In-line gasifier having a cooling jacket with pipework passing through the side of the pressure cladding

We claim: 1. A reactor for gasifying carbon-containing fuels, using a gasification agent containing free oxygen, in-line in the flow at pressures of up to 10 MPa, comprising: a cooling jacket in a pressure cladding delimiting a reaction space, wherein the cooling jacket is formed by a plurality of coils of a pipe through which flows a cooling liquid, wherein the cooling jacket includes several runs of piping which are coiled parallel to one another, wherein the pressure cladding is closed off in the upper region of the cooling jacket by a removable vessel cover over a cladding flange, wherein the lower ends of the individual pipe runs are joined to a connector bush for the cooling fluid, which in the lower region of the cooling jacket forms a pressure-tight passage through the pressure cladding, wherein the upper ends of the individual pipe runs are joined to a connector bush for the cooling fluid, which forms a pressure-tight passage through the pressure cladding below the cladding flange, wherein the upper ends of the individual pipe runs are connected to a separate connector bush, which forms a pressure-tight passage through the pressure cladding, wherein connected at the highest point on the upper end of a pipe run is an air bleed line, the other end of the air bleed line having a pressure-tight passage through the pressure cladding below the cladding flange, via a connector bush, and wherein final mounting seams, required during mounting and replacement of the cooling jacket, lie in the region above the cladding flange. 2. The reactor as claimed in claim 1 , wherein at the lower end of the cooling jacket there is a lower distributor pipe, arranged essentially concentrically about the vertical central axis of the reactor, wherein the individual pipe runs are joined by their lower ends to the lower distributor pipe, and wherein the lower distributor pipe is joined to a connector bush, which forms a pressure-tight passage through the pressure cladding. 3. The reactor as claimed in claim 1 , wherein the connector which is joined to the lower end of a pipe run forms the inlet for cooling liquid, and the connector which is joined to the upper end of a pipe run forms the outlet for cooling liquid. 4. The reactor as claimed in claim 1 , wherein the cooling jacket is formed by a six-start coil of six parallel pipe runs.