Gasification reactor with a heat exchange unit provided with one or more fouling protection devices

What is claimed is: 1. A gasification reactor with a heat exchange unit, the heat exchange unit comprising: a gas flow channel; one or more heat exchangers arranged within the gas flow channel, the one or more heat exchangers comprising: a set of coaxially nested tubular heat exchange surfaces having a central passage; one or more support structures carrying the set of heat exchange surfaces, at least one support structure of the one or more support structures being located at the inlet side of the heat exchanger; one or more blasters directed to blast over an upstream surface of the at least one support structure being located at the inlet side of the heat exchanger; and a cover plate blocking the central passage of the set of tubular heat exchange surfaces, an upstream surface of the cover plate being provided with a blast lance having one or more nozzles directed to blast in a direction parallel to the upstream surface. 2. The gasification reactor according to claim 1 wherein the support structure comprises a plurality of radial arms extending from a central point, wherein at least part of the arms are within the scope of the one or more blasters. 3. The gasification reactor according to claim 2 wherein one or more of the arms of the support structure carries a blaster comprising a blast gas supply line extending over the upstream surface of the arm, one longitudinal side of the blast gas supply line being connected to the arm while the opposite longitudinal side is provided with a plurality of nozzles directed in a direction parallel to the arm. 4. The gasification reactor according to claim 3 wherein the nozzles on the arm are at least partly arranged in pairs of oppositely directed nozzles. 5. The gasification reactor according to claim 1 wherein the nozzles branch off under right angles from a central supply conduit. 6. The gasification reactor according to claim 1 wherein the cover plate blocks a central passage through a tubular heat exchange surface, provided with a conical flow guide pointing in upstream direction covering the upstream surface of the cover plate. 7. The gasification reactor according to claim 6 wherein the conical flow guide is formed by one or more conically spiraling cooling medium conduits. 8. The gasification reactor according to claim 1 , comprising a tubular inner wall defining the gas flow channel, coaxially surrounded by an outer wall, the inner wall being formed by cooling medium conduits interconnected to form a gastight membrane, wherein one or more radially extending blast lances extend through the membrane having nozzles within the gas flow channel. 9. The gasification reactor according to claim 8 wherein one or more of the radially extending blast lances are interconnected by one or more common blast gas supply lines between the inner wall and the outer wall. 10. The gasification reactor according to claim 9 wherein a hot gas discharge of a gasifier unit opens eccentrically into the inlet area of the gas flow channel and the one or more radially extending blast lances crossing the inner wall are located in an area below the hot gas discharge. 11. The gasification reactor according to claim 10 wherein the area occupied by the radially extending blast lances spans a semi-circular section of the gas flow channel cross sectional area. 12. The gasification reactor according to claim 1 wherein the gas flow channel runs vertically downwards. 13. The gasification reactor according to claim 1 , wherein the supported one or more heat exchange surfaces hangs down from the at least one support structure located at the inlet side of the heat exchanger.