Microstructure reactor for carrying out exothermic heterogenously-catalysed reactions with efficient evaporative cooling

What is claimed is: 1. A microstructure reactor for carrying out an exothermic reaction between two or more reactants, which are passed in the form of fluids over one or more catalysts, wherein the reactor comprises at least one stacking sequence of (a) at least one layer comprising one or more catalysts for carrying out at least one exothermic reaction, (b) at least one layer divided into two or more cooling fields, (c) at least one layer having distributor structures comprising lines for distribution of a coolant, connections for feeding the coolant to the lines of the distributor structure and for connection to the cooling fields, connections for discharging heated coolant from the cooling fields, and lines and connections for discharging heated coolant from the stacking sequence. 2. The microstructure reactor of claim 1 , wherein the reactor comprises a plurality of stacking sequences. 3. The microstructure reactor of claim 2 , wherein the stacking sequences are arranged as mirror images of each other. 4. The microstructure reactor of claim 1 , wherein individual layers (a) to (c) are configured in the form of plates or in the form of films. 5. The microstructure reactor of claim 4 , wherein layers (a) to (c) have the following thicknesses: layer (a): from 0.5 mm to 10 mm, layer (b): from 0.1 mm to 5 mm, layer (c): from 1 mm to 10 mm. 6. The microstructure reactor of claim 1 , wherein one or more layers (a) to (c) comprise structures on their surface. 7. The microstructure reactor of claim 6 , wherein the one or more catalysts are filled into the structures. 8. The microstructure reactor of claim 7 , wherein the structures are reaction channels or reaction slots, which are filled with particles. 9. The microstructure reactor of claim 8 , wherein the reaction channels or reaction slots have a height of from 0.4 mm to 8 mm. 10. The microstructure reactor of claim 1 , wherein within the distribution structures lines of coolant-carrying feed are arranged with maximum gap to lines for discharging the coolant from the cooling fields. 11. The microstructure reactor of claim 10 , wherein the feed lines for the coolant are descending in hydraulic diameter in a direction of flow of the coolant. 12. The microstructure reactor of claim 11 , wherein discharge lines for steam are ascending in hydraulic diameter in a direction of flow of the coolant. 13. The microstructure reactor of claim 1 , wherein each cooling field comprises a single feed and discharge of the coolant in the distributor structure. 14. The microstructure reactor of claim 1 , wherein the one or more catalysts are cobalt, iron, nickel, rhodium or ruthenium catalysts or contain such elements. 15. The microstructure reactor of claim 1 , wherein feed and discharge of coolant in the distributor structure are arranged in cross-flow in relation to a flow of the reactants.