Single-piece refractory for a water heating assembly

What is claimed is: 1. A water heater system comprising: a blower configured to move a mixture of air and fuel; an igniter configured to ignite the mixture of air and fuel; a burner configured to produce a controlled flame created by igniting the mixture of air and fuel; a heat exchanger configured to facilitate heat transfer from the controlled flame to a fluid flowing through the heat exchanger; and a refractory configured to attach to the burner and the heat exchanger and retain the heat as the heat is directed from the burner and toward the heat exchanger, wherein the refractory comprises: a unitary ceramic housing comprising: a refractory top having a burner aperture extending therethrough, the refractory top configured to receive at least a portion of the burner; and a plurality of sidewalls forming a central cavity of the ceramic housing, each of the plurality of sidewalls having a first end extending from the refractory top and a second end disposed proximate the heat exchanger, wherein a sidewall of the plurality of sidewalls comprises a protrusion extending laterally along an inside surface of the sidewall, the protrusion being configured to contact the heat exchanger and form a seal between the heat exchanger and the refractory by deforming when a plurality of fins of the heat exchanger contact the protrusion. 2. The system of claim 1 , wherein the protrusion of the refractory is configured to deform such that, when the refractory is installed, a plurality of fins of the heat exchanger cut into the protrusion to form the seal. 3. The system of claim 1 , wherein a single unit comprises the burner and the igniter. 4. The system of claim 1 , wherein the refractory top further comprises an igniter aperture extending therethrough, the refractory top being configured to receive the igniter. 5. The system of claim 4 , wherein: the igniter aperture has an inner end and an outer end, the inner end being proximate an inner surface of the refractory top and the outer end being proximate an outer surface of the refractory top, and an area of the inner end is greater than an area of the outer end. 6. The system of claim 5 , wherein the inner end of the igniter aperture comprises a substantially frustoconical shape. 7. The system of claim 1 , wherein: the burner aperture has an inner end and an outer end, the inner end being proximate an inner surface of the refractory top and the outer end being proximate an outer surface of the refractory top, and an area of the inner end is greater than an area of the outer end. 8. The system of claim 1 , the plurality of sidewalls further comprising a sealing material affixed to a bottom surface of the plurality of sidewalls and configured to form a seal between the plurality of sidewalls and the heat exchanger. 9. The system of claim 1 , wherein: the protrusion is a first protrusion, the plurality of sidewalls comprises two short sidewalls and two long sidewalls, each of the two short sidewalls having a height that is less than a height of either of the long sidewalls, one of the two long sidewalls comprises the first protrusion and the other of the two long sidewalls comprises a second protrusion, and the two short sidewalls are configured to contact the heat exchanger. 10. A unitary housing for a water heating assembly, the unitary housing comprising: a top having a burner aperture extending therethrough, the top configured to receive at least a portion of a burner; and a plurality of sidewalls forming a central cavity of the unitary housing, each of the plurality of sidewalls having a first end extending from the top and a second end configured to contact a heat exchanger, wherein one or more of the plurality of sidewalls comprises a protrusion extending laterally along an inside surface of one of the plurality of sidewalls, the protrusion being configured to deform upon contact with a plurality of fins of the heat exchanger to create a seal between the heat exchanger and the unitary housing, and wherein the unitary housing is configured to retain heat produced by the burner. 11. The unitary housing of claim 10 , further comprising an igniter aperture extending through the top, the igniter aperture being configured to receive an igniter. 12. The unitary housing of claim 11 , wherein the igniter aperture has an inner end and an outer end, the inner end being proximate an inner surface of the top and the outer end being proximate an outer surface of the top, and wherein an area of the inner end is greater than an area of the outer end. 13. The unitary housing of claim 12 , the igniter aperture comprising a substantially frustoconical shape. 14. The unitary housing of claim 10 , wherein the burner aperture has an inner end and an outer end, the inner end being proximate an inner surface of the top and the outer end being proximate an outer surface of the top, and wherein an area of the inner end is greater than an area of the outer end. 15. The unitary housing of claim 10 , wherein the protrusion is configured to deform such that a plurality of fins of the heat exchanger cut into the protrusion to form the seal. 16. The unitary housing of claim 10 fill further comprising a sealing material located on a surface of the protrusion, the sealing material being configured to form the seal between the heat exchanger and the unitary housing. 17. The unitary housing of claim 10 further comprising a sealing material affixed to a bottom surface of at least one of the plurality of sidewalls, the sealing material being configured to form a seal between the plurality of sidewalls and the heat exchanger. 18. The unitary housing of claim 10 , wherein: the protrusion is a first protrusion, the plurality of sidewalls comprises two short sidewalls and two long sidewalls, each of the two short sidewalls having a height that is less than a height of either of the long sidewalls, one of the two long sidewalls comprises the first protrusion and the other of the two long sidewalls comprises a second protrusion, and the two short sidewalls are configured to contact the heat exchanger. 19. A water heater system comprising: a blower configured to move a mixture of air and fuel; an igniter configured to ignite the mixture of air and fuel; a burner configured to produce a controlled flame created by igniting the mixture of air and fuel; a heat exchanger configured to facilitate heat transfer from the controlled flame to a fluid flowing through the heat exchanger; and a refractory configured to attach to the burner and the heat exchanger and retain the heat as the heat is directed from the burner and toward the heat exchanger, wherein the refractory comprises: a unitary ceramic housing comprising: a refractory top having a burner aperture extending therethrough configured to receive at least a portion of the burner, and an igniter aperture extending therethrough configured to receive the igniter; and a plurality of sidewalls forming a central cavity of the ceramic housing, each of the plurality of sidewalls having a first end extending from the refractory top and a second end disposed proximate the heat exchanger, wherein a sidewall of the plurality of sidewalls comprises a protrusion extending laterally along an inside surface of the sidewall, the protrusion being configured to contact the heat exchanger. 20. The system of claim 19 , wherein: the igniter aperture has an inner end and an outer end, the inner end being proximate an inner surface of the refra