbulent boundary layers approximating those found on the NASA Orion Multi-Purpose Crew Vehicle...
The objective is to provide useful engineering formulations and to instill a modest degree of physic...
An integral method for predicting boundary layer development in turbulent flow regions on two-dimens...
Radiative equilibrium surface temperatures and surface heating rates from a combined inviscid-bounda...
Design of the thermal protection system for any hypersonic flight vehicle requires determination of ...
Radiative equilibrium surface temperatures, heating rates, streamlines, surface pressures, and flow-...
Critical technologies are being developed to support the goals of the NASA Office of Aeronautics and...
A typical entry vehicle design depends on the synthesis of many essential subsystems, including ther...
Orbital launch vehicles with re-useable major components or stages provide the potential to decrease...
Computational analysis is conducted to study the effect of an linear aerospike engine plume on the X...
The results are presented for the stagnation-point heat-transfer rates used in the design process of...
The Mars Science Laboratory heatshield was designed to withstand a fully turbulent heat pulse based ...
The aerodynamic and aerothermal heating at the leeward surfaces of the Apollo capsule flying high an...
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 ...
textTurbulent boundary layers approximating those found on the NASA Orion Multi-Purpose Crew Vehicle...
The objective is to provide useful engineering formulations and to instill a modest degree of physic...
An integral method for predicting boundary layer development in turbulent flow regions on two-dimens...