Engine with low mounted cyclonic air filter assembly

What is claimed is: 1. An internal combustion engine comprising: an engine block including a cylinder having a cylinder axis; a piston positioned within the cylinder and structured to reciprocate along the cylinder axis; a crankshaft structured to rotate about a crankshaft axis; an air-fuel mixing device structured to provide an air-fuel mixture to the cylinder; a cyclonic air filter assembly positioned entirely below the air-fuel mixing device, the cyclonic air filter assembly comprising: a cyclonic air filter housing; and a filter element positioned within the cyclonic air filter housing; and a duct coupling the cyclonic air filter assembly to the air-fuel mixing device and structured to provide air filtered by the cyclonic air filter to the air-fuel mixing device. 2. The engine of claim 1 , wherein the cyclonic air filter housing defines an interior volume, the cyclonic air filter housing having a first housing end portion and a second housing end portion; wherein the filter element comprises a first filter end portion, a second filter end portion, and filter media extending between the first filter end portion and the second filter end portion, wherein the filter element divides the interior volume into a filtered volume and an unfiltered volume; and wherein the cyclonic air filter assembly further comprises: a gap between the filter element and the cyclonic air filter housing structured to allow air to flow between the filter element and the cyclonic air filter housing; an air intake structured to allow air to flow into the cyclonic air filter housing; and a filtered air outlet in fluid communication with the filtered volume of the interior volume. 3. The engine of claim 2 , wherein the air intake is structured so that air enters the cyclonic air filter housing by flowing upward through the air intake into the gap; wherein the gap is structured to direct air in a cyclonic manner in a first airflow pass in a first direction from the first housing end portion toward the second housing end portion; wherein air passes through the filter media into the filter element which is structured to direct filtered air in a second airflow pass to the filtered air outlet in a second direction substantially opposite the first direction; and wherein an outlet passage is structured to direct filtered air into a third airflow pass after flowing through the filtered air outlet, the third airflow pass in a third direction substantially same as the first direction. 4. The engine of claim 2 , wherein the engine further comprises a recoil starter and the cyclonic air filter housing further comprises a cap and a base, wherein the cap is positioned on a same side of the engine as the recoil starter and is structured to releasably fasten to the base. 5. The engine of claim 2 , further comprising a debris outlet formed at the second housing end portion and structured to allow debris and air to exit the cyclonic air filter housing; wherein the air intake and the filtered air outlet are formed at the first housing end portion. 6. The engine of claim 2 , wherein the air intake and the filtered air outlet are formed in a base of the cyclonic air filter housing at the first housing end portion and a debris outlet is formed in a cap of the cyclonic air filter housing at the second housing end portion. 7. The engine of claim 2 , wherein the cyclonic air filter housing comprises a cap and a base, wherein the cap is structured to releasably fasten to the base and a debris outlet is formed in the cap. 8. The engine of claim 7 , wherein the cap comprises a channel formed therein structured to direct air and debris toward the debris outlet. 9. The engine of claim 2 , wherein the cyclonic air filter assembly is oriented horizontally with the engine in a normal operating position. 10. An internal combustion engine comprising: an engine block including a cylinder having a cylinder axis; a piston positioned within the cylinder and configured to reciprocate along the cylinder axis; a crankshaft configured to rotate about a crankshaft axis; an air-fuel mixing device configured to provide an air-fuel mixture to the cylinder; a cyclonic air filter assembly positioned offset from the crankshaft axis and below the air-fuel mixing device, the cyclonic air filter assembly comprising: a cyclonic air filter housing; and a filter element positioned within the cyclonic air filter housing; and a duct coupling the cyclonic air filter assembly to the air-fuel mixing device and configured to provide air filtered by the cyclonic air filter assembly to the air-fuel mixing device. 11. The engine of claim 10 , wherein the cyclonic air filter housing defines an interior volume, the cyclonic air filter housing having a first housing end portion and a second housing end portion; and wherein the filter element comprises a first filter end portion, a second filter end portion, and filter media extending between the first filter end portion and the second filter end portion, wherein the filter element divides the interior volume into a filtered volume and an unfiltered volume. 12. The engine of claim 11 , wherein the engine further comprises a recoil starter and the cyclonic air filter housing further comprises a cap and a base, wherein the cap is positioned on a same side of the engine as the recoil starter and is structured to releasably fasten to the base. 13. The engine of claim 11 , further comprising: a debris outlet formed at the second housing end portion and structured to allow debris and air to exit the cyclonic air filter housing; and an air intake formed at the first housing end portion. 14. The engine of claim 11 , wherein the cyclonic air filter housing comprises a cap and a base, wherein the cap is structured to releasably fasten to the base and a debris outlet is formed in the cap. 15. The engine of claim 14 , wherein the cap comprises a channel formed therein structured to direct air and debris toward the debris outlet. 16. A cyclonic air filter assembly configured to provide filtered air to an engine, comprising: a cyclonic air filter housing comprising a base and a cap at least partially defining an interior volume of the cyclonic air filter housing, wherein the cap includes a debris outlet configured to allow debris and air to exit the cyclonic air filter housing and a channel formed on an interior cap surface, the channel configured to direct air and debris toward the debris outlet; a filter element positioned within the interior volume comprising a first end portion, a second end portion, and filter media extending between the first end portion and the second end portion, wherein the filter element divides the interior volume into a filtered volume and an unfiltered volume; a gap between the filter element and the cyclonic air filter housing configured to allow air to flow between the filter element and the cyclonic air filter housing; an air intake formed in the base and configured to allow air to flow into the cyclonic air filter housing; and a filtered air outlet formed in the base and in fluid communication with the filtered volume of the filter element, wherein the filtered air outlet is fluidly coupled to an air-fuel mixing device to allow filtered air to exit the cyclonic air filter housing. 17. The cyclonic air filter assembly of claim 16 , wherein the cyclonic air filter housing includes a first housing end portion and a second housing end portion, the air intake and the filtered air outlet formed in the base at the first housing end portion and the debris outle