Water heater having highly efficient and compact heat exchanger

What is claimed is: 1. A heat exchanger comprising: an inner coil having a plurality of helically wound inner coil turns, the inner coil defining a central axis extending therethrough; an outer coil having a plurality of helically wound outer coil turns, the outer coil positioned circumferentially around the inner coil relative to the central axis; an insulation layer positioned over a last one of the plurality of inner coil turns of the inner coil and a last one of the plurality of outer coil turns of the outer coil; a radial-flow baffle overlaying spaces between adjacent turns of the plurality of inner coil turns; a drum baffle including a wall positioned between the inner coil and the outer coil, the drum baffle extending in a first direction parallel to the central axis from a first one of the plurality of inner coil turns and a first one of the plurality of outer coil turns toward the insulation layer to an edge that is spaced below at least a portion of the last one of the plurality of inner coil turns; a flue gas bypass path defined between the edge of the drum baffle and the insulation layer, the flue gas bypass path having a width at least equal to a helical pitch of the inner coil; and a slotted baffle positioned between adjacent turns of the plurality of outer coil turns; wherein flue gases are configured to flow radially outward over the inner coil, in the first direction along the drum baffle wall, through the flue gas bypass path, and then in a second direction opposite the first direction over the outer coil to heat water flowing through the inner coil and the outer coil. 2. The heat exchanger of claim 1 , wherein the outer coil includes a water inlet at an end of the first one of the plurality of outer coil turns such that water flowing through the outer coil winds in the first direction in countercurrent flow with respect to the flow of flue gases in the second direction over the outer coil. 3. The heat exchanger of claim 1 , further comprising a transfer conduit connected between an end of the last one of the plurality of outer coil turns and an end of the last one of the plurality of inner coil turns. 4. The heat exchanger of claim 1 , wherein the inner coil includes a water outlet at an end of the first one of the plurality of inner coil turns. 5. The heat exchanger of claim 1 , wherein the radial-flow baffle is a strip baffle or a packing seal of non-circular cross-section. 6. The heat exchanger of claim 1 , wherein the flue gas bypass path is configured to cause the flue gases to make a 180° turn. 7. The heat exchanger of claim 1 , further comprising a burner positioned radially inward of the inner coil relative to the central axis, the burner extending along the central axis, and wherein the burner is configured to generate the flue gases. 8. A heat exchanger comprising: an inner coil having a plurality of helically wound inner coil turns, the inner coil defining a central axis extending therethrough; an outer coil having a plurality of helically wound outer coil turns, the outer coil positioned circumferentially around the inner coil relative to the central axis; an end member positioned over a last one of the plurality of inner coil turns of the inner coil and a last one of the plurality of outer coil turns of the outer coil; a first baffle overlaying spaces between adjacent turns of the plurality of inner coil turns; a second baffle including a wall positioned between the inner coil and the outer coil, the second baffle extending in a first direction parallel to the central axis from a first one of the plurality of inner coil turns and a first one of the plurality of outer coil turns toward the end member to an edge that is spaced below at least a portion of the last one of the plurality of inner coil turns; and a flue gas bypass path defined between the edge of the second baffle and the end member, the flue gas bypass path having a width at least equal to a helical pitch of the inner coil; wherein flue gases are configured to flow radially outward over the inner coil, in the first direction along the second baffle wall, through the flue gas bypass path, and then in a second direction opposite the first direction over the outer coil to heat water flowing through the inner coil and the outer coil, and wherein the heat exchanger further comprises a transfer conduit connected between an end of the last one of the plurality of outer coil turns and an end of the last one of the plurality of inner coil turns. 9. The heat exchanger of claim 8 , wherein the outer coil includes a water inlet at an end of the first one of the plurality of outer coil turns such that water flowing through the outer coil winds in the first direction in countercurrent flow with respect to the flow of flue gases in the second direction over the outer coil. 10. The heat exchanger of claim 8 , wherein the inner coil includes a water outlet at an end of the first one of the plurality of inner coil turns. 11. The heat exchanger of claim 8 , wherein the first baffle is a strip baffle or a packing seal of non-circular cross-section. 12. The heat exchanger of claim 8 , wherein the first baffle is configured to direct the flue gases circumferentially around a portion of an outer surface of each of the plurality of inner coil turns as the flue gases flow radially outward over the inner coil. 13. The heat exchanger of claim 8 , further comprising a third baffle positioned between adjacent turns of the plurality of outer coil turns, the third baffle including a slot between each of the adjacent turns of the plurality of outer coil turns, and wherein the third baffle is configured to direct the flue gases around an entire surface area of each turn of the plurality of outer coil turns before flowing through the subsequent slot as the flue gases flow in the second direction over the outer coil. 14. The heat exchanger of claim 8 , wherein the flue gas bypass path is configured to cause the flue gases to make a 180° turn. 15. The heat exchanger of claim 8 , further comprising a burner positioned radially inward of the inner coil relative to the central axis, the burner extending along the central axis, and wherein the burner is configured to generate the flue gases. 16. The heat exchanger of claim 8 , wherein the width of the flue gas bypass path is measured between the edge of the baffle and the end member relative to the central axis, and wherein the width is at least 40 mm. 17. A method of heating water using a heat exchanger, the method comprising: providing an inner coil of an inner water tube having a plurality of helically wound inner coil turns, the inner coil defining a central axis extending therethrough, an outer coil of an outer water tube having a plurality of helically wound outer coil turns, the outer coil positioned circumferentially around the inner coil relative to the central axis, an insulation layer positioned over a last one of the plurality of inner coil turns of the inner coil and a last one of the plurality of outer coil turns of the outer coil, and a drum baffle positioned between the inner coil and the outer coil; conducting the water first through the outer coil and subsequently through the inner coil; generating flue gases with a burner; flowing the flue gases radially outward over the inner coil to heat the water flowing through the inner coil; flowing the flue gases in a first direction parallel to the central axis along a wall of the drum baffle toward the insulation layer; directing the flue gases through a flue gas bypass path arranged between the ins