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A system and method for reducing blade strain on the fan blades of an air cycle machine is proposed. The method involves a strut arrangement that is positioned in a cylindrical air passage upstream from the fan assembly. The strut arrangement includes at least three struts, wherein the at least thre

A system and method for reducing blade strain on the fan blades of an air cycle machine is proposed. The method involves a strut arrangement that is positioned in a cylindrical air passage upstream from the fan assembly. The strut arrangement includes at least three struts, wherein the at least three struts are separated by unequal degrees of separation along the circumference of the air passage. The strut arrangement effectively reduces the strain on the blades of the fan assembly.

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1. A method of strut placement in relation to a fan assembly, comprisingpositioning a strut arrangement in a cylindrical air passage upstream from the fan assembly, where the strut arrangement includes at least three struts;placing the at least three struts along the circumference of the air passage

1. A method of strut placement in relation to a fan assembly, comprisingpositioning a strut arrangement in a cylindrical air passage upstream from the fan assembly, where the strut arrangement includes at least three struts;placing the at least three struts along the circumference of the air passage; andseparating the at least three struts by unequal angles of separation, wherein a selected angle of separation is 360° minus the sum of the remaining angles of separation, and the magnitude of each remaining angle of separation is a prime number. 2. The method of claim 1, further comprising the steps of:operating the fan assembly which causes the passage of air through the air passage;reducing the occurrence of low order excitation wakes during the operation of the fan assembly; andreducing any strain upon the fan assembly. 3. The method of claim 1, further comprising the steps of:operating the fan assembly which causes the passage of air through the air passage;eliminating the occurrence of low order excitation wakes during the operation of the fan assembly; andreducing any strain upon the fan assembly. 4. A system for an air cycle machine, comprising:a fan assembly;a strut arrangement, where the strut arrangement includes at least three struts, the strut arrangement is positioned upstream from the fan assembly; anda cylindrical air passage, wherein the strut arrangement lies within the air passage and the at least three struts are separated by unequal angles of separation along the circumference of the air passage, wherein a selected angle of separation is 360° minus the sum of the remaining angles of separation, and the magnitude of each remaining angle of separation is a prime number. 5. The system of claim 4, where the strut arrangement reduces the occurrence of low order excitation wakes during the operation of the fan assembly and reduces any strain on the fan assembly. 6. The system of claim 4, where the strut arrangement eliminates the occurrence of low order excitation wakes during the operation of the fan assembly and reduces any strain on the fan assembly. 7. A strut arrangement for an air cycle machine, comprising:a cylindrical air passage; andat least three struts positioned along the circumference of the air passage upstream from a fan assembly, wherein the at least three struts are separated by unequal angles of separation, wherein a selected angle of separation is 360° minus the sum of the remaining angles of separation, and the magnitude of each remaining angle of separation is a prime number. 8. The strut arrangement of claim 7, where the strut arrangement reduces the occurrence of low order excitation wakes during the operation of the fan assembly and reduces any strain on the fan assembly. 9. The strut arrangement of claim 7, where the strut arrangement eliminates the occurrence of low order excitation wakes during the operation of the fan assembly and reduces any strain on the fan assembly. 10. A method of strut placement in relation to a fan assembly, comprising:positioning a strut arrangement in a cylindrical air passage upstream from the fan assembly, where the strut arrangement includes three struts;placing the three struts along the circumference of the air passage; andseparating the three struts by three unequal angles of separation, wherein a selected angle of separation is 360° minus the sum of the remaining angles of separation, and the magnitude of each remaining angle of separation is a prime number. 11. The method of strut placement of claim 10, wherein the selected angle of separation is 150° and the remaining angles are 127° and 83°. 12. The method of strut placement of claim 10, wherein the selected angle of separation is 126° and the remaining angles are 103° and 131°. 13. The method of strut placement of claim 10, further comprising the steps of:operating the fan assembly which causes the passage of air through the air passage;reducing the o ccurrence low order excitation wakes during the operation of the fan assembly; andreducing any strain upon the fan assembly. 14. The method of strut placement of claim 10, further comprising the steps of:operating the fan assembly which causes the passage of air through the air passage;eliminating the occurrence of low order excitation wakes during the operation of the fan assembly; andreducing any strain upon the fan assembly. 15. A system for an air cycle machine, comprising:a fan assembly;a strut arrangement, where the strut arrangement includes three struts, the strut arrangement is positioned upstream from the fan assembly; anda cylindrical air passage, wherein the strut arrangement lies within the air passage and the three struts are separated by unequal angles of separation along the circumference of the air passage, wherein a selected angle of separation is 360° minus the sum of the remaining angles of separation, and the magnitude of each remaining angle of separation is a prime number. 16. The system of claim 15, wherein the selected angle of separation is 150° and the remaining angles are 127° and 83°. 17. The system of claim 15, wherein the selected angle of separation is 126° and the remaining angles are 103° and 131°. 18. The system of claim 15, where the strut arrangement reduces the occurrence of low order excitation wakes during the operation of the fan assembly and reduces any strain on the fan assembly. 19. The system of claim 15, where the strut arrangement eliminates the occurrence of low order excitation wakes during the operation of the fan assembly and reduces any strain on the fan assembly. 20. A strut arrangement for an air cycle machine, comprising:a cylindrical air passage; andthree struts positioned along the circumference of the air passage upstream from a fan assembly, wherein the three struts are separated by unequal angles of separation, a selected angle of separation being 360° minus the sum of the remaining angles of separation, and the magnitude of each remaining angle of separation is a prime number. 21. The strut arrangement of claim 20, wherein the selected angle of separation is 150° and the remaining angles are 127° and 83°. 22. The strut arrangement of claim 20, wherein the selected angle of separation is 126° and the remaining angles are 103° and 131°. 23. The strut arrangement of claim 20, where the strut arrangement reduces the occurrence of low order excitation wakes during the operation of the fan assembly and reduces any strain on the fan assembly. 24. The strut arrangement of claim 20, where the strut arrangement eliminates the occurrence of low order excitation wakes during the operation of the fan assembly and reduces any strain on the fan assembly.