A steam turbine and a rotor are disclosed having steam extending internally along at least part of the rotor. The rotor includes an interface and a steam passage system formed in the rotor, the passage system including a first inlet flow passage to the interface, the first inlet flow passage configu
A steam turbine and a rotor are disclosed having steam extending internally along at least part of the rotor. The rotor includes an interface and a steam passage system formed in the rotor, the passage system including a first inlet flow passage to the interface, the first inlet flow passage configured to receive steam from a first region of an outer surface of the rotor, a first outlet flow passage from the interface, the first outlet flow passage configured to pass steam to a second region of the rotor, a second inlet flow passage to the interface, the second inlet flow passage configured to receive steam from a third region of the outer surface of the rotor, a second outlet flow passage from the interface, the second outlet flow passage configured to pass steam to a fourth region of the rotor.
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1. A steam turbine comprising: a rotor including: a first rotor section having a first axial end face with a first flow passage and a separate second flow passage;a second rotor section having a second axial end face with a first flow passage and a separate second flow passage, the second rotor sect
1. A steam turbine comprising: a rotor including: a first rotor section having a first axial end face with a first flow passage and a separate second flow passage;a second rotor section having a second axial end face with a first flow passage and a separate second flow passage, the second rotor section disposed axially adjacent and circumferentially rotated to the first rotor section so that the second axial end face faces the first axial end face so that each of the first flow passages in the two rotor sections line up to make a first continuous passage and each of the second flow passages in the two rotor sections line up to make a second continuous passage, wherein the first continuous passage and the second continuous passage are separated at an interface of the two rotor sections, and wherein a flow from the first continuous passage does not interact in the rotor with a flow from the second continuous passage; anda passage system formed in the rotor, the passage system including: a first inlet flow passage to an interface, the first inlet flow passage configured to receive steam from a first region of an outer surface of the rotor;a first outlet flow passage from the interface, the first outlet flow passage configured to pass steam to a second region of the rotor;a second inlet flow passage to the interface, the second inlet flow passage configured to receive steam from a third region of the outer surface of the rotor, anda second outlet flow passage from the interface, the second outlet flow passage configured to pass steam to a fourth region of the rotor. 2. The steam turbine of claim 1, wherein the first and second flow passages of at least one of the two rotor sections include a radially extending wall or a mechanical seal to separate the first and second flow passages. 3. The steam turbine of claim 1, wherein the first and second rotor sections are in a same pressure section of the steam turbine. 4. The steam turbine of claim 1, wherein the first and second rotor sections extend between different pressure sections of the steam turbine. 5. The steam turbine of claim 1, wherein the first outlet and second inlet flow passage of at least one of the two rotor sections is in a region of the rotor that is devoid of any blades. 6. The steam turbine of claim 1, wherein each of the first flow passage, the first inlet flow passage, the first outlet flow passage of at least one of the two rotor sections is at a first pressure and each of the second flow passage, the second inlet flow passage, the second outlet flow passage of at least one of the two rotor sections is at a second pressure that is different than the first pressure. 7. The steam turbine of claim 1, further comprising a mechanism that opens or closes a seal to regulate flow to the first and second inlet flow passages. 8. The steam turbine of claim 1, further comprising a high pressure region of steam and a sealing mechanism to seal the high pressure region of steam from leaking out of a steam turbine section. 9. The steam turbine of claim 1, wherein the steam moves through the first and second flow passages of at least one of the two rotor sections to cool the rotor. 10. The steam turbine of claim 1, further comprising a transport cable extending through the first and second flow passages of at least one of the two rotor sections. 11. A rotor comprising: a first rotor section having a first axial end face with a first flow passage and a separate second flow passage;a second rotor section having a second axial end face with a first flow passage and a separate second flow passage, the second rotor section disposed axially adjacent and circumferentially rotated to the first rotor section so that the second axial end face faces the first axial end face so that each of the first flow passages in the two rotor sections line up to make a first continuous passage and each of the second flow passages in the two rotor sections line up to make a second continuous passage, wherein the first continuous passage and the second continuous passage are separated at an interface of the two rotor sections, and wherein a flow from the first continuous passage does not interact in the rotor with a flow from the second continuous passage; anda passage system formed in the rotor, the passage system including: a first inlet flow passage to an interface, the first inlet flow passage configured to receive steam from a first region of an outer surface of the rotor;a first outlet flow passage from the interface, the first outlet flow passage configured to pass steam to a second region of the rotor;a second inlet flow passage to the interface, the second inlet flow passage configured to receive steam from a third region of the outer surface of the rotor, anda second outlet flow passage from the interface, the second outlet flow passage configured to pass steam to a fourth region of the rotor. 12. The rotor of claim 11, wherein the first and second flow passages of at least one of the two rotor sections include a radially extending wall or a mechanical seal for separating the first and second flow passages. 13. The rotor of claim 11, wherein the first and second rotor sections are in a same pressure section of a steam turbine. 14. The rotor of claim 11, wherein the first and second rotor sections extend between different pressure sections of a steam turbine. 15. The rotor of claim 11, wherein the first outlet and second inlet flow passage of at least one of the two rotor sections is in a region of the rotor that is devoid of any blades. 16. The rotor of claim 11, wherein each of the first flow passage, the first inlet flow passage, the first outlet flow passage of at least one of the two rotor sections is at a first pressure and each of the second flow passage, the second inlet flow passage, the second outlet flow passage of at least one of the two rotor sections is at a second pressure that is different than the first pressure. 17. The rotor of claim 11, further comprising a mechanism that opens or closes a seal to regulate flow to the first and second inlet flow passages. 18. The rotor of claim 11, further comprising a high pressure region of steam and a sealing mechanism to seal the high pressure region of steam from leaking out of a turbine section. 19. The rotor of claim 11, wherein the steam moves through the first and second flow passages of at least one of the two rotor sections to cool the rotor. 20. The rotor of claim 11, further comprising a transport cable/wire extending through the first and second flow passages of at least one of the two rotor sections.
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