Botanical air filtration system and method

The invention claimed is: 1. A botanical air filtration system comprising: an enclosure; a wall within the enclosure; two or more horizontal plant beds on which living plants are supported and grow within the enclosure, the plant beds being arranged in vertical tiers along the wall, each of the plant beds comprising a growth media and a tray that contains the growth media, each of the trays having a bottom surface that supports the growth media and holes in the bottom surface through which air moving through the plant bed is able to flow downwardly through the growth media and then exit the plant bed through the bottom surface of the tray; an airflow pattern within the enclosure wherein air moving through the enclosure flows horizontally across each of the plant beds from a front of the tray thereof to a back of the tray thereof, over and through leaves of the plants of the plant beds, then downwardly through the growth media, then downwardly through the holes in the bottom surface of the tray, and then out of the enclosure, the holes in the bottom surface of each of the trays defining a hole pattern that promotes a uniform air flow across the tray; an irrigation system for watering the plants; and a lighting system for simulating sunlight. 2. The botanical air filtration system of claim 1 , wherein the enclosure comprises a backduct and each of the plant beds further comprises an air chamber beneath the bottom surface thereof that receives the air flowing downwardly through the bottom surface and then guides the air to an individual air chamber outlet through which the air passes and enters the backduct. 3. The botanical air filtration system of claim 2 , the system further comprising gates located at the air chamber outlets and adapted for adjusting the airflow between the trays. 4. The botanical air filtration system of claim 1 , wherein the holes have diameters that decrease from the front to the back of each of the trays. 5. The botanical air filtration system of claim 1 , wherein each of the trays is removable from the vertical tiers and maintains an air tight seal around a base of the tray. 6. The botanical air filtration system of claim 1 , wherein the air moving through the enclosure is supplied to an HVAC system of a building so that return air from the building is drawn through the enclosure to remove pollutants with the plants. 7. The botanical air filtration system of claim 6 , wherein the air that has passed through the enclosure is combined with outdoor ventilation air before being recirculated throughout the building. 8. The botanical air filtration system of claim 6 , further comprising means for controlling the HVAC system of the building and/or means for controlling the botanical air filtration system with the HVAC system of the building. 9. The botanical air filtration system of claim 1 , further comprising means for controlling a dehumidification system and/or a humidification system used in combination with the botanical air filtration system to take into consideration a humidification effect of the botanical air filtration system. 10. The botanical air filtration system of claim 1 , further comprising a water control system for controlling the irrigation system and an impact of the irrigation system on the relative humidity of the building. 11. The botanical air filtration system of claim 1 , further comprising a light control system for controlling the lighting system, and adjusting light output based on health of the plants, preferences of residents of the building, and energy use of the lighting system. 12. The botanical air filtration system of claim 1 , further comprising an air flow control system for controlling the air moving through the vertical tiers and the enclosure, and adjusting air flow based on air quality, pressure within the botanical air filtration system, and health of the plants. 13. A method of using a botanical air filtration system, the method comprising: drawing air through an enclosure of the botanical air filtration system, the enclosure having a wall within the enclosure and two or more horizontal plant beds on which living plants are supported and grow within the enclosure, the plant beds being arranged in vertical tiers along the wall, each of the plant beds comprising a growth media and a tray that contains the growth media, each of the trays having a bottom surface that supports the growth media and holes in the bottom surface through which air moving through the plant bed is able to flow downwardly through the growth media and then exit the plant bed through the bottom surface of the tray; wherein the air drawn through the enclosure defines an airflow pattern within the enclosure in which the air flows horizontally across each of the plant beds from a front of the tray thereof to a back of the tray thereof, over and through leaves of the plants of the plant beds, then downwardly through the growth media, then downwardly through the holes in the bottom surface of the tray, and then out of the enclosure, the holes in the bottom surface of each of the trays defining a hole pattern that promotes a uniform air flow across the tray; watering the plants with an irrigation system of the botanical air filtration system; and simulating sunlight for the plants with a lighting system of botanical air filtration system. 14. The method of claim 13 , wherein the enclosure comprises a backduct and each of the plant beds further comprises an air chamber beneath the bottom surface thereof that receives the air flowing downwardly through the bottom surface and then guides the air to an individual air chamber outlet through which the air passes and enters the backduct, the method further comprising adjusting gates located at the air chamber outlets to adjust the airflow between the plant beds. 15. The method of claim 13 , further comprising integrating the enclosure with an HVAC system of a building so that return air from the building is drawn through the enclosure to remove pollutants with the plants. 16. The method of claim 13 , further comprising combining outdoor ventilation air with the air that has passed through the enclosure and then recirculating the combined air throughout the building. 17. The method of claim 16 , further comprising controlling the HVAC system of the building with the botanical air filtration system and/or controlling the botanical air filtration system with the HVAC system of the building. 18. The method of claim 13 , further comprising controlling a dehumidification system and/or a humidification system used in combination with the botanical air filtration system to take into consideration a humidification effect of the botanical air filtration system. 19. The method of claim 13 , further comprising controlling the irrigation system and an impact of the irrigation system on the relative humidity of the building with a water control system of the botanical air filtration system. 20. The method of claim 13 , further comprising controlling the lighting system and adjusting light output based on health of the plants, preferences of residents of the building, and energy use of the lighting system with a light control system of the botanical air filtration system, and controlling the air moving through the vertical tiers and the enclosure and adjusting air flow based on air quality, pressure within the botanical air filtration system and health of the plants with an air flow control system of the botanical air filtration system.