A method was developed for the design of propellers of minimum induced loss matched to an arbitrary operating point characterized by disc loading (thrust or power), air density, shaft speed, flight speed, and number of blades. A consistent procedure is outlined to predict the performance of these propellers under off design conditions, or to predict the performance of propellers of general geometry. The examples discussed include a man powered airplane, a hang glider with a 7.5 kW (10 hp) 8,000 rpm engine, and an airplane-like motorsoarer
The object of the present paper is to consider the interaction of engine, propeller, and airplane fo...
In the present paper I shall not consider the problem of the best arrangement of airplane and propel...
A theoretical analysis is presented for obtaining, by use of Theodorsen's propeller theory, the load...
The fundamental vortex theory for a single rotation propeller with a finite number of blades is revi...
The different kinds of energy losses of the propeller and the values of the constants determining th...
I am now proposing a method for the preliminary approximate calculation of the thrust distribution a...
The analytical approaches as well as the capabilities of three advanced analyses for predicting prop...
An analysis is given which enables the design of dual-rotation propellers. It relies on the use of a...
The vortex theory as presented by the author in earlier papers has been extended to permit the solut...
A procedure for use in the design of a wake adapted pumpjet mounted on the aft end of a body of revo...
The object of this report is to furnish the designer and builder of small airplanes a simple system ...
The choice of the numbers of revolutions and of the diameter, the distribution of thrust, and the va...
In this paper, we present a simple method for designing propellers that are placed upstream of the l...
The air flow and the air force created by all elements of the propeller blades lying in a ring locat...
Three advanced analyses for predicting aircraft propeller performance at high subsonic speeds are de...
The object of the present paper is to consider the interaction of engine, propeller, and airplane fo...
In the present paper I shall not consider the problem of the best arrangement of airplane and propel...
A theoretical analysis is presented for obtaining, by use of Theodorsen's propeller theory, the load...
The fundamental vortex theory for a single rotation propeller with a finite number of blades is revi...
The different kinds of energy losses of the propeller and the values of the constants determining th...
I am now proposing a method for the preliminary approximate calculation of the thrust distribution a...
The analytical approaches as well as the capabilities of three advanced analyses for predicting prop...
An analysis is given which enables the design of dual-rotation propellers. It relies on the use of a...
The vortex theory as presented by the author in earlier papers has been extended to permit the solut...
A procedure for use in the design of a wake adapted pumpjet mounted on the aft end of a body of revo...
The object of this report is to furnish the designer and builder of small airplanes a simple system ...
The choice of the numbers of revolutions and of the diameter, the distribution of thrust, and the va...
In this paper, we present a simple method for designing propellers that are placed upstream of the l...
The air flow and the air force created by all elements of the propeller blades lying in a ring locat...
Three advanced analyses for predicting aircraft propeller performance at high subsonic speeds are de...
The object of the present paper is to consider the interaction of engine, propeller, and airplane fo...
In the present paper I shall not consider the problem of the best arrangement of airplane and propel...
A theoretical analysis is presented for obtaining, by use of Theodorsen's propeller theory, the load...