The overall objective of the Turbine Engine Hot Section Technology Combustion Project was to develop and verify improved and more accurate numerical analysis methods for increasing the ability to design with confidence combustion systems for advanced aircraft gas turbine engines. The objective was approached from two directions: computational and experimental. On the computational side, the approach was to first assess and evaluate existing combustor aerothermal analysis models. On the experimental side, three types of experiments are identified; first, fundamental experiments directed toward improved understanding of the flow physics and chemistry; second, experiments run to provide data for the empirical modeling of complex phenomena; and...
The main objectives of the Aerothermal Modeling Program, Phase 2 are: to develop an improved numeric...
NASA has instituted an extensive effort to improve the design process and data base for the hot sect...
The objectives of the HOST Turbine Heat Transfer subproject were to obtain a better understanding of...
The overall objective of the Turbine Engine Hot Section Technology Combustion Project is to develop ...
The objective of this effort is to develop improved analytical models of the internal combustor flow...
Research on combustion is being conducted at Lewis Research Center to provide improved analytical mo...
The Hot Section Technology (HOST) Project is a NASA-sponsored endeavor to improve the durability of ...
Presentations were made concerning the hot section environment and behavior of combustion liners, tu...
Research on combustion is being conducted to provide improved analytical models of the complex flow ...
One of the significant ways in which the performance level of aircraft turbine engines has been impr...
The Turbine Engine Hot Section Technology (HOST) Project of the NASA Lewis Research Center sponsored...
NASA sponsored the Turbine Engine Hot Section (HOST) project to address the need for improved durabi...
The goal of this research is to bring computational fluid dynamics to a state of practical applicati...
Presentations were made concerning the development of design analysis tools for combustor liners, tu...
The Turbine Engine Section Technology (HOST) Project Office of the Lewis Research Center sponsored a...
The main objectives of the Aerothermal Modeling Program, Phase 2 are: to develop an improved numeric...
NASA has instituted an extensive effort to improve the design process and data base for the hot sect...
The objectives of the HOST Turbine Heat Transfer subproject were to obtain a better understanding of...
The overall objective of the Turbine Engine Hot Section Technology Combustion Project is to develop ...
The objective of this effort is to develop improved analytical models of the internal combustor flow...
Research on combustion is being conducted at Lewis Research Center to provide improved analytical mo...
The Hot Section Technology (HOST) Project is a NASA-sponsored endeavor to improve the durability of ...
Presentations were made concerning the hot section environment and behavior of combustion liners, tu...
Research on combustion is being conducted to provide improved analytical models of the complex flow ...
One of the significant ways in which the performance level of aircraft turbine engines has been impr...
The Turbine Engine Hot Section Technology (HOST) Project of the NASA Lewis Research Center sponsored...
NASA sponsored the Turbine Engine Hot Section (HOST) project to address the need for improved durabi...
The goal of this research is to bring computational fluid dynamics to a state of practical applicati...
Presentations were made concerning the development of design analysis tools for combustor liners, tu...
The Turbine Engine Section Technology (HOST) Project Office of the Lewis Research Center sponsored a...
The main objectives of the Aerothermal Modeling Program, Phase 2 are: to develop an improved numeric...
NASA has instituted an extensive effort to improve the design process and data base for the hot sect...
The objectives of the HOST Turbine Heat Transfer subproject were to obtain a better understanding of...