Catalyst chamber with a catalyst bed embedded therein for a monopropellant thruster of a rocket engine

The invention claimed is: 1. A monopropellant thruster embedded in a rocket engine, the monopropellant thruster comprising a catalyst chamber with a catalyst bed, the catalyst chamber comprising: an inlet having a first cross-sectional area through which a propellant can be introduced into the catalyst chamber; an outlet having a second cross-sectional area through which the propellant and/or resulting reaction products can be introduced into a combustion chamber of the monopropellant thruster, wherein the outlet is connected to the inlet via a catalyst volume of the catalyst chamber; an outer wall; an inner wall spaced apart from and arranged within the outer wall, such that the catalyst volume is subdivided by the inner wall to define an inner volume contained within the inner wall and an outer volume contained between the inner wall and the outer wall; and at least one helical wall member arranged within the catalyst chamber and extending between the inner wall and the outer wall to divide the outer volume into two or more segments, such that an effective length of a respective portion of the catalyst bed occupied by each segment of the two or more segments passed through by the propellant and/or the resulting reaction products is larger than a geometrical length of the catalyst chamber, which is defined between the inlet and the outlet along a direction of extension of the catalyst chamber; wherein the catalyst chamber has a cylindrical shape having a circular cross-section, such that bases of the catalyst chamber lie in parallel planes, with each of the parallel planes being orthogonal to the direction of extension of the catalyst chamber, a distance between the parallel planes corresponding to the geometrical length of the catalyst chamber; wherein a cross-section of the bases of the catalyst chamber corresponds to the inlet and the outlet of the catalyst chamber; wherein the first cross-sectional area of the inlet is circular and has a first cross-sectional area diameter that corresponds to a diameter of the catalyst chamber; and wherein the at least one helical wall member covers an entire extension of the inner wall in the direction of extension of the catalyst chamber. 2. The catalyst chamber according to claim 1 , wherein the at least one helical wall member is an insertion element. 3. The catalyst chamber according to claim 1 , wherein the at least one helical wall member is an integral element of the catalyst chamber. 4. The catalyst chamber according to claim 1 , wherein the catalyst chamber comprises an inner wall being arranged concentrically to an outer wall. 5. The catalyst chamber according to claim 4 , wherein the inner wall is adapted to receive a heating element for preheating the catalyst bed. 6. The catalyst chamber according to claim 4 , wherein the inner wall comprises at least one further helical wall member arranged within the inner wall and dividing the catalyst volume of the inner wall into two or more further segments. 7. The catalyst chamber according to claim 6 , wherein the segments and the further segments are arranged to be passed through by the propellant and/or its reaction products in parallel. 8. The catalyst chamber according to claim 1 , wherein the segments and/or the further segments are separated from each other. 9. A rocket engine comprising a monopropellant thruster, the monopropellant thruster comprising a catalyst chamber with a catalyst bed embedded therein, the catalyst chamber comprising: an inlet having a first cross-sectional area through which a propellant can be introduced into the catalyst chamber; an outlet having a second cross-sectional area through which the propellant and/or resulting reaction products can be introduced into a combustion chamber of the monopropellant thruster, wherein the outlet is connected to the inlet via a catalyst volume of the catalyst chamber; an outer wall; an inner wall spaced apart from and arranged within the outer wall, such that the catalyst volume is subdivided by the inner wall to define an inner volume contained within the inner wall and an outer volume contained between the inner wall and the outer wall; and at least one helical wall member arranged within the catalyst chamber and extending between the inner wall and the outer wall to divide the outer volume into two or more segments, such that an effective length of a respective portion of the catalyst bed occupied by each segment of the two or more segments passed through by the propellant and/or the resulting reaction products is larger than a geometrical length of the catalyst chamber, which is defined between the inlet and the outlet along a direction of extension of the catalyst chamber; wherein the catalyst chamber has a cylindrical shape having a circular cross-section, such that bases of the catalyst chamber lie in parallel planes, with each of the parallel planes being orthogonal to the direction of extension of the catalyst chamber, a distance between the parallel planes corresponding to the geometrical length of the catalyst chamber; wherein a cross-section of the bases of the catalyst chamber corresponds to the inlet and the outlet of the catalyst chamber; wherein the first cross-sectional area of the inlet is circular and has a first cross-sectional area diameter that corresponds to a diameter of the catalyst chamber; and wherein the at least one helical wall member covers an entire extension of the inner wall in the direction of extension of the catalyst chamber. 10. The monopropellant thruster according to claim 9 , wherein the at least one helical wall member is an insertion element. 11. The monopropellant thruster according to claim 9 , wherein the at least one helical wall member is an integral element of the catalyst chamber. 12. The monopropellant thruster according to claim 9 , wherein the catalyst chamber comprises an inner wall being arranged concentrically to an outer wall. 13. The monopropellant thruster according to claim 12 , wherein the inner wall is adapted to receive a heating element for preheating the catalyst bed. 14. The rocket engine according to claim 9 , comprising at least one further helical wall member arranged within the inner wall, such that the inner volume of the catalyst chamber is divided into two or more further segments. 15. The monopropellant thruster according to claim 14 , wherein the segments and the further segments are arranged to be passed through by the propellant and/or its reaction products in parallel. 16. The monopropellant thruster according to claim 9 , wherein the segments and/or the further segments are separated from each other.