System and method for engine combustion

The invention claimed is: 1. An internal combustion engine comprising: a block defining a crankcase chamber and at least one bore extending from and in fluid communication with the crankcase chamber; at least one cylinder head attached to the block, the at least one cylinder head defining a first intake port and a second intake port, wherein each of the first and second intake ports includes a first end having an opening provided therein, an opposing second end in fluid communication with the one or more cylinder bores and an inner periphery defined between the first and second ends; a dividing member extending at least partially through the inner periphery of the first intake port to create first and second flow portions therein; a flap adjustably connected to the at least one cylinder head and having an arm, a first flap portion removably secured to and extending from the arm, wherein the first flap portion is sized to at least partially cover and substantially close the second flow portion of the first intake port when the first flap portion is disposed adjacent the opening of the first intake port, and a second flap portion disposed adjacent the first flap portion removably secured to and extending from the arm wherein the second flap portion is sized to at least partially cover and substantially close the second intake port when the second flap portion is disposed adjacent the opening of the second intake port; an actuator operatively connected to the arm of the flap to adjustably position the first and second flap portions; and a controller in electrical communication with the actuator configured to monitor the condition of the engine and actuate the flap with the actuator to position the first and second flap portions to generate a first combustion condition and a second combustion condition, wherein the first and second flap portions of the flap are configured to at least partially cover one of the first and second intake ports to restrict flow through the substantially closed port while allowing flow through the uncovered first or second intake port to generate the first and second combustion conditions. 2. The internal combustion engine of claim 1 wherein the first combustion condition is created when the flap is moved to a first position such that the first flap portion is moved away from the opening in the first intake port and the second flap portion is moved adjacent the opening in the second intake port to substantially close the opening in the second intake port. 3. The internal combustion engine of claim 1 wherein the second combustion condition is created when the flap is moved to a second position such that the first flap portion is moved adjacent the opening in the first intake port to substantially close the second flow portion and the second flap portion is moved away from the opening in the second intake port. 4. The internal combustion engine of claim 1 wherein the first and second flap portions are independently mounted adjacent the first and second intake ports and movable between the first position and the second position. 5. The internal combustion engine of claim 1 further comprising one or more intake valves extending at least partially through one or more of the first and second intake ports that are reciprocally moved between a closed position and an actuated position wherein the intake valves allow the flow of a fluid through the first and second intake ports into the one or more cylinder bores. 6. A combustion system for use with one or more cylinder bores of an internal combustion engine comprising: at least one cylinder head attached to a block, the at least one cylinder head defining a first intake port and a second intake port, wherein each of the first and second intake ports includes a first end having an opening provided therein, an opposing second end in fluid communication with the one or more cylinder bores and an inner periphery defined between the first and second ends; a dividing member extending at least partially through the inner periphery of the first intake port to create first and second flow portions therein; a flap adjustably connected to the at least one cylinder head and having an arm, a first flap portion removably secured to and extending from the arm, wherein the first flap portion is sized to at least partially cover and substantially close the second flow portion of the first intake port when the first flap portion is disposed adjacent the opening of the first intake port, and a second flap portion disposed adjacent the first flap portion and removably secured to and extending from the arm wherein the second flap portion is sized to at least partially cover and substantially close the second intake port when the second flap portion is disposed adjacent the opening of the second intake port; an actuator operatively connected to the arm of the flap to adjustably position the first and second flap portions; and a controller in electrical communication with the actuator configured to monitor the condition of the engine and actuate the flap with the actuator to position the first and second flap portions to generate a first combustion condition and a second combustion condition, wherein the first combustion condition is created when the flap is moved to a first position such that the first flap portion is moved away from the opening in the first intake port and the second flap portion is moved adjacent the opening in the second intake port to substantially close the opening in the second intake port to restrict flow through the second intake port and the second combustion condition is created when the flap is moved to a second position such that the first flap portion is moved adjacent the opening in the first intake port to substantially close the second flow portion and restrict flow through the second flow portion of the first intake port and the second flap portion is moved away from the opening in the second intake port. 7. The combustion system of claim 6 wherein the first and second flap portions are independently mounted adjacent the first and second intake ports to be moved between the first position and the second position. 8. The combustion system of claim 6 further comprising one or more intake valves extending at least partially through one or more of the first and second intake ports that are reciprocally moved between a closed position and an actuated position wherein the intake valves allow the flow of a fluid through the first and second intake ports into the one or more cylinder bores. 9. A method of combustion in an internal combustion engine comprising: providing at least one cylinder head attached to a block, the at least one cylinder head defining a first intake port and a second intake port, wherein each of the first and second intake ports includes a first end having an opening provided therein, an opposing second end in fluid communication with the one or more cylinder bores and an inner periphery defined between the first and second ends; providing a dividing member extending at least partially through the inner periphery of the first intake port to create first and second flow portions therein; providing a flap adjustably connected to the at least one cylinder head and having an arm, a first flap portion removably secured to and extending from the arm, sized to at least partially cover and substantially close the second flow portion of the first intake port when the first flap portion is disposed adjacent the opening of the first intake port, and a second flap portion disposed adjacent the first flap portion, removably secured to and extending from the arm and sized to at least partially cover and substantially close the second intake port when the se