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Disclosed herein is a method of controlling the air to fuel ratio in a burner containing a venturi assembly. The venturi includes an air inlet, a primary fuel inlet with a converging section, a throat portion downstream from the converging section, a diverging section downstream from the throat port

Disclosed herein is a method of controlling the air to fuel ratio in a burner containing a venturi assembly. The venturi includes an air inlet, a primary fuel inlet with a converging section, a throat portion downstream from the converging section, a diverging section downstream from the throat portion, an outlet, and a secondary gas inlet disposed downstream from the converging section and upstream from the outlet. The method comprises introducing fuel into the fuel inlet, receiving air through the air inlet by inspiration, and feeding a gas through the secondary gas inlet, the flow rate and content of the gas fed through the secondary gas inlet being selected to result in a desired air to fuel ratio through the outlet. A method of firing a heater, a burner, a furnace and firing control systems also are disclosed.

대표청구항 ▼

1. A firing control system for controlling the air to fuel ratio in a burner assembly including at least one venturi assembly comprising: an air inlet,a converging portion with a primary injection fuel inlet,a throat portion downstream from the converging portion,a diverging portion downstream from

1. A firing control system for controlling the air to fuel ratio in a burner assembly including at least one venturi assembly comprising: an air inlet,a converging portion with a primary injection fuel inlet,a throat portion downstream from the converging portion,a diverging portion downstream from the throat portion,an outlet, anda secondary gas inlet disposed downstream from the converging portion and upstream from the outlet, the firing control system comprising: a first flow control device configured to control fuel inlet flow at the primary injection fuel inlet,a second flow control device configured to control gas inlet flow to the secondary gas inlet,a first set of staged burner ports on at least one oldie hearth and the wall, anda fuel analysis component configured to determine whether the fuel at the fuel inlet has a lower heating value or a higher heating, value,wherein the flow rates through the first and second flow control devices are varied depending upon at least one of the composition of the fuel, the heating value of the fuel, the oxygen content at the heater outlet, and the desired air flow rate through the venturi assembly,wherein the second flow control device is also configured to control inlet flow to the first set of staged burner ports. 2. The firing control system of claim 1, wherein at least one of the first and second flow control devices is a valve. 3. The firing control system of claim 1, wherein at least one of the first and second flow control devices is a pressure regulator. 4. The firing control system of claim 1, further comprising a damper for assisting in control of the air inlet flow rate. 5. A firing control system for a furnace comprising: a hearth,a side wall, anda burner assembly with at least one burner including a venturi assembly comprising: an air inlet,a converging portion with a primary injection fuel inlet,a throat portion downstream from the converging portion,a diverging portion downstream from the throat portion,an outlet, anda secondary gas inlet disposed downstream from the converging portion and upstream from the outlet, the firing control system comprising: a first flow control device configured to control fuel inlet flow to the primary injection fuel inlet,a second flow control device configured to control inlet flow to the secondary gas inlet, anda first set of staged burner ports on at least one of the hearth and the wall,wherein the flow rates through the first and second flow control devices are varied depending upon at least one of the composition of the fuel, the heating value of the fuel, the oxygen content at the heater outlet, and the desired air flow rate through the venturi assembly,wherein the second flow control device is also configured to control inlet flow to the first set of staged burner ports. 6. The firing control system of claim 5, further including a third flow control device configured to control inlet flow of a low heating value fuel to a second set of staged burner ports adjacent the first set of staged burner ports. 7. The firing control system of claim 5, further including a fuel analysis component configured to determine at least one of the composition and heating value of the fuel being fed to the primary injection fuel inlet. 8. The firing control system of claim 7, wherein the first and second flow control devices are controlled by the fuel analysis component. 9. A firing control system for a furnace comprising: a hearth,a side wall,a furnace fuel inlet, anda burner comprising a venturi assembly with a first fuel inlet and a second fuel inlet, the firing control system comprising:an oxygen analysis component configured to determine the post-combustion oxygen content of the furnace, anda first set of staged burner ports on at least one of the hearth and the wall, wherein the oxygen analysis component adjusts the relative fuel flow rates to the first and second fuel inlets of the venturi assembly and the first set of staged burner ports. 10. A firing control system for a furnace comprising: a hearth,a side wall, anda burner with a furnace fuel inlet and a supplemental fuel inlet, the firing control system comprising: a fuel analysis component configured to determine whether the fuel at the fuel inlet has a lower heating value or a higher heating value, anda first set of staged burner ports on at least one of the hearth and the wall, wherein the fuel analysis component controls the flow rate of fuel to at least one of the furnace fuel inlet, the supplemental fuel inlet, and the first set of staged burner ports.