A Simple Solution for Maximum Range Flight

Within the standard framework of quasi-steady flight, this paper derives a speed that realizes the maximal obtainable range per unit of fuel. If this speed is chosen at each instant of a flight plan $h(x)$ giving altitude $h$ as a function of distance $x$, a variational problem for finding an optimal $h(x)$ can be formulated and solved. It yields flight plans with maximal range, and these turn out to consist of mainly three phases using the optimal speed: starting with a climb at maximal continuous admissible thrust, ending with a continuous descent at idle thrust, and in between with a transition based on a solution of the Euler-Lagrange equation for the variational problem. A similar variational problem is derived and solved for speed-restricted flights, e.g. at 250 KIAS below 10000 ft. In contrast to the literature, the approach of this paper does not need more than standard ordinary differential equations solving variational problems to derive range-optimal trajectories. Various numerical examplesbased on a Standard Business Jet are added for illustration.