Chromium- and nickel-free hydrogenation of hydroformylation mixtures

The invention claimed is: 1. A process for preparing alcohols by hydrogenation of aldehydes, in which a feed mixture comprises the step of a) contacting an aldehyde and an accompanying component is contacted with a heterogeneous catalyst in the presence of hydrogen, giving a product mixture comprising the alcohol corresponding to the hydrogenated aldehyde, and a by-product, wherein the heterogeneous catalyst comprises a support material and copper applied thereto, wherein the support material is silicon dioxide; and the catalyst in activated form has the following composition that adds up to 100% by weight: silicon dioxide: from 86% by weight to 90% by weight; copper: from 10% by weight to 14% by weight; nickel: from 0 ppm by weight to 50 ppm by weight; chromium: from 0 ppm by weight to 50 ppm by weight; aluminium oxide: from 0 ppm by weight to 1000 ppm by weight; other substances: from 0 ppm by weight to 1% by weight wherein the support material makes up from 86% to 90% by of the composition and the remaining components set forth above make up from 10% to 14% by weight of the composition and wherein the yield of the alcohol is from 95% to 99%. 2. The process according to claim 1 , wherein the heterogeneous catalyst in activated form has the following composition adding up to 100% by weight: silicon dioxide: from 87% by weight to 89% by weight; copper: from 11% by weight to 13% by weight; nickel: from 0 ppm by weight to 50 ppm by weight; chromium: from 0 ppm by weight to 50 ppm by weight; ruthenium: from 0 ppm by weight to 50 ppm by weight; palladium: from 0 ppm by weight to 50 ppm by weight; platinum: from 0 ppm by weight to 50 ppm by weight; aluminium oxide: from 0 ppm by weight to 100 ppm by weight; water: from 0 ppm by weight to 100 ppm by weight; carbonates: from 0 ppm by weight to 100 ppm by weight; hydroxides: from 0 ppm by weight to 100 ppm by weight; other substances: from 0 ppm by weight to 0.5% by weight wherein the support material makes up from 87% to 89% by of the composition and the remaining components set forth above make up from 11% to 13% by weight of the composition. 3. The process according to claim 1 , wherein the specific pore volume of the support material is between 0.8 cm 3 /g and 1.2 cm 3 /g, determined by the cyclohexane immersion method, and in that the specific surface area of the support material (BET surface area) is between 130 m 2 /g and 170 m 2 /g, determined by ISO method 9277. 4. The process according to claim 1 , wherein it is conducted at a pressure between 15*10 5 Pa and 25*10 5 Pa and at a temperature between 140° C. and 180° C., the pressure and temperature being chosen such that feed mixture and product mixture are in a liquid phase. 5. The process according to claim 4 , wherein the hydrogen is present in a superstoichiometric amount, the concentration of the hydrogen being chosen such that at least some of the hydrogen is dissolved in the liquid phase. 6. The process according to claim 1 , wherein the feed mixture originates from a hydroformylation and as such comprises a plurality of aldehydes with the same number n of carbon atoms, and corresponding alcohols and high boilers, where n is a natural number between three and eighteen. 7. The process according to claim 6 , wherein the feed mixture has the following composition that adds up to 100% by weight: total fraction of the aldehydes having nine carbon atoms: 25% by weight to 75% by weight; total fraction of the alcohols having nine carbon atoms: 10% by weight to 55% by weight; total fraction of acetals: 0.5% by weight to 5.5% by weight; total fraction of further hydrocarbons: 0% by weight to 40% by weight; water: 0% by weight to 3% by weight. 8. The process according to claim 6 , wherein the feed mixture has the following composition that adds up to 100% by weight: total fraction of the aldehydes having nine carbon atoms: 15% by weight to 65% by weight; total fraction of the alcohols having nine carbon atoms: 20% by weight to 65% by weight; total fraction of acetals: 0.5% by weight to 5.5% by weight; total fraction of further hydrocarbons: 0% by weight to 40% by weight; water: 0% by weight to 1% by weight. 9. A process for preparing a catalyst, comprising the following steps: a) providing a support material containing at least 99% by weight of silicon dioxide; b) providing copper(II) hydroxide carbonate, ammonium hydrogencarbonate and/or ammonium carbonate, ammonia and water; c) preparing a solution from copper(II) hydroxide carbonate, ammonium hydrogencarbonate and/or ammonium carbonate, ammonia and water, in such a way that the copper content of the solution is between 10% by weight and 15% by weight, where the proportion of chromium in the solution is between 0 ppm by weight and 50 ppm by weight, and where the proportion of nickel in the solution is between 0 ppm by weight and 50 ppm by weight wherein the support material makes up from 86% to 90% by of the composition and the remaining components set forth above make up from 10% to 14% by weight of the composition; d) impregnating the support material with the solution; e) drying the impregnated support material at temperatures between 50° C. and 150° C.; f) calcining the dried, impregnated support material at temperatures between 300° C. and 600° C. to obtain a precursor; g) activating the precursor by reduction with hydrogen to obtain the active catalyst, wherein the impregnation and at least part of the drying is effected in a drum, in such a way that the support material is introduced into the drum for impregnation, that the drum is rotated, that the solution is sprayed into the drum, and that, during the drying phase, an air stream at a temperature between 50° C. and 100° C. is passed through the drum. 10. The process according to claim 9 , wherein the copper content of the solution is between 10.5% by weight and 11.5% by weight. 11. Process according to claim 9 , wherein the support material provided comprises cylindrical extrudates having a diameter between 1 mm and 2 mm. 12. Process according to claim 9 , wherein the precursor has the following composition that adds up to 100% by weight: silicon dioxide: from 84% by weight to 86% by weight; copper oxide: from 14% by weight to 16% by weight; nickel: from 0 ppm by weight to 50 ppm by weight; chromium: from 0 ppm by weight to 50 ppm by weight; aluminium oxide: from 0 ppm by weight to 1000 ppm by weight; other substances: from 0 ppm by weight to 1% by weight wherein the support material makes up from 84% to 86% by of the composition and the remaining components set forth above make up from 14% to 16% by weight of the composition. 13. A process for hydrogenation of aldehydes, comprising the following steps: a) providing a support material containing at least 99% by weight of silicon dioxide; b) providing copper(II) hydroxide carbonate, ammonium hydrogencarbonate and/or ammonium carbonate, ammonia and water; c) preparing a solution from copper(II) hydroxide carbonate, ammonium hydrogencarbonate and/or ammonium carbonate, ammonia and water, in such a way that the solution has a copper content between 10% by weight and 15% by weight, where the proportion of chromium in the solution is between 0 ppm by weight and 50 ppm by weight, and where the proportion of nickel in the solution is between 0 ppm by weight and 50 ppm by weight wherein the support material makes up from 86% to 90% by of the composition and the remaining components set forth above make up from 10% to 14% by weight of the composition; d) impregnating the support material with the solution; e) drying the impregnat