Method and apparatus for estimating nitrogen oxides out of an engine

What is claimed is: 1. A system comprising: a fuel module programmed to, based on a crankshaft angle of an engine, generate a first value indicative of (i) an amount of fuel burned in a cylinder of the engine, or (ii) a change in the amount of fuel burned in the cylinder; a heat release module programmed to, based on the first value, determine an amount of heat released during a combustion event of the cylinder; a pressure module programmed to, based on the amount of heat released, estimate a pressure in the cylinder; a temperature module programmed to, based on the pressure, estimate a temperature in the cylinder; a concentration module programmed to, based on the pressure or the temperature, estimate nitrogen oxide concentration levels in the cylinder; an output module programmed to estimate an amount of nitrogen oxides out of the cylinder based on the nitrogen oxide concentration levels, a ratio of (i) a concentration level of nitrogen oxide in the cylinder that is not in an equilibrium state, and (ii) a concentration level of nitrogen oxide in the cylinder that is in an equilibrium state, and a plurality of reaction rates; and a control module programmed to, based on the amount of nitrogen oxides out of the cylinder, control operation of the engine or an exhaust system of the engine. 2. The system of claim 1 , wherein: the fuel module is programmed to determine the amount of fuel burned in the cylinder based on a Wiebe function and an amount of fuel supplied to the cylinder for a combustion cycle of the cylinder and a plurality of precalibrated variables; and the fuel module is programmed to determine the plurality of precalibrated variables based on a type of the engine and an operating condition of the engine. 3. The system of claim 1 , wherein: the first value is the change in the amount of fuel burned in the cylinder relative to a change in the crankshaft angle of the engine; and the first value is greater than 0 and less than or equal to 1. 4. The system of claim 1 , wherein the output module is programmed to determine the amount of nitrogen oxides without prior generation of a signal from an in-cylinder pressure sensor or an in-cylinder temperature sensor of the cylinder. 5. The system of claim 1 , wherein the heat release module is programmed to determine the amount of heat released based on the change in the amount of fuel burned in the cylinder relative to a change in the crankshaft angle of the engine. 6. The system of claim 1 , wherein the heat release module is programmed to determine the amount of heat released based on a product of the amount of fuel burned in the cylinder and a fuel heat value. 7. The system of claim 1 , wherein the pressure module is programmed to estimate the pressure based on the amount of heat released, a volume in the cylinder, a specific heat ratio, and the crankshaft angle. 8. The system of claim 1 , wherein the temperature module is programmed to estimate the temperature based on the pressure and a volume in the cylinder. 9. The system of claim 1 , wherein the concentration module is programmed to estimate the nitrogen oxide concentration levels based on the temperature and a predetermined table relating a plurality of temperatures to a plurality of nitrogen oxide concentration levels. 10. The system of claim 1 , further comprising an integration module programmed to sum a plurality of estimated amounts of nitrogen oxides out of the engine, wherein: the output module is programmed to provide the plurality of estimated amounts of nitrogen oxides for a plurality of time steps; and the control module is programmed to, based on the sum of the plurality of estimated amounts of nitrogen oxides out of the engine, control operation of the engine or the exhaust system of the engine. 11. The system of claim 1 , further comprising: an actuation module programmed to generate a plurality of request signals; an air control module programmed to control air flow to the engine based on the amount of nitrogen oxides out of the cylinder; a spark module programmed to control ignition timing of the engine based on the amount of nitrogen oxides out of the cylinder; a fuel control module programmed to control fuel injection of the engine based on the amount of nitrogen oxides out of the cylinder; and an exhaust system module programmed to control the exhaust system based on the amount of nitrogen oxides out of the cylinder. 12. A method comprising: based on a crankshaft angle of an engine, generating a first value indicative of (i) an amount of fuel burned in a cylinder of the engine, or (ii) a change in the amount of fuel burned in the cylinder; based on the first value, determining an amount of heat released during a combustion event of the cylinder; based on the amount of heat released, estimating a pressure in the cylinder; based on the pressure, estimating a temperature in the cylinder; based on the pressure or the temperature, estimating nitrogen oxide concentration levels in the cylinder; estimating an amount of nitrogen oxides out of the cylinder, based on the nitrogen oxide concentration levels, a ratio of (i) a concentration level of nitrogen oxide in the cylinder that is not in an equilibrium state, and (ii) a concentration level of nitrogen oxide in the cylinder that is in an equilibrium state, and a plurality of reaction rates; and based on the amount of nitrogen oxides out of the cylinder, controlling operation of the engine or an exhaust system of the engine. 13. The method of claim 12 , comprising: determining the amount of fuel burned in the cylinder based on a Wiebe function and an amount of fuel supplied to the cylinder for a combustion cycle of the cylinder and a plurality of precalibrated variables; and determining the plurality of precalibrated variables based on a type of the engine and an operating condition of the engine, wherein the first value is the change in the amount of fuel burned in the cylinder relative to a change in the crankshaft angle of the engine, and wherein the first value is greater than 0 and less than or equal to 1. 14. The method of claim 12 , wherein the amount of nitrogen oxides is determined without prior generation of a signal from an in-cylinder pressure sensor or an in-cylinder temperature sensor of the cylinder. 15. The method of claim 12 , wherein the amount of heat released is determined based on a product of the amount of fuel burned in the cylinder and a fuel heat value. 16. The method of claim 12 , wherein: the pressure is estimated based on the amount of heat released, a volume in the cylinder, a specific heat ratio, and the crankshaft angle; and the temperature is estimated based on the pressure and a volume in the cylinder. 17. The method of claim 12 , wherein the nitrogen oxide concentration levels are estimated based on the temperature and a predetermined table relating a plurality of temperatures to a plurality of nitrogen oxide concentration levels. 18. The method of claim 12 , further comprising: summing a plurality of estimated amounts of nitrogen oxides out of the engine, wherein the plurality of estimated amounts of nitrogen oxides are provided for a plurality of time steps; and based on the sum of the plurality of estimated amounts of nitrogen oxides out of the engine, controlling operation of the engine or the exhaust system of the engine.