Method and device for performing PCO reaction and air purifier comprising the device

The invention claimed is: 1. A method for performing photocatalytic oxidation (PCO) reaction, the method comprises: guiding an air flow into a PCO reactor, said PCO reactor containing a photocatalyst; obtaining a humidity of the photocatalyst using a hygrometer; splitting the air flow into a first stream and a second stream dependent on the obtained humidity of the photocatalyst, wherein a quantity of the first stream being less than a quantity of the second stream; adjusting the humidity of the first stream to a target humidity according to the obtained humidity of the photocatalyst; adjusting the humidity of the photocatalyst by guiding the adjusted humidity first stream to the photocatalyst; guiding the second stream through the photocatalyst; and illuminating the photocatalyst with a light. 2. The method according to claim 1 , wherein the step of adjusting comprises: modulating the humidity of the first stream to the target humidity according to a difference between the obtained humidity of the photocatalyst and a predetermined humidity of the photocatalyst. 3. The method according to claim 2 , wherein in the step of adjusting: the first stream is humidified if the obtained humidity of the photocatalyst is lower than the predetermined humidity of the photocatalyst; the humidity of the first stream is kept unchanged if the obtained humidity of the photocatalyst is equal to the predetermined humidity of the photocatalyst; and the first stream is dehumidified if the obtained humidity of the photocatalyst is higher than the predetermined humidity of the photocatalyst. 4. The method according to claim 1 , wherein the method further comprises: detecting the humidity of the air flow. 5. The method according to claim 1 , wherein the humidity controlling channel comprises: a first channel is configured to humidify the first stream, a second channel configured to retain the humidity of the first stream, and a third channel configured to dehumidify the first stream. 6. A device for performing photocatalytic oxidation (PCO) reaction, the device comprises: a PCO reactor comprising: photocatalyst; an air flow channel configured to: guide an air flow into the PCO reactor for PCO reaction; a hygrometer configured to: obtain a humidity of the photocatalyst in the PCO reactor; an air splitting unit configured to: split the air flow into a first stream and a second stream dependent on the obtained humidity of the photocatalyst, wherein a quantity of the first stream being less than a quantity of the second stream, and; a humidity controlling channel configured to: adjust the humidity of the first stream to a target humidity according to the obtained humidity of the photocatalyst, and adjust the humidity of the photocatalyst by guiding the adjusted humidity first stream to the photocatalyst; and a main stream channel configured to guide the second stream through to the photocatalyst. 7. The device according to claim 6 , wherein the humidity control channel is configured to: adjust the humidity of the first stream to the target humidity according to a difference between the obtained humidity of the photocatalyst and a predetermined humidity of the photocatalyst. 8. The device according to claim 7 , wherein the humidity control channel is configured to: humidify the first stream when the obtained humidity of the photocatalyst is lower than the predetermined humidity of the photocatalyst; retain the humidity of the first stream when the obtained humidity of the photocatalyst is equal to the predetermined humidity of the photocatalyst; and de-humidify the first stream when the obtained humidity of the photocatalyst is higher than the predetermined humidity of the photocatalyst. 9. The device according to claim 6 , wherein the device further comprises: a humidity sensor configured to detect the humidity of the air flow. 10. The device according to claim 6 , wherein the humidity controlling channel comprises: a first channel configured to humidify the first stream; a second channel configured to retain the humidity of the first stream; and a third channel configured to dehumidify the first stream. 11. The device according to claim 6 , wherein the PCO reactor comprises: an inner tube; comprising: a first opening, and a second opening, the inner tube being perforated, wherein the photocatalyst is arranged on an inner surface of the inner tube; an outer tube comprising: a third opening, and a fourth opening, the outer tube jacketing the inner tube to form a jacket chamber between the inner tube and the outer tube, the jacket chamber comprising a jacket chamber opening between the first opening and the third opening; a sealing surface extending between the second opening and the fourth opening; and a light source; arranged within the inner tube. 12. The device according to claim 11 , wherein the first stream is guided into the jacket chamber and the second stream is guided into the inner tube from the first opening. 13. The device according to claim 6 , wherein a quantity of the air flow in the first stream and a quantity of the air flow in the second stream is in a ratio dependent on the humidity of the photocatalyst. 14. An air purifier comprising: a PCO reactor device comprising: an air flow channel configured to: guide an air flow for PCO reaction; a hygrometer configured to: obtain a humidity of the photocatalyst; an air splitting unit configured to: split the air flow into a first stream and a second stream based on the obtained humidity of the photocatalyst, wherein a quantity of the first stream being less than a quantity of the second stream; a humidity controlling channel configured to: control the humidity of the first stream to a target humidity based on the obtained humidity of the photocatalyst, and adjust the humidity of the photocatalyst by guiding the adjusted humidity first stream to the photocatalyst; and a main stream channel configured to guide the second stream through the photocatalyst.