Catalytic reactor with floating particle catcher

The invention claimed is: 1. Catalytic reactor comprising a catalyst bed, said reactor comprising at least one floating particle catcher unit which is a combined particle catcher and fluid distributor, adapted to catch particles and impurities from process fluid entering the catalytic reactor before they reach the catalyst bed and distribute the process fluid evenly to the top of the catalyst bed, said floating particle catcher unit comprises: a base section comprising a base section top surface, a base section bottom surface adapted to floating support on the catalyst bed, a screen and a particle catcher unit outlet, a channel comprising a particle catcher unit inlet located in its upper portion, and a particle catching surface arranged above and adjacent to the top of the catalyst bed adapted to catch and support said particles and impurities, wherein the channel is mechanically connected to the base section and adapted to allow fluid flow from the particle catcher unit inlet, through the channel, further through the base section which distributes the process fluid evenly to the catalyst bed through the particle catcher unit outlet which is covered by the screen and the floating particle catcher unit is supported by the catalyst bed. 2. Catalytic reactor according to claim 1 , wherein the base section is embedded into the catalyst bed. 3. Catalytic reactor according to claim 1 , wherein the particle catching surface is a sheet or mat arranged on top of the catalyst bed and on top of the base section or a sheet or mat arranged on top of the catalyst bed and connected to the base section. 4. Catalytic reactor according to claim 1 , wherein the particle catching surface is a mat arranged on top of the catalyst bed and on top of the base section with cut out for the channel to protrude through, whereby said mat is covering the entire surface of the catalyst bed and the base section except for the area where the channel protrudes up through the cut out in the mat. 5. Catalytic reactor according to claim 1 , wherein the channel and the base section are separate units which are releasable connected to each other by at least one channel attachment. 6. Catalytic reactor according to claim 1 , wherein the base section comprises a base section main element connected to the channel and one or more base section sub elements connected to the base section main element. 7. Catalytic reactor according to claim 6 , wherein the base section sub element is connected to the base section main element by means of at least one sub element attachment. 8. Catalytic reactor according to claim 7 , wherein the sub element attachment comprises at least one releasable hinge, enabling the base section to be folded for installation and service in the particle separating catalytic reactor. 9. Catalytic reactor according to claim 1 , wherein the base section bottom surface comprises said screen or wherein the base section top surface comprises said screen or wherein the base section top surface and the base section bottom surface comprises said screen. 10. Catalytic reactor according to claim 1 , wherein the base section comprises at least one base section side and wherein said base section side comprises said screen. 11. Catalytic reactor according to claim 1 , wherein the floating particle catcher unit comprises particle catcher lifting means. 12. Catalytic reactor according to claim 1 , comprising a plurality of floating particle catcher units. 13. Catalytic reactor according to claim 12 , wherein the floating particle catcher units are arranged in an even pattern around the center line of the particle separating catalytic reactor. 14. Catalytic reactor according to claim 1 , comprising a plurality of floating particle catcher units, where the total area of the base section bottom surface including any screen is larger than 30% of the total cross sectional area of the catalyst bed. 15. Catalytic reactor according to claim 1 , wherein the screen comprises a plurality of apertures of any shape adapted to prevent catalyst to enter into the floating particle catcher unit. 16. Catalytic reactor according to claim 1 , wherein the screen comprises a plurality of apertures with an opening of maximum 10 mm across the surface of the screen. 17. Catalytic reactor according to claim 1 , wherein the base section bottom surface comprises downward projecting fins to stabilize the floating particle catcher unit during installation and production. 18. Catalytic reactor according to claim 1 , wherein the reactor has a dome shaped upper part, the floating particle catcher unit is located beneath or within the lower part of the dome. 19. Catalytic reactor according to claim 1 , wherein said catalytic reactor is a hydroprocessing reactor.