NASA Logo

NTRS

NTRS - NASA Technical Reports Server

The auto‑search feature has been disabled based on user feedback. Enter a search term/phrase and click “Search” to begin.

Back to Results
Optimum flight paths of turbojet aircraftThe climb of turbojet aircraft is analyzed and discussed including the accelerations. Three particular flight performances are examined: minimum time of climb, climb with minimum fuel consumption, and steepest climb. The theoretical results obtained from a previous study are put in a form that is suitable for application on the following simplifying assumptions: the Mach number is considered an independent variable instead of the velocity; the variations of the airplane mass due to fuel consumption are disregarded; the airplane polar is assumed to be parabolic; the path curvatures and the squares of the path angles are disregarded in the projection of the equation of motion on the normal to the path; lastly, an ideal turbojet with performance independent of the velocity is involved. The optimum Mach number for each flight condition is obtained from the solution of a sixth order equation in which the coefficients are functions of two fundamental parameters: the ratio of minimum drag in level flight to the thrust and the Mach number which represents the flight at constant altitude and maximum lift-drag ratio.
Document ID
19930093841
Acquisition Source
Legacy CDMS
Document Type
Other
Authors
Miele, Angelo
Date Acquired
August 16, 2013
Publication Date
September 1, 1955
Report/Patent Number
NACA-TM-1389
Report Number: NACA-TM-1389
Accession Number
93R23166
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
Keywords
CLIMBING SPEEDS - EFFECT OF ALTITUDE
AIRPLANES, JET - PERFORMANCE
ENGINES, TURBOJET - ACCELERATION
CLIMBING
FLIGHT PATHS
No Preview Available