Heat exchange device for cooling synthetic gas and method of assembly thereof

The invention claimed is: 1. A heat exchange device for cooling synthetic gas, the heat exchange device comprising: a channel wall defining a flow channel with an inlet for receiving a gas flow, wherein the channel wall is a gastight membrane wall comprising a plurality of pipe lines forming one or more flow paths for a cooling medium; one or more heat exchange surfaces positioned inside the flow channel creating different parallel flow paths for the gas flow through the flow channel, at least one of the heat exchange surfaces embedding one or more flow paths for a fluid heat exchange medium; and one or more deflection elements positioned inside the flow channel and attached to the channel wall to deflect the gas flow away from the channel wall, wherein the one or more deflection elements are positioned upstream of the heat exchange surfaces; wherein the deflection elements comprise a baffle plate and an anchor element, the baffle plate being connected to the anchor element, the baffle plate being positioned inside the channel wall to deflect the gas flow away from the channel wall and the anchor element extending outwardly from the channel wall through an opening in the channel wall and being attached to the channel wall on the outside of the channel wall. 2. A heat exchange device according to claim 1 , wherein the one or more heat exchange surfaces are coaxially nested heat exchange surfaces of a closed geometry. 3. Heat exchange device according claim 1 , wherein the deflection elements comprise a deflection surface which is at an angle with respect to the channel wall. 4. Heat exchange device according to claim 1 , wherein the individual deflection elements extend over an angle α along the inner perimeter of the channel wall, the angle being in the range 10°≤α≤45°. 5. Heat exchange device according to claim 1 , wherein a gap is present between the baffle plate and the channel wall. 6. Method of assembling a heat exchange device, the method comprising: a) providing a channel wall defining a flow channel with an inlet for receiving a gas flow, wherein the channel wall is a gastight membrane wall, comprising a plurality of pipe lines forming one or more flow paths for a cooling medium; b) providing one or more heat exchange surfaces positioned inside the flow channel creating different parallel flow paths for the gas flow through the flow channel, at least one of the heat exchange surfaces embedding one or more flow paths for a fluid heat exchange medium; and c) installing one or more deflection elements inside the flow channel by attachment to the channel wall to deflect the gas flow away from the channel wall, wherein the one or more deflection elements are positioned upstream of the heat exchange surfaces; wherein the deflection elements comprise a baffle plate and an anchor element, the baffle plate being connected to the anchor element, the baffle plate being positioned inside the channel wall to deflect the gas flow away from the channel wall and the anchor element extending outwardly from the channel wall through an opening in the channel wall and being attached to the channel wall on the outside of the channel wall. 7. Method according to claim 6 , wherein c) comprises c1) providing an opening in the channel wall c2) positioning the one or more deflection elements with the baffle plate inside the channel wall and the anchor element protruding through the opening in the channel wall towards the outside of the channel wall, c3) attaching the deflection element on the outside of the channel wall. 8. Method according to claim 6 , wherein the method further comprises: determining the temperature of the fluid heat exchange medium exiting the heat exchange surfaces, adjusting the number, size, position and/or configuration of the deflection elements.