Method for working up alkaline polyether polyols

The invention claimed is: 1. A process for preparing polyols containing oxyalkylene units, comprising: (a) adding an alkylene oxide compound onto a starter compound having at least one Zerewitinoff-active hydrogen atom in the presence of a basic catalyst to obtain an alkaline crude polyol; (b) subsequently neutralizing the alkaline crude polyol by contacting an inorganic mineral acid with the alkaline crude polyol over a defined period of time t1; (c) optionally removing water; and (d) removing neutralization salts formed, wherein in (b), when the defined period of time t1≥5 min, a contacting time, is observed for contacting the alkaline crude polyol with an amount of the inorganic mineral acid needed for the neutralization, in which the contacting means increasing a ratio between the inorganic mineral acid and the alkaline crude polyol during combining of the two components until a target ratio of acid/alkaline crude polyol has been attained; wherein (i) the inorganic mineral acid can be added to the alkaline crude polyol via a constant rate of metered addition, in which the rate of metered addition (amount of acid added per unit time) is constant during the contacting time, and/or (ii) a metering ramp is applied in which the rate of metered addition changes during the contacting time, and/or (iii) a stepwise addition of portions of the inorganic mineral acid during the contacting time is applied, in which for (ii) or (iii), the addition of the inorganic mineral acid to the alkaline crude polyol is being effected in such a way that 90% of the target ratio of acid/alkaline crude polyol is attained no earlier than 2 minutes after commencement of the addition. 2. The process for preparing polyols of claim 1 , wherein the contacting time is t1≥5 min to ≤10 h. 3. The process for preparing polyols of claim 1 , wherein the basic catalyst in (a) comprises at least one catalyst selected from the group consisting of alkali metal hydrides, alkali metal carboxylates, alkali metal hydroxides and alkali metal alkoxylates. 4. The process for preparing polyols of claim 1 , wherein the inorganic mineral acid is in the form of an aqueous solution in a concentration of 5% to 70% by weight. 5. The process for preparing polyols of claim 1 , wherein the process additionally comprises hydrolyzing the alkaline crude polyol obtained in (a) before neutralizing the alkaline crude polyol in (b). 6. The process for preparing polyols of claim 1 , wherein the alkaline crude polyol after the neutralization in (b) contains a total amount of water of 0.5% to 25% by weight, based on the amount of alkaline crude polyol. 7. The process for preparing polyols of claim 1 , wherein the neutralization in (b) is effected at a temperature of 20 to 150° C. 8. The process for preparing polyols of claim 1 , wherein on addition of the inorganic mineral acid in (b) a neutralization level of 90% to 120% is observed. 9. The process for preparing polyols of claim 1 , wherein said alkaline crude polyol contains ≥5% by weight of oxyethylene units, based on the total mass of the monomer units. 10. The process for preparing polyols of claim 1 , wherein the neutralization salts formed are removed via filtration. 11. A process for workup of alkaline crude polyols which have been prepared by adding an alkylene oxide compound onto a starter compound having at least one Zerewitinoff-active hydrogen atom in the presence of a basic catalyst, comprising: (a) neutralizing the alkaline crude polyol by contacting an inorganic mineral acid with the alkaline crude polyol over a defined period of time t1; (b) optionally removing water; and (c) removing neutralization salts formed, wherein in (a), the defined period of time t1≥5 min, a contacting time, is observed for contacting the alkaline crude polyol with an amount of the inorganic mineral acid needed for the neutralization, in which contacting means increasing of a ratio between the inorganic mineral acid and the alkaline crude polyol during combining of the two components until a target ratio of acid/alkaline crude polyol has been attained; wherein (i) the inorganic mineral acid can be added to the alkaline crude polyol via a constant rate of metered addition, in which the rate of metered addition (amount of acid added per unit time) is constant during the contacting time, and/or (ii) a metering ramp is applied in which the rate of metered addition rate changes during the contacting time, and/or (iii) a stepwise addition of portions of the inorganic mineral acid during the contacting time is applied, in which for (ii) or (iii), the addition of the inorganic mineral acid to the alkaline crude polyol is being effected in such a way that 90% of the target acid/alkaline crude polyol ratio is attained no earlier than 2 minutes after commencement of the addition. 12. The process for preparing polyols of claim 1 , wherein the inorganic mineral acid comprises phosphoric acid and/or sulfuric acid. 13. The process for preparing polyols of claim 1 , wherein the neutralization in (b) is effected at a temperature of 80 to 130° C. 14. The process for preparing polyols of claim 1 , wherein on addition of the inorganic mineral acid in (b) a neutralization level of 102% to 112% is observed.