Compact tuned exhaust system for aircraft with reciprocating engines
First Claim
1. A method for tuning a sound attenuated, exhaust system of a four-cylinder aircraft engine to improve engine performance and reduce fuel consumption comprising the steps of:
- a) determining a total length for each exhaust channel;
b) positioning one set of two exhaust channels with headers having a first trajectory on one side of the heat exchanger arrangement which communicates directly through one endplate of the heat exchanger box and traverses a distance to an opposite endplate on an opposite side prior to bending the first set of two exhaust channels approximately 180°
to reverse the direction of each channel and subsequently directing each channel downward, at an angle of approximately 70°
, into the exit portion of the heat exchanger box on the one side, forming one set of two exhaust channels;
c) positioning a second set of two exhaust channels with headers having a second trajectory, the second trajectory having a greater length than the first trajectory, on the opposite side of the heat exchanger arrangement, the headers having a second trajectory are bent into a U turn before communicating directly through the opposite endplate of the heat exchanger box and traversing a distance to the one endplate prior to being bent approximately 90°
in the direction of the exit portion of the heat exchanger box on the one side, forming a second set of two exhaust channels;
d) creating an exit portion of the heat exchanger box wherein both the first set of exhaust channels and the second set of exhaust channels empty into a single collector; and
e) adding an exhaust tube having a muffler connected to the single collector for noise attenuation.
1 Assignment
0 Petitions
Accused Products
Abstract
A tuned exhaust system for a multi-cylinder, reciprocating, internal combustion engine is disclosed. Each exhaust tube has approximately the same overall length resulting in a predetermined resonant frequency. The overall length includes the sum of the header tube length and the internal length of the collector assembly portions of the exhaust channels in the heat exchanger box. Calculating the correct length and bending the pipes to fit in the space available resulted in increased horsepower, reduced fuel consumption, cooler cylinder head temperatures, reduced noise and vibration for four-cylinder and six-cylinder aircraft engines.
21 Citations
2 Claims
-
1. A method for tuning a sound attenuated, exhaust system of a four-cylinder aircraft engine to improve engine performance and reduce fuel consumption comprising the steps of:
-
a) determining a total length for each exhaust channel;
b) positioning one set of two exhaust channels with headers having a first trajectory on one side of the heat exchanger arrangement which communicates directly through one endplate of the heat exchanger box and traverses a distance to an opposite endplate on an opposite side prior to bending the first set of two exhaust channels approximately 180°
to reverse the direction of each channel and subsequently directing each channel downward, at an angle of approximately 70°
, into the exit portion of the heat exchanger box on the one side, forming one set of two exhaust channels;
c) positioning a second set of two exhaust channels with headers having a second trajectory, the second trajectory having a greater length than the first trajectory, on the opposite side of the heat exchanger arrangement, the headers having a second trajectory are bent into a U turn before communicating directly through the opposite endplate of the heat exchanger box and traversing a distance to the one endplate prior to being bent approximately 90°
in the direction of the exit portion of the heat exchanger box on the one side, forming a second set of two exhaust channels;
d) creating an exit portion of the heat exchanger box wherein both the first set of exhaust channels and the second set of exhaust channels empty into a single collector; and
e) adding an exhaust tube having a muffler connected to the single collector for noise attenuation. - View Dependent Claims (2)
-
Specification