Low NOx gas burner with cooled flue gas recycle

What is claimed is: 1 . A burner configured to receive a fuel gas and a combustion air which react and produce a flame and a flue gas in a combustion zone, the burner comprising: primary injection ports configured to inject a fuel gas into a primary combustion zone; secondary injection ports spaced from the primary combustion zone and configured such that as fuel gas is injected and a first portion of the flue gas is drawn to the primary combustion zone; a duct configured to remove a second portion of the flue gas from the combustion zone and return the second portion of the flue gas to the primary combustion zone, and, an inlet configured to provide a cooling gas to the first portion of the flue gas, wherein the first portion of the flue gas is mixed, upstream of the combustion zone, with the fuel gas and the combustion air and the cooling gas is provided to the first portion of the flue gas upstream of mixing of the first portion of the flue gas with the fuel gas and the combustion air. 2 . The burner of claim 1 , further comprising: an inlet configured to provide a cooling gas to the second portion of the flue gas in the duct. 3 . The burner of claim 2 , wherein the second portion of the flue gas has passed through a convection zone disposed above the combustion zone. 4 . The burner of claim 3 , wherein the duct that provides the second portion of the flue gas provides flue gas to a plurality of burners. 5 . The burner of claim 2 , further comprising: a second duct configured to remove a third portion of the flue gas and return the third portion of the flue gas to the primary combustion zone. 6 . A heating system comprising: a burner configured to receive a fuel gas and a combustion air which react and produce a flame and a flue gas in a combustion zone; a duct configured to remove a first portion of the flue gas from the combustion zone as a recycled flue gas, wherein the first portion of the flue gas is mixed, upstream of the combustion zone, with the fuel gas and the combustion air; an inlet configured to provide a cooling gas to the first portion of the flue gas; and a second duct configured to remove a second portion of the flue gas from the heating system, wherein the second portion of the flue gas has passed through a convection zone of the heating system, wherein the convection zone is disposed downstream from the combustion zone, and wherein the second portion of the flue gas is mixed, upstream of the combustion zone, with the fuel gas and the combustion air, and wherein the cooling gas is provided to the first portion of the flue gas upstream of the mixing of the first portion of the flue gas with the fuel gas and the combustion air. 7 . The heating system of claim 6 , further comprising: a sensor configured to obtain information relating to a composition of the fuel gas. 8 . The heating system of claim 7 , further comprising: a controller configured to adjust an operational condition associated with the burner based on the composition of the fuel gas. 9 . A method of controlling a burner, the method comprising: reacting, in a combustion zone of a heating system, a fuel gas and a combustion air to produce a flame and a flue gas; removing a first portion of the flue gas from the combustion zone as a recycled flue gas; mixing the first portion of the flue gas, upstream of the combustion zone, with the fuel gas and the combustion air; removing a second portion of the flue gas from the heating system, wherein the second portion of the flue gas has passed through a convection zone, wherein the convection zone is downstream of the combustion zone; mixing the second portion of the flue gas, upstream of the combustion zone, with the fuel gas and the combustion air; and, mixing a cooling gas with the first portion of the flue gas, wherein the cooling gas is mixed with the first portion of the flue gas upstream of the mixing of the first portion of the flue gas with the fuel gas and the combustion air. 10 . The method of claim 9 , further comprising: determining a composition of the fuel gas. 11 . The method of claim 10 , further comprising: adjusting an operational condition associated with the burner based on the composition of the fuel gas. 12 . The method of claim 11 , wherein the operational condition comprises a ratio of the first portion of the flue gas to the second portion of the flue gas. 13 . The method of claim 9 , wherein the operational conditional comprises an amount of cooling gas mixed with the first portion of the flue gas. 14 . The method of claim 9 , wherein the operational conditional comprises a flow rate of cooling gas. 15 . The method of claim 9 , further comprising: monitoring one or more conditions, wherein the one or more conditions comprise: a temperature of a process fluid within process tubes in the combustion zone of the fuel gas; a temperature of the flame; and an amount of NOx in the flue gas. 16 . The method of claim 15 , further comprising: adjusting an operational condition associated with the burner based on the one or more conditions. 17 . The method of claim 16 , wherein the operational condition comprises a ratio of the first portion of the flue gas to the second portion of the flue gas, or a flow rate of the cooling gas, or both. 18 . The method of claim 16 , further comprising: mixing a cooling gas with the first portion of the flue gas, wherein the cooling gas is mixed with the first portion of the flue gas upstream of the mixing of the first s portion of the flue gas with the fuel gas and the combustion air.