Method and apparatus for solidifying a polar substance

The invention claimed is: 1. A method for solidifying a polar substance, comprising the steps of a) providing a cooler with a hydrophobic condensation surface located thereon, the hydrophobic condensation surface being within an interior of a container, b) partially filling the container with i) a polar substance, and ii) an immiscible additive, iii) so that the condensation surface remains at least partially unsubmerged, c) cooling an unsubmerged portion of the hydrophobic condensation surface with the cooler to a temperature T cond below a solidification temperature T solid of the polar substance, wherein T cond is −8° C. or below, d) removing solidified polar substance from the container; wherein e) at the solidification temperature T solid of the polar substance, the immiscible additive is volatile. 2. The method according to claim 1 , wherein at the solidification temperature T solid of the polar substance, the immiscible additive has a higher vapor pressure than the polar substance. 3. The method according to claim 1 , further comprising the steps of a) closing the container, and subsequently b) evacuating air from the container. 4. The method according to claim 1 , wherein the polar substance is water; wherein the hydrophobic condensation surface is super hydrophobic; and wherein the immiscible additive is in liquid form. 5. The method according to claim 1 , wherein the hydrophobic condensation surface is provided on a plurality of tubes arranged within the interior of the container. 6. An apparatus for solidifying a polar substance, comprising a) a container, said container comprising i) a supply volume for containing the polar substance in liquid form, ii) an evaporation volume for retaining evaporated substance from the supply volume, iii) a hydrophobic condensation surface located on a cooler within the evaporation volume, b) the cooler cooling an unsubmerged portion of the hydrophobic condensation surface to a temperature T cond below a solidification temperature T solid of the polar substance, wherein T cond is −8° C. or below, c) a removal arrangement for removing solidified polar substance from the container, d) wherein the hydrophobic condensation surface is oleophilic. 7. The apparatus according to claim 6 , wherein the hydrophobic condensation surface comprises a coating comprising FDTS or a combination of FDTS with PDMS. 8. The apparatus according to claim 6 , wherein the removal arrangement for removing solidified polar substance comprise a slurry pump. 9. The apparatus according to claim 6 , wherein the cooler comprises a heat exchanger, the hydrophobic condensation surface is provided on the heat exchanger located above the supply volume in the evaporation volume. 10. The apparatus according to claim 6 , wherein the removal arrangement is operable for removing from the supply volume of the container; wherein the polar substance is water; and wherein the hydrophobic condensation surface is super-oleophilic. 11. The apparatus according to claim 6 , wherein the hydrophobic condensation surface is provided on a plurality of tubes located within the evaporation volume. 12. A cold thermal storage system comprising a) an apparatus according to claim 6 for solidifying a polar substance, b) a storage tank for storing solidified polar substance removed from the container of the apparatus, c) a transport arrangement for transporting solidified polar substance removed from the container to the storage tank, d) a heat exchanger for transferring thermal energy to solidified polar substance from or contained in the storage tank for at least partially liquifying said solidified polar substance, e) wherein the supply volume further contains an immiscible additive, said additive being immiscible with the polar substance. 13. The cold thermal storage system according to claim 12 , further comprising at least one conduit for re-flowing liquified polar substance to the supply volume. 14. The cold thermal storage system according to claim 12 , wherein the heat exchanger is located within the storage tank, said heat exchanger being adapted to transfer heat from a cooling fluid to solidified polar substance contained in the storage tank. 15. The cold thermal storage system according to claim 12 , wherein air is evacuated from the container, the air having a partial pressure of each of N 2 , O 2 , and CO 2 in the evaporation volume smaller than 10 mbar. 16. The cold thermal storage system according to claim 12 , wherein the hydrophobic condensation surface is provided on an external surface of at least one tube. 17. The cold thermal storage system according to claim 12 , wherein the additive is a non-polar substance in liquid form. 18. The cold thermal storage system according to claim 12 , wherein at the solidification temperature T solid of the polar substance, the immiscible additive is volatile. 19. The cold thermal storage system of claim 18 , wherein the immiscible additive having a higher vapor pressure than the polar substance. 20. The cold thermal storage system according to claim 12 , wherein the immiscible additive has a lower triple point temperature T triple, add than the temperature T cond of the hydrophobic condensation surface. 21. The cold thermal storage system according to claim 20 , wherein the hydrophobic condensation surface is provided on an external surface of at least one tube. 22. The cold thermal storage system according to claim 12 , wherein the immiscible additive added is a hydro-fluoro-ether. 23. The cold thermal storage thermal system according to claim 22 , wherein the immiscible additive comprises HFE1700 and/or Rf245fa. 24. The cold thermal storage system according to claim 12 , wherein the polar substance is mixed with a miscible additive to lower the solidification temperature T solid of said polar substance. 25. The cold thermal storage system according to claim 24 , wherein the miscible additive to lower the solidification temperature T solid of said polar substance is one of an alcohol or a salt.