Process for low temperature gas cleaning with ozone and a catalytic bag filter for use in the process

The invention claimed is: 1. A process for the cleaning of a gas stream contaminated with volatile organic compounds (VOCs) and/or sulfur-containing compounds, said process comprising adding ozone to the contaminated gas stream prior to subjecting to ultraviolet irradiation, subjecting the ozone-containing gas stream to ultraviolet irradiation, thereby transforming VOCs to particles, maintaining the irradiated gas stream in a stay zone for a sufficient time to allow aerosol particle growth, and passing the gas stream through a catalytic bag filter to remove the formed particles and eliminate any remaining ozone, wherein the bag filter has been made catalytic by impregnation with a catalyst substance, wherein the catalytic bag filter comprises two or three layers of filter fabric impregnated with the catalyst substance, and wherein the two or three layers are configured such that a layer for ozone removal is the last layer the gas stream passes through before exiting the bag filter. 2. Process according to claim 1 , wherein the catalyst substance contains one or more metal oxides, in which the metals are selected from vanadium, tungsten, palladium and platinum, supported on TiO 2 . 3. Process according to claim 1 , wherein the catalyst substance contains vanadium supported on TiO 2 . 4. Process according to claim 1 , wherein the catalyst substance contains vanadium and palladium supported on TiO 2 . 5. Process according to claim 1 , wherein the catalyst substance contains vanadium and platinum supported on TiO 2 . 6. Process according to claim 1 , wherein the two or three layers comprise an inner layer and one or two outer layers, and the one or two outer layers capture particulates formed in the stay zone. 7. Process according to claim 6 , wherein the inner layer of the catalytic bag filter contains a catalytic substance which is especially efficient in removing ozone, while the one or two outer layers contain catalytic substances which are more efficient for VOC removal. 8. Process according to claim 1 , wherein the gas stream is at a temperature between 20 and 200° C. when it is passed through the catalytic bag filter. 9. Process according to claim 6 , wherein the gas stream is at a temperature lower than 50° C. when it is passed through the catalytic bag filter. 10. Process according to claim 1 , wherein ozone is generated when the ozone-containing gas stream is subjected to ultraviolet irradiation, thereby transforming VOCs to particles. 11. Process according to claim 7 , wherein the gas stream passes through the catalytic bag filter first through the one or two outer layers and then through the inner layer. 12. A process for the cleaning of a gas stream contaminated with volatile organic compounds (VOCs) and/or sulfur-containing compounds, said process comprising adding ozone to the contaminated gas stream and subjecting the ozone-containing gas stream to ultraviolet irradiation, thereby transforming VOCs to particles, maintaining the irradiated gas stream in a stay zone for a sufficient time to allow aerosol particle growth, and passing the gas stream through a catalytic bag filter to remove the formed particles and eliminate any remaining ozone, wherein the bag filter has been made catalytic by impregnation with a catalyst substance, wherein the catalytic bag filter comprises two or three layers of filter fabric impregnated with the catalyst substance, wherein the two or three layers are configured such that a layer for ozone removal is the last layer the gas stream passes through before exiting the bag filter, and wherein adding ozone to the contaminated gas stream and subjecting the ozone-containing gas stream to ultraviolet irradiation occur in a same step of the process.