초록 ▼

The invention relates to a continuous detonation wave engine and aircraft provided with such an engine. The continuous detonation wave engine (1) operates with a detonation mixture of fuel and oxidant and includes, in particular, a detonation chamber (3) comprising an injection base (10), the length

The invention relates to a continuous detonation wave engine and aircraft provided with such an engine. The continuous detonation wave engine (1) operates with a detonation mixture of fuel and oxidant and includes, in particular, a detonation chamber (3) comprising an injection base (10), the length of which is defined along an open line (17), such as to form a detonation chamber (3) having an elongate form in a transverse plane, as well as an injection system (4) arranged such as to inject the fuel/oxidant mixture into the detonation chamber (3) at at least one segment of the injection base (10).

대표청구항 ▼

1. Continuous detonation wave engine operating with a detonating fuel/oxidant mixture and comprising: at least one detonation chamber (3);a plurality of injection lines (31) for injecting the detonating fuel/oxidant mixture into said detonation chamber at an upstream end (5), said detonation chamber

1. Continuous detonation wave engine operating with a detonating fuel/oxidant mixture and comprising: at least one detonation chamber (3);a plurality of injection lines (31) for injecting the detonating fuel/oxidant mixture into said detonation chamber at an upstream end (5), said detonation chamber (3) comprising an injection base (10) at said upstream end, and two walls (12, 13) which extend on either side of this injection base; andinitiation means (8) which are disposed in said detonation chamber (3), to initiate in the detonating fuel/oxidant mixture a detonation wave (22) which is then propagated in said detonating fuel/oxidant mixture and is the cause of successive self-initiated detonation waves, so as to generate production of hot gases, escaping through a downstream end (9) of said detonation chamber (3), wherein said detonation chamber (3) comprises said injection base (10), so as to form said detonation chamber (3) having an elongate form in a transverse plane, and in that said injection lines are arranged along a propagation direction (F) of the detonation wave (22) so as to inject the detonating fuel/oxidant mixture into said detonation chamber (3) at a plurality of portions (20) of said injection base (10), the plurality of portions (20) arranged along the propagation direction (F);wherein said detonation chamber (3) has a bifurcation (27) at the injection base (10), providing at least two elongate branches (39, 40) beyond said bifurcation, and each of at least two elongate branches (39, 40) can be supplied independently and asymmetrically with detonating mixture by said injection lines (31), forming an annular detonation chamber with concentric extensions (39, 40) having respectively different radii and capable of being supplied independently and asymmetrically by the injection lines. 2. Engine according to claim 1, wherein said injection base (10) is defined by an open curved line (17). 3. Engine according to claim 1, wherein said injection base (10) has a rectangular shape and the detonation chamber has a rectangular parallelepiped shape. 4. Engine according to claim 1, wherein said injection lines are capable of producing the injection over a variable length. 5. Engine according to claim 1, wherein said engine comprises at least one cooling circuit for said detonation chamber, in which cooling circuit fuel can circulate before being injected into said detonation chamber. 6. Engine according to claim 5, wherein said cooling circuit extends along at least one side wall of said detonation chamber, over at least a portion of a length of said detonation chamber. 7. Engine according to claim 1, wherein said engine further comprises an annular detonation chamber (33, 36) and in that said detonation chamber (30) is connected to said annular detonation chamber (33, 36) so as to form a hybrid chamber (34, 37, 38). 8. Engine according to claim 7, wherein said hybrid chamber (37, 38) takes the form of said annular detonation chamber (36) provided with concentric extensions (39, 40) of variable feed lengths. 9. Engine according to claim 8, wherein said concentric extensions (39) are disposed outside said annular detonation chamber (36). 10. Engine according to claim 8, wherein said concentric extensions (40) are disposed inside said annular detonation chamber (36). 11. Energy generation system, in particular a gas turbine, wherein it said gas turbine is provided with at least one engine (1) as specified in claim 1. 12. Propulsive system for flying craft, in particular of the ramjet, turbine engine or rocket type, wherein said propulsive system is provided with at least one engine (1) as specified in claim 1. 13. Propulsive system according to claim 12, wherein said propulsive system is provided with at least two engines (1), each of which comprises injection lines capable of modulating the injection. 14. Flying craft, wherein said propulsive system is provided with at least one propulsive system (2) such as that specified in claim 12. 15. Continuous detonation wave engine operating with a detonating fuel/oxidant mixture and comprising: at least one detonation chamber (3);a plurality of injection lines (31) for injecting the detonating fuel/oxidant mixture into said detonation chamber at an upstream end (5), said detonation chamber (3) comprising an injection base (10) at said upstream end, and two walls (12, 13) which extend on either side of this injection base; andinitiation means (8) which are disposed in said detonation chamber (3), to initiate in the detonating fuel/oxidant mixture a detonation wave (22) which is then propagated in said detonating fuel/oxidant mixture and is the cause of successive self-initiated detonation waves, so as to generate production of hot gases, escaping through a downstream end (9) of said detonation chamber (3), wherein said detonation chamber (3) comprises said injection base (10) of which the length is defined by an open line (17, 18), so as to form said detonation chamber (3) having an elongate form in a transverse plane, and in that said injection lines (31) are disposed so as to inject the detonating fuel/oxidant mixture into said detonation chamber (3) at at least one portion (20) of said injection base (10), wherein:said detonation chamber (30) has a bifurcation (27) at the injection base (10), allowing at least two elongate branches (28, 29) to be created beyond said bifurcation, each of which can be supplied with detonating mixture by said injection lines,said engine further comprises an annular detonation chamber (33, 36) and in that said detonation chamber (30) is connected to said annular detonation chamber (33, 36) so as to form a hybrid chamber (34, 37, 38),said hybrid chamber (34, 37, 38) takes the form of said annular detonation chamber (36) provided with concentric extensions (39, 40) of variable feed lengths, andsaid concentric extensions (40) are disposed inside said annular detonation chamber (36).