Helical coil steam generator

1 - 13 . (canceled) 14 . A method of manufacturing a steam generator, comprising: removing a portion of a tube sheet to form a first plurality of stubs that protrude from the tube sheet; forming a first plurality of channels, wherein one each of the first plurality of channels passes through the tube sheet and a corresponding stub of the first plurality of stubs; forming a first plurality of tubes into a first tube coil having a first diameter; and connecting the first plurality of tubes to the first plurality of stubs, wherein an inner radius of each of the first plurality of tubes is approximately equal to an inner radius of each of the first plurality of stubs such that the first plurality of channels extend through the first plurality of stubs and into the first plurality of tubes. 15 . The method of manufacturing according to claim 14 , further comprising: aligning the a tube of the first plurality of tubes and a stub of the first plurality of stubs by locating an insert between a top edge of the stub and an end of the tube, wherein the insert provides a gap between the tube and the stub that controls a placement of a welding that connects the tube to the stub; and removing an inner portion of the insert located in a channel of the first plurality of channels such that the channel extends into the end of the welded tube as a substantially smooth surface. 16 . The method of manufacture according to claim 14 , wherein forming the first plurality of channels comprises machining at least a portion of the first plurality of channels at an angle corresponding to a non-vertical mounting angle of an end of at least a portion of the first plurality of tubes. 17 . The method of manufacture according to claim 14 , wherein the steam generator is configured and arranged to surround at least a portion of a riser of a nuclear reactor. 18 . The method of manufacture according to claim 14 , wherein the steam generator is configured and arranged to provide heated feedwater to a cooling system in order to generate electricity. 19 . The method of manufacture according to claim 14 , further comprising: forming the tube sheet into one half of an elliptical integrated tube sheet and plenum (ITP), wherein the first plurality of stubs are located on the one half; connecting the first plurality of tubes to the first plurality of stubs located on the one half; forming a second tube sheet into another half of the elliptical ITP, wherein a second plurality of stubs is located on the other half; and connecting a second plurality of tubes to the second plurality of stubs located on the other half. 20 . The method of manufacture according to claim 19 , further comprising: coiling the first plurality of tubes in a first direction; and coiling the second plurality of tubes in a second direction, wherein the first and the second plurality of tubes comprise coils having alternating directions of rotation that cross over each other during a number of revolutions before being connected to another tube sheet. 21 . A method of manufacturing a steam generator, comprising: removing a portion of a tube sheet to form an inner row of stubs and an outer row of stubs; forming a plurality of channels such that each channel of the plurality of channels passes through the tube sheet and a corresponding stub of the inner row of stubs or the outer row of stubs; coiling a first set of tubes; fixing the first set of tubes in a fixed diameter; connecting the first set of tubes to the outer row of stubs; coiling a second set of tubes; releasing the second set of tubes within the first set of tubes; and connecting the second set of tubes to the inner row of stubs. 22 . The method of manufacture according to claim 21 , wherein the first and the second set of tubes are coiled to form one or more revolutions, and wherein the method further comprises connecting the first and the second set of tubes to a second tube sheet. 23 . The method of manufacture according to claim 21 , further comprising: forming the tube sheet into one half of an elliptical integrated tube sheet and plenum (ITP); mounting a first set of tubes into the one half; forming a second tube sheet into another half of the elliptical ITP; and mounting a second set of tubes into the other half. 24 . The method of manufacture according to claim 21 , further comprising: coiling the first set of tubes in a first direction; and coiling the second set of tubes in a second direction, wherein the first set of tubes and the second sets of tubes comprise coils having alternating directions of rotation that cross over each other during a number of revolutions before being connected to one or more additional tube sheets. 25 . The method of manufacture according to claim 21 , wherein an inner radius of the first set of tubes and the second set of tubes is equal to an inner radius of the inner row of stubs and the outer row of stubs such that each of the plurality of channels extend through the corresponding stub of the inner row of stubs or the outer row of stubs and a corresponding tube of the first set of tubes or the second set of tubes. 26 . The method of manufacture according to claim 21 wherein connecting the first set of tubes to the outer row of stubs includes: mounting each of the first set of tubes to a corresponding stub of the outer row of stubs such that an end of each of the first set of tubes faces a top edge of the corresponding stub; and welding the end of each of the first set of tubes to the top edge of the corresponding stub. 27 . The method of manufacture according to claim 21 , further comprising: aligning the first set of tubes and the outer row of stubs by locating an insert between an axial edge of a stub of the outer row of stubs and an end of a tube of the first set of tubes to create a gap between the end of the tube and the axial edge of the stub. 28 . The method of manufacture according to claim 27 , wherein a shape of the insert is configured to create the gap between the end of the tube and the axial edge of the stub. 29 . The method of manufacture according to claim 27 , wherein the insert has a T-shaped cross section. 30 . A method of manufacturing a steam generator, comprising: forming a first set of tubes into a first tube coil having a first diameter; and connecting the first set of tubes to a first row of stubs protruding from a tube sheet. 31 . The method of manufacture according to claim 30 , wherein the steam generator is configured and arranged to surround at least a portion of a riser of a nuclear reactor. 32 . The method of manufacture according to claim 30 , wherein the steam generator is configured and arranged to provide heated feedwater to a cooling system in order to generate electricity. 33 . The method of manufacture according to claim 30 , further comprising mounting the first tube coil around a heat source.