Off-gas incinerator control

What is claimed is: 1. A process for operating an off-gas incinerator, the process comprising: introducing a flow of reactant stream into an ammoxidation reactor, wherein the reactant stream includes ammonia, an oxygen containing gas, and a hydrocarbon selected from the group consisting of propane, propylene, or mixtures thereof; determining amount of hydrocarbon in the reactant stream being introduced into the ammoxidation reactor and determining a feed rate of the reactant stream to the ammoxidation reactor, wherein a hydrocarbon conversion rate is about 95% to less than 100%; conveying a gaseous reactor effluent from the ammoxidation to a quench vessel to provide a quenched stream; conveying the quenched stream to an absorber wherein acrylonitrile is absorbed from the quenched stream with an aqueous solution; supplying an absorber off-gas from the absorber to an absorber off-gas incinerator, wherein the absorber off-gas has about 5 weight % or less water; supplying fuel gas and air to the absorber off-gas incinerator; and using the amount of hydrocarbon in the reactant stream being introduced into the ammoxidation reactor and the feed rate of the reactant stream to the ammoxidation reactor in a model predictive control system to adjust the fuel gas flow to the absorber off-gas incinerator and the air flow to the absorber off-gas incinerator in an amount effective for maintaining a temperature in the absorber off-gas incinerator within about 10° F. of a temperature set point of the off-gas incinerator and for providing about 5 volume % or less oxygen in the absorber off-gas incinerator, wherein the process maintains about 6 kg or less NOx in the absorber incinerator off-gas per ton of acrylonitrile produced. 2. The process of claim 1 wherein the process includes controlling the amount of oxygen in the absorber off-gas incinerator and the temperature in the absorber off-gas incinerator based on model predictive control, wherein the model predictive control determines an effect of changes in the amount of hydrocarbon in the reactor stream and the feed rate of the reactant stream on off-gas incinerator temperature and oxygen and adjusts the fuel gas flow and air flow to the off-gas incinerator. 3. The process of claim 1 wherein the temperature in the absorber off-gas incinerator is maintained within about 5° F. of the temperature set point of the absorber off-gas incinerator. 4. The process of claim 1 wherein the hydrocarbon is propylene. 5. The process of claim 1 wherein the quenched stream conveyed to the absorber has a temperature of about 65° C. to about 85° C. 6. The process of claim 1 wherein the quenched stream conveyed to the absorber has a temperature of about 100° C. to about 120° C.