Heater coil

The invention claimed is: 1. A heater coil for receiving a feedstock, the heater coil comprising: an inlet manifold having a longitudinal extension; an outlet manifold having a longitudinal extension that is parallel to the longitudinal extension of said inlet manifold; and a plurality of process tubes suspended from and in fluid communication with said inlet manifold and said outlet manifold, each of said process tubes comprising an inlet leg coupled to said inlet manifold, an outlet leg coupled to said outlet manifold, and a U-shaped portion disposed between said inlet leg and said outlet leg for passage of the feedstock therethrough; wherein said inlet manifold and said outlet manifold are elevated with respect to said plurality of process tubes; and wherein each of the plurality of process tubes is aligned such that a width of each of the plurality of process tubes extends along a direction that is not perpendicular to the longitudinal extensions of said inlet and said outlet manifolds; wherein the longitudinal extension of said inlet manifold and the longitudinal extension of said outlet manifold are disposed along the same vertical plane. 2. The heater coil of claim 1 wherein each of said plurality of process tubes are aligned uniformly with respect to said inlet and outlet manifolds. 3. The heater coil of claim 1 wherein the width of each of the plurality of process tubes extends between said inlet leg and said outlet leg at an angle between 60 and 85 degrees with respect to the longitudinal extensions of said inlet and said outlet manifolds. 4. The heater coil of claim 1 wherein said inlet and said outlet manifolds are separated from one another by a nonzero distance that is less than 20% of the width of each of the plurality of process tubes. 5. A heater for heating a feedstock, the heater comprising: a firebox chamber having opposed first and second firing walls and opposed first and second end walls; an inlet manifold having a longitudinal extension; an outlet manifold having a longitudinal extension that is parallel to the longitudinal extension of said inlet manifold; and a plurality of process tubes disposed between said first and second firing walls, said plurality of process tubes being suspended from and in fluid communication with said inlet manifold and said outlet manifold, each of said process tubes comprising an inlet leg coupled to said inlet manifold, an outlet leg coupled to said outlet manifold, and a U-shaped portion disposed between said inlet leg and said outlet leg for passage of the feedstock therethrough; wherein said inlet manifold and said outlet manifold are elevated with respect to said plurality of process tubes; and wherein each of the plurality of process tubes are aligned such that a width of each of the plurality of process tubes extends along a direction that is not perpendicular to the longitudinal extensions of said inlet and said outlet manifolds; wherein the longitudinal extension of said inlet manifold and the longitudinal extension of said outlet manifold are disposed along the same vertical plane. 6. The heater of claim 5 wherein each of said plurality of process tubes are aligned uniformly with respect to said inlet and outlet manifolds. 7. The heater of claim 5 further comprising a compartment disposed above said first and second firing walls wherein said inlet manifold and said outlet manifold are disposed within the compartment. 8. The heater of claim 5 further comprising a plurality of burners disposed along each of said first and second firing walls. 9. The heater of claim 8 wherein said plurality of burners are uniformly disposed along said first and second firing walls. 10. The heater of claim 8 wherein said plurality of burners comprise wall fired burners. 11. The heater of claim 8 wherein said plurality of burners comprise floor-fired burners. 12. The heater of claim 5 wherein the width of each of the plurality of process tubes has a width extending between said inlet leg and said outlet leg at an angle between 60 and 85 degrees with respect to the longitudinal extensions of said inlet and said outlet manifolds. 13. The heater of claim 5 wherein said inlet and said outlet manifolds are separated from one another by a nonzero distance that is less than 20% of a width of each of the plurality of process tubes extending between said inlet leg and said outlet leg. 14. A heater for heating a feedstock, the heater comprising: a firebox chamber having opposed first and second firing walls and opposed first and second end walls; an inlet manifold having a longitudinal extension; an outlet manifold coplanar with said inlet manifold and having a longitudinal extension that is parallel to the longitudinal extension of said inlet manifold; a plurality of process tubes uniformly disposed between said first and second firing walls, said plurality of process tubes being suspended from and in fluid communication with said inlet manifold and said outlet manifold, each of said process tubes comprising an inlet leg coupled to said inlet manifold, an outlet leg coupled to said outlet manifold, and a U-shaped portion disposed between said inlet leg and said outlet leg for passage of the feedstock therethrough; and a plurality of burners disposed along said first and second firing walls; wherein said inlet manifold and said outlet manifold are elevated with respect to said plurality of process tubes; and wherein each of the plurality of process tubes are uniformly aligned such that each of the plurality of process tubes has a width extending between said inlet leg and said outlet leg at an angle that is between 60 and 85 degrees with respect to the longitudinal extensions of said inlet manifold and said outlet manifold. 15. The heater of claim 14 wherein said plurality of burners comprise wall fired burners or floor fired burners. 16. The heater of claim 14 wherein the heater comprises a process heater or a furnace. 17. The heater of claim 14 wherein the feedstock comprises a hydrocarbon feedstock. 18. The heater of claim 14 wherein said inlet and said outlet manifolds are separated from one another by a nonzero distance that is less than 20% of a width each of the plurality of process tubes extending between said inlet leg and said outlet leg.