Air filtration system and method

What is claimed is: 1. A system for providing filtered air to an enclosed space, comprising: a first air feed pump adapted to pull air from an exterior environment and push pressurized air through the system to the enclosed space; a power source adapted to provide electrical power to the first air feed pump; a first filter media positioned between the first air feed pump and the enclosed space, downstream of the first air feed pump, the first filter media adapted to provide coarse filtration of the pressurized air pumped from the first air feed pump through the first filter media; a second filter media positioned between the first filter media and the enclosed space, downstream of the first filter media, the second filter media adapted to provide fine filtration of the pressurized air pumped from the first filter media through the second filter media; a first control valve positioned between the first air feed pump and the first filter media, downstream of the first air feed pump, the first control valve being adapted to control the flow of pressurized air from the first air feed pump; a first reversing control valve positioned between the second filter media and the enclosed space, a reverse air flow path extending between and interconnecting the first control valve to the first reversing control valve, and a second reverse control valve positioned between the first control valve and the first filter media, wherein: the first control valve is selectively actuatable to divert pressurized air flow from the first air feed pump to the reverse air flow path; the first reversing control valve is selectively actuatable to stop air flow to the enclosed space and divert air flow from the reverse air flow path through the second filter media and the first filter media; and the second reverse control valve is selectively actuatable to divert pressurized air flow passing through the first filter media to the environment; and wherein, when pressurized air flows through the first and second filter media from the reverse air flow path, the pressurized air dislodges particles captured by the first and second filter media and expels the particles dislodged from the first and second filter media out of the system to the exterior environment through the second reverse control valve. 2. The system of claim 1 , wherein the first filter media is adapted to remove particles that are larger than approximately 5 microns from the pressurized air flowing through the first filter media. 3. The system of claim 2 , wherein the second filter media is adapted to remove particles that are between approximately 1 nanometer and approximately 20 nanometers in size from the pressurized air flowing through the second filter media. 4. The system of claim 3 , wherein the enclosed space is a facemask adapted to deliver air that has passed through the first filter media and the second filter media to an individual user. 5. The system of claim 4 , wherein the power source is adapted to provide between approximately 20 and approximately 32 watts of power to the first air feed pump and the first air feed pump is adapted to provide air that is pressured to between approximately 1 psi and approximately 3 psi to the facemask at a flow rate of between approximately 30 liters per minute and approximately 60 liters per minute. 6. The system of claim 3 , wherein the enclosed space is a vehicle compartment. 7. The system of claim 1 , further including: a second air feed pump adapted to pull air from the enclosed space and push pressurized air through the system to the exterior environment; and a third filter media positioned between the second air feed pump and the exterior environment, downstream of the second air feed pump, the third filter media adapted to provide fine filtration of the pressurized air pumped from the second air feed pump through the third filter media. 8. The system of claim 7 , further including a second control valve positioned between the second air feed pump and the third filter media, downstream of the second air feed pump, the second control valve being adapted to control the flow of pressurized air from the second air feed pump. 9. The system of claim 8 , wherein the third filter media is adapted to remove particles that are between approximately 1 nanometer and approximately 20 nanometers in size from the pressurized air flowing through the third filter media. 10. The system of claim 9 , further including a fourth filter media positioned between the second air feed pump and the third filter media, downstream of the second air feed pump, the fourth filter media adapted to provide course filtration of the pressurized air pumped from the second air feed pump through the fourth filter media before the pressurized air passes through the third filter media. 11. The system of claim 10 , wherein the fourth filter media is adapted to remove particles that are larger than 5 microns from the pressurized air flowing through the fourth filter media. 12. The system of claim 1 , wherein the power source adapted to provide electrical power to the first air feed pump is a rechargeable battery pack, enabling the system to be portable. 13. The system of claim 1 , further including a chamber surrounding the first and second filter media, wherein, when pressurized air flows through the first and second filter media from the reverse air flow path, the pressurized air dislodges particles captured by the first and second filter media and expels the particles dislodged from the first and second filter media into the chamber surrounding the first and second filter media. 14. A method of providing filtered air to an enclosed space, comprising: providing, with a power source, electrical power to a first air feed pump; pulling, with the first air feed pump, air from an exterior environment and pushing, with the first air feed pump, pressurized air to the enclosed space; providing, with a first filter media positioned between the first air feed pump and the enclosed space, downstream of the first air feed pump, course filtration of the pressurized air pumped from the first air feed pump through the first filter media and removing, with the first filter media, particles that are larger than approximately 5 microns from the pressurized air; providing, with a second filter media positioned between the first filter media and the enclosed space, downstream of the first filter media, fine filtration of the pressurized air pumped from the first filter media through the second filter media and removing, with the second filter media, particles that are between approximately 1 nanometer and approximately 20 nanometers in size from the pressurized air; pulling, with a second air feed pump, air from the enclosed space and pushing, with the second air feed pump, pressurized air to the exterior environment; and providing, with a third filter media positioned between the second air feed pump and the exterior environment, downstream of the second air feed pump, fine filtration of the pressurized air pumped from the second air feed pump through the third filter media and removing, with the third filter media, particles that are between approximately 1 nanometer and approximately 20 nanometers in size from the pressurized air. 15. The method of claim 14 , wherein the providing, with the power source, electrical power to the first air feed pump further includes providing, with the power source, between approximately 20 and approximately 32 watts of power to the first air feed pump; and the pushing, with the first air feed pump, pressurized air to the enclosed space further inc