External combustion air preheat

What is claimed as new and desired to be protected by Letters Patent is: 1 . A furnace system for cracking hydrocarbons, comprising: a furnace having a radiant heating section and a convective heating section, wherein the radiant heating section includes one or more burners configured for combusting a fuel with a pre-heated air stream to produce a flue gas fed to the convective heating section; one or more heat transfer fluid heating coils disposed within the convective heating section of the furnace; one or more feed preheat coils configured for receiving and pre-heating a hydrocarbon feed to produce a pre-heated hydrocarbon feed; a radiant process coil disposed within the radiant heating section, configured for receiving the pre-heated hydrocarbon feed and producing a cracked hydrocarbon product; an air preheater having an air inlet, a preheated air outlet, a heat transfer fluid inlet, a heat transfer fluid outlet, and one or more heat exchange surfaces for indirectly heating air received via the air inlet by indirect heat exchange with a hot heat transfer fluid received via the heat transfer fluid inlet to produce the pre-heated air stream, recovered via the preheated air outlet, and a cooled heat transfer fluid, recovered via the heat transfer fluid outlet; one or more flow lines fluidly connecting the preheated air outlet with the one or more burners, for supplying the pre-heated air stream to the one or more burners; and a heat transfer fluid circulation system including a flow line for circulating the cooled heat transfer fluid from the heat transfer fluid outlet to an inlet of the one or more heat transfer fluid heating coils disposed within the convective heating section of the furnace, and a flow line for circulating the hot heat transfer fluid from an outlet of the one or more heat transfer fluid heating coils to the heat transfer fluid inlet. 2 . The system of claim 1 , wherein the one or more feed preheat coils is disposed within the convective heating section of the furnace above a location of the one or more heat transfer fluid heating coils. 3 . The system of claim 1 , comprising a boiler feed water heating coil and one or more steam superheating coils disposed within the convective heating section of the furnace, wherein the one or more heat transfer fluid heating coils is disposed below a location of the boiler feed water heating coil and above a location of the one or more steam superheating coils. 4 . The system of claim 3 , comprising a selective catalytic reduction catalyst bed disposed within the convective heating section of the furnace, and wherein the one or more heat transfer fluid heating coils comprises an upper heat transfer fluid heating coil and a lower heat transfer fluid heating coil, wherein the selective catalytic reduction catalyst bed is disposed within the convective heating section of the furnace above a location of the lower heat transfer fluid heating coil and below a location of the upper heat transfer fluid heating coil. 5 . The system of claim 1 , wherein the one or more feed preheat coils comprises an upper feed preheat coil and a lower feed preheat coil, and wherein the one or more heat transfer fluid heating coils comprises an upper heat transfer fluid heating coil and a lower heat transfer fluid heating coil, wherein: the upper feed preheat coil is disposed within the convective heating section of the furnace above a location of the lower feed preheat coil; the upper heat transfer fluid heating coil is disposed within the convective heating section of the furnace above a location of the lower heat transfer fluid heating coil; the upper feed preheat coil is disposed within the convective heating section of the furnace above a location of the upper heat transfer fluid heating coil; and the lower feed preheat coil is disposed within the convective heating section of the furnace above a location of the lower heat transfer fluid heating coil. 6 . The furnace system of claim 1 , comprising coils, arranged in the convective heating section of the furnace in order as follows, from lowest to highest: a mixed preheat coil; a lower steam superheating coil; an upper steam superheating coil; the one or more heat transfer fluid heating coils; a boiler feed water heating coil; and the one or more feed preheat coils. 7 . The furnace system of claim 1 , comprising coils, arranged in the convective heating section of the furnace in order as follows, from lowest to highest: a mixed preheat coil; a lower steam superheating coil; an upper steam superheating coil; the one or more heat transfer fluid heating coils including a lower heat transfer fluid heating coil and an upper heat transfer fluid heating coil; a selective catalytic reduction catalyst bed located between the lower heat transfer fluid heating coil and the upper heat transfer fluid heating coil; a boiler feed water heating coil; and the one or more feed preheat coils. 8 . The furnace system of claim 1 , comprising coils, arranged in the convective heating section of the furnace in order as follows, from lowest to highest: a mixed preheat coil; a lower steam superheating coil; a middle steam superheating coil; an upper steam superheating coil; the one or more heat transfer fluid heating coils; a boiler feed water heating coil; and the one or more feed preheat coils. 9 . The furnace system of claim 1 , comprising coils, arranged in the convective heating section of the furnace in order as follows, from lowest to highest: a lower mixed preheat coil; a lower steam superheating coil; a middle steam superheating coil; an upper steam superheating coil; the one or more heat transfer fluid heating coils including a lower heat transfer fluid heating coil and an upper heat transfer fluid heating coil; an upper mixed feed preheat coil, a dilution steam superheating coil, and a lower feed preheat coil located, from lowest to highest, between the lower heat transfer fluid heating coil and the upper heat transfer fluid heating coil; and the one or more feed preheat coils. 10 . The furnace system of claim 1 , comprising coils, arranged in the convective heating section of the furnace in order as follows, from lowest to highest: a mixed feed preheat coil; a lower steam superheating coil; a middle steam superheating coil; an upper steam superheating coil; the one or more heat transfer fluid heating coils; and a boiler feed water heating coil. 11 . The furnace system of claim 10 , comprising a stack connected to a gas turbine exhaust, the stack comprising a feed preheat coil and a second mixed feed preheat coil, the second mixed feed preheat coil being fluidly connected to the mixed feed preheat coil. 12 . The furnace system of claim 1 , comprising a second furnace having a second radiant heating section and a second convective heating section, wherein the second radiant heating section includes one or more burners configured for combusting a fuel with a pre-heated air stream to produce a flue gas fed to the second convective heating section, wherein the second furnace comprises an air pre-heater fluidly coupled to the heat transfer fluid circulation system. 13 . A method of cracking hydrocarbons using the system of claim 1 , comprising: heating a heat transfer fluid in the one or more heat transfer fluid heating coils to produce the hot heat transfer fluid; heating air via indirect heat exchange with the hot heat transfer fluid in the air preheater to produce a pre-heated air; and mixing the pre-heated air with a fuel to form a combustion mixture and combusting the combustion mixture in the o