Regenerative air purification system and method

What is claimed is: 1. A regenerative air purification system comprising: a gas adsorption filter having a reaction surface for photo-catalytic oxidation (PCO), wherein the gas adsorption filter can capture volatile organic compounds; a set of gas sensors configured to sense at least one kind of the volatile organic compounds on the adsorption filter surface; a processor configured to receive input data from the set of sensors, and to compare with predetermined upper threshold or lower threshold; wherein, when the input data exceeds a predetermined upper threshold or lower threshold indicating that a specified concentration of said at least one kind of the compounds is present on the adsorption filter, an alert signal is generated on the processor; a heater that can be turned on/off by the alert signal, and can heat up the gas adsorption filter to make the captured compounds to be easily desorbed from the gas adsorption filter; and UV lamps that can be turned on/off by the alert signal, and can convert the desorbed compounds near the reaction surface into H 2 O and CO 2 . 2. The regenerative air purification system of claim 1 , further comprising auto valves, wherein the processor is configured to send signals to the auto valves to change the system between a cleaning air phase and a regenerative phase; wherein, when the input data exceeds a predetermined upper threshold, a generated alert signal from the processor will be sent to the auto valves to change the cleaning air phase to the regenerative phase; and wherein, when the input data exceeds a predetermined lower threshold, a generated alert signal from processor will be sent to the auto valves to change the regenerative phase to the cleaning air phase. 3. The regenerative air purification system of claim 1 , which is installed in a HVAC air ducting system. 4. The regenerative air purification system of claim 3 , further comprising a pre-filter of particles and HEPA-filter of particles or a high efficiency filter with nano-material fibers (HENF) that are positioned upstream of the gas adsorption filter. 5. The regenerative air purification system of claim 3 , wherein the gas adsorption filter is configured as a cylinder type of duct; and wherein air penetrates from the outside of the cylinder into the inside of the cylinder during the air cleaning phase. 6. The regenerative air purification system of claim 2 , wherein the auto valves are controlled by signal from the processor. 7. The regenerative air purification technology of claim 5 , wherein TiO 2 or TiO 2 mixed with active carbon material is coated on the outer surface of the cylinder as the reaction surface for PCO. 8. The regenerative air purification system of claim 7 , wherein the heater is in the central location inside the cylinder.