Swimming pool/spa gas heater inlet mixer system and associated methods

What is claimed is: 1. An inlet mixer system for a swimming pool or spa gas heater, comprising: a housing having a body with a gas inlet disposed therethrough, the housing configured to be secured in fluid communication with an inlet of a combustion blower; a first mixer insert configured to be removably positioned within the housing, the first mixer insert having a first body defining a mixing chamber, an air intake, and a first plurality of orifices disposed radially about the first body and extending through the first body, the first plurality of orifices being configured to provide a first volumetric flow rate of a first fuel gas; and a second mixer insert configured to be removably positioned within the housing, the second mixer insert having a second body defining a mixing chamber, an air intake, and a second plurality of orifices disposed radially about the second body and extending through the second body, the second plurality of orifices configured to provide a second volumetric flow rate of a second fuel gas, the second fuel gas being different than the first fuel gas, wherein a dimension of the first plurality of orifices is different than a dimension of the second plurality of orifices and/or a number of the first plurality of orifices is different than a number of the second plurality of orifices, wherein when the first mixer insert is positioned within the housing, the first mixer insert configures the inlet mixer system for use with the first fuel gas, and wherein when the second mixer insert is positioned within the housing, the second mixer insert configures the inlet mixer system for use with the second fuel gas. 2. The inlet mixer system of claim 1 , wherein when the first mixer insert is positioned within the housing an annular chamber is formed between the housing and the first mixer insert, the annular chamber being in fluid communication with the gas inlet of the housing and the mixing chamber of the first mixer insert via the first plurality of orifices. 3. The inlet mixer system of claim 2 , wherein the inlet mixer system is configured to have the first fuel gas drawn through the gas inlet, into the annular chamber, through the first plurality of orifices, and into the mixing chamber by air drawn through the first mixer insert by the combustion blower. 4. The inlet mixer system of claim 1 , wherein when the second mixer insert is positioned within the housing an annular chamber is formed between the housing and the second mixer insert, the annular chamber being in fluid communication with the gas inlet of the housing and the mixing chamber of the second mixer insert via the second plurality of orifices. 5. The inlet mixer system of claim 4 , wherein the inlet mixer system is configured to have the second fuel gas drawn through the gas inlet, into the annular chamber, through the second plurality of orifices, and into the mixing chamber by air drawn through the second mixer insert by the combustion blower. 6. The inlet mixer system of claim 1 , wherein the housing includes one or more locking tabs configured to engage one or more reciprocal locking tabs of the first mixer insert to removably secure the first mixer insert within the housing. 7. The inlet mixer system of claim 6 , wherein the one or more locking tabs of the housing are configured to engage the one or more reciprocal locking tabs of the first mixer insert upon rotation of the first mixer insert within the housing. 8. The inlet mixer system of claim 1 , wherein the housing includes one or more locking tabs configured to engage one or more reciprocal locking tabs of the second mixer insert to removably secure the second mixer insert within the housing. 9. The inlet mixer system of claim 8 , wherein the one or more locking tabs of the housing are configured to engage the one or more reciprocal locking tabs of the second mixer insert upon rotation of the second mixer insert within the housing. 10. The inlet mixer system of claim 1 , wherein the first mixer insert is securable to the housing without the use of tools, and the second mixer insert is securable to the housing without the use of tools. 11. A method of switching a gas heater for a swimming pool or spa from a first configuration for use with a first fuel gas to a second configuration for use with a second fuel gas, comprising the steps of: removing a first mixer insert from a housing secured in fluidic communication with an inlet of a combustion blower having a body with a gas inlet disposed therethrough, the first mixer insert having a first body defining a mixing chamber, an air intake, and a first plurality of orifices disposed radially about the first body and extending through the first body, the first plurality of orifices being configured to provide a first volumetric flow rate of a first fuel gas, the first mixer insert configuring the gas heater for use with the first fuel gas when positioned within the housing; positioning a second mixer insert within the housing, the second mixer insert having a second body defining a mixing chamber, an air intake, and a second plurality of orifices disposed radially about the second body and extending through the second body, a dimension of the first plurality of orifices being different than a dimension of the second plurality of orifices and/or a number of the first plurality of orifices being different than a number of the second plurality of orifices, the second plurality of orifices configured to provide a second volumetric flow rate of a second fuel gas, the second fuel gas being different than the first fuel gas; and securing the second mixer insert within the housing, the second mixer insert configuring the gas heater for use with the second fuel gas when positioned within the housing. 12. The method of claim 11 , wherein positioning the second mixer insert within the housing forms an annular chamber within the housing, the annular chamber in fluid communication with the gas inlet of the housing and the mixing chamber of the second mixer insert via the second plurality of orifices. 13. The method of claim 12 , wherein the housing and the second mixer insert are configured to have the second fuel gas drawn through the gas inlet, into the annular chamber, through the second plurality of orifices, and into the mixing chamber by air drawn through the second mixer insert by the combustion blower. 14. The method of claim 11 , comprising: rotating the first mixer insert in a first direction to disengage reciprocal locking tabs of the first mixer insert from locking tabs of the housing. 15. The method of claim 14 , wherein the securing step comprises: rotating the second mixer insert in a second direction that is opposite the first direction to engage reciprocal locking tabs of the second mixer insert with locking tabs of the housing. 16. The inlet mixer system of claim 11 , wherein removing the first mixer insert from the housing includes removing the first mixer insert from the housing without using tools, and securing the second mixer insert within the housing includes securing the second mixer insert within the housing without using tools. 17. A gas heater for a swimming pool or spa, comprising: a cabinet defining an interior; a combustion chamber; a combustion blower; a burner positioned within the combustion chamber, the burner receiving combustible gas from the combustion blower and configured to dissipate the combustible gas; and an inlet mixer comprising: a housing having a body with a gas inlet disposed therethrough, the housing configured to be secured in fluid communicatio