Small supercritical once-thru steam generator

We claim: 1. An apparatus for producing supercritical steam for injection into an underground hydrocarbon-containing reservoir, comprising: a radiant section for generating steam above the critical point, comprising a horizontal housing having a burner end and an exhaust end opposite the burner end, a burner located at the burner end, at least one furnace coil running in a serpentine path between the burner end and the exhaust end circumferentially and evenly spaced along an internal circumference of the horizontal housing, and a convection flue at the exhaust end; and a convection section of the apparatus for generating supercritical superheated steam, comprising a vertical housing that is located above the convection flue and that contains a superheater in fluid communication with the at least one furnace coil and an economizer located in the convection section above the superheater; wherein flue gas generated by the burner travels horizontally through the radiant section and travels vertically through the vertical housing; wherein the economizer is tapered, with a greater surface area adjacent the superheater; and wherein the apparatus is devoid of a steam separator. 2. The apparatus of claim 1 , further comprising a preheater upstream of the economizer. 3. The apparatus of claim 1 , wherein the apparatus is configured to operate on a once-through basis. 4. The apparatus of claim 1 , wherein the furnace coil and superheater include bores that are not ribbed. 5. The apparatus of claim 1 , wherein the economizer comprises a plurality of tube rows having the same length. 6. A supercritical once-through steam generator, comprising: a radiant section comprising a cylindrical horizontal housing having a burner end and an exhaust end opposite the burner end, a burner located at the burner end, at least one furnace coil running in a serpentine path between the burner end and the exhaust end circumferentially and evenly spaced along an internal circumference of the horizontal housing, and an outlet port at the exhaust end that leads to a convection flue, wherein a perimeter of the outlet port is formed by an arc and a chord; and a convection section comprising a vertical housing that is located above the convection flue; wherein the once-through steam generator is devoid of a steam separator; wherein the convection section includes a superheater in fluid communication with the at least one furnace coil and an economizer above the superheater, the economizer being in fluid communication with the at least one furnace coil; wherein the economizer is tapered, with a greater surface area adjacent the superheater; and wherein flue gas generated by the burner travels horizontally through the radiant section and travels vertically through the vertical housing. 7. The once-through steam generator of claim 6 , further comprising a feedwater preheater upstream of the economizer. 8. The once-through steam generator of claim 7 , wherein the feedwater preheater is a dual pass heat exchanger comprising a first pass inlet for receiving feedwater, a first pass outlet in fluid communication with an inlet of the economizer, a second pass inlet in fluid communication with an outlet of the economizer, and a second pass outlet in fluid communication with the at least one furnace coil. 9. The once-through steam generator of claim 6 , further comprising a feedwater purifier upstream of the economizer. 10. The once-through steam generator of claim 6 , wherein fluid in the superheater flows in parallel with flue gas traveling through the once-through steam generator. 11. The once-through steam generator of claim 6 , wherein the at least one furnace coil is smooth bored or is finned. 12. The once-through steam generator of claim 6 , wherein the radiant section includes a total of two furnace coils. 13. The once-through steam generator of claim 12 , wherein fluid flow from the two furnace coils are combined prior to being split at the superheater. 14. The once-through steam generator of claim 6 , wherein fluid flow through the superheater is split into a first superheater coil and a second superheater coil. 15. The once-through steam generator of claim 6 , wherein the furnace coil and superheater include bores that are not ribbed. 16. The once-through steam generator of claim 6 , wherein the economizer comprises a plurality of tube rows having the same length. 17. A method of enhancing recovery from an underground hydrocarbon-containing reservoir, comprising: generating supercritical steam in a supercritical once-through steam generator; and injecting the supercritical steam into the reservoir to recover hydrocarbons; wherein the supercritical once-through steam generator comprises: a radiant section comprising a horizontal housing having a burner end and an exhaust end opposite the burner end, a burner located at the burner end, at least one furnace coil running in a serpentine path between the burner end and the exhaust end circumferentially and evenly spaced along an internal circumference of the horizontal housing, and a convection flue at the exhaust end; and a convection section comprising a vertical housing that is located above the convection flue and that contains a superheater in fluid communication with the at least one furnace coil and an economizer above the superheater, the economizer being in fluid communication with the at least one furnace coil; wherein the economizer is tapered, with a greater surface area adjacent the superheater; wherein the once-through steam generator is devoid of a steam separator; wherein flue gas generated by the burner travels horizontally through the radiant section and travels vertically through the vertical housing; and wherein the at least one furnace coil comprises: an inlet through which water enters the at least one furnace coil at a temperature of from about 400° F. to about 450° F.; and an outlet through which water exits the at least one furnace coil at a temperature of from about 700° F. to about 750° F. 18. The method of claim 17 , wherein the supercritical steam is injected into the reservoir through a plurality of injection well outlets. 19. The method of claim 17 , wherein the hydrocarbons are recovered through one or more production wells. 20. The method of claim 17 , wherein the furnace coil and superheater include bores that are not ribbed. 21. The method of claim 17 , wherein the economizer comprises a plurality of tube rows having the same length.