Portable industrial air filtration device

The invention is claimed as follows: 1. An air filtration device comprising: a housing including a lower housing component and a locking cover removably attachable to the lower housing component; a removable exterior pre-filter mounted within the housing between the locking cover and the lower housing component; a separately removable inner high-efficiency particulate air filter mounted within the pre-filter between the locking cover and the lower housing component; a fan assembly including a fan, the fan assembly mounted within a fan assembly mounting chamber defined by the lower housing component; and a processor configured to control a speed of the fan such that a rate of air flow through the air filtration device when the air filtration device is operating is within a target range and to stop the fan if the rate of air flow through the air filtration device when the air filtration device is operating cannot be sustained within the target range. 2. The air filtration device of claim 1 , which includes a first pressure sensor configured to measure a pressure between the pre-filter and the high-efficiency particulate air filter and a second, independent pressure sensor configured to independently measure a pressure within an interior of the air filtration device radially-inward of the inner high-efficiency particulate air filter. 3. The air filtration device of claim 2 , wherein the first pressure sensor and the second pressure sensor are mounted on the lower housing component. 4. The air filtration device of claim 2 , wherein the processor is configured to: (a) determine a pressure drop across the pre-filter based on a difference between an ambient pressure and the measured pressure between the pre-filter and the high-efficiency particulate air filter, and (b) determine a pressure drop across the high-efficiency particulate air filter based on a difference between the measured pressure between the pre-filter and the high-efficiency particulate air filter and the measured pressure within the interior of the air filtration device. 5. The air filtration device of claim 4 , wherein the processor is configured to dynamically adjust the speed of the fan based on the determined pressure drops across the pre-filter and the high-efficiency particulate air filter such that the rate of air flow through the air filtration device when the air filtration device is operating is maintained within the target range. 6. The air filtration device of claim 4 , wherein the processor is configured to use the determined pressure drops across the pre-filter and the high-efficiency particulate air filter to determine whether at least one of the pre-filter and the high-efficiency particulate air filter needs replacement. 7. The air filtration device of claim 6 , wherein the pre-filter needs replacement if the determined pressure drop across the pre-filter reaches a first designated amount and the high-efficiency particulate air filter needs replacement if the determined pressure drop across the high-efficiency particulate air filter reaches a second designated amount. 8. The air filtration device of claim 6 , which is configured to provide an indication when at least one of the pre-filter and the high-efficiency particulate air filter needs replacement. 9. The air filtration device of claim 1 , which includes a particulate sensor configured to measure an amount of particulates in the air. 10. The air filtration device of claim 9 , wherein the processor is configured to operate with the particulate sensor and the fan assembly to increase a fan speed of the fan assembly when the measured amount of particulates in the air reaches a designated amount, and to decrease the fan speed of the fan assembly when the measured amount of particulates in the air falls below the designated amount. 11. An air filtration device comprising: a housing including: (a) a lower housing component including a base and a plurality of stabilizers extending upwardly from the base; (b) a locking cover removably attachable to the stabilizers; and (c) a fan assembly mounting chamber defined by an underside of the lower housing component; a fan assembly mounted within the fan assembly mounting chamber; a fan assembly mounting chamber cover removably attachable to the underside of the lower housing component; an exhaust port extending transversely and radially outward from the base and defining an exhaust channel; a removable exterior pre-filter mounted within the housing between the locking cover and the lower housing component; and a separately removable inner high-efficiency particulate air filter mounted within the pre-filter between the locking cover and the lower housing component. 12. The air filtration device of claim 11 , wherein the base is generally cylindrical. 13. The air filtration device of claim 11 , wherein the stabilizers are circumferentially spaced apart around the base. 14. The air filtration device of claim 11 , which includes a high-efficiency particulate air filter securing bracket attached to the lower housing component. 15. The air filtration device of claim 14 , which includes a high-efficiency particulate air filter securing plate attached to a portion of the high-efficiency particulate air filter securing bracket. 16. The air filtration device of claim 15 , wherein the high-efficiency particulate air filter securing bracket and the high-efficiency particulate air filter securing plate are configured to mount the high-efficiency particulate air filter to the lower housing component. 17. The air filtration device of claim 11 , which includes an exhaust screen mounted to the lower housing component within the exhaust port. 18. The air filtration device of claim 11 , wherein the lower housing component includes a first surface at a first distance from a center of the base, the first surface defining a first channel. 19. The air filtration device of claim 18 , wherein the lower housing component includes a second surface at a second greater distance from the center of the base, the second surface defining a second channel. 20. The air filtration device of claim 19 , wherein the lower housing component defines a first pressure sensor mounting opening through the first surface and a second pressure sensor mounting opening through the second surface. 21. The air filtration device of claim 20 , which includes a first pressure sensor mounted within the first pressure sensor mounting opening and a second pressure sensor mounted within the second pressure sensor mounting opening. 22. The air filtration device of claim 21 , wherein the first pressure sensor is configured to measure a pressure on an interior of the air filtration device radially-inward of the high-efficiency particulate air filter and the second pressure sensor is configured to measure a pressure between the high-efficiency particulate air filter and the pre-filter. 23. The air filtration device of claim 22 , wherein the high-efficiency particulate air filter includes an end cap covering at least a portion of an end of the high-efficiency particulate air filter. 24. The air filtration device of claim 23 , wherein when the high-efficiency particulate air filter is mounted between the locking cover and the lower housing component, a first airtight seal is created between the first surface and the end cap of the high-efficiency particulate air filter. 25. The air filtration device of c