Water heater with thermal break

What is claimed is: 1. A water heater, comprising: a tank defining an interior space adapted to contain water, a top portion of the interior space accommodating an air pocket; a heat source operable to heat the water within the tank; a hot water outlet in fluid communication with the interior space at an outlet height below the top portion to draw hot water from the tank; and a cold water inlet in fluid communication with the top portion, the cold water inlet adapted to deliver cold water to the interior space from a cold water source; wherein the cold water inlet includes an anti-siphon mechanism communicating with the top portion such that during standby of the water heater cold water leaks into the top portion through the anti-siphon mechanism and air from the air pocket displaces into the cold water inlet through the anti-siphon mechanism to form a thermal break; and wherein, during a draw of hot water, the air of the thermal break is pushed into the interior space by cold water being introduced into the interior space through the cold water inlet. 2. The water heater of claim 1 , wherein: the cold water inlet includes a dip tube, and the anti-siphon mechanism includes an anti-siphon hole in the dip tube communicating with the top portion. 3. The water heater of claim 1 , wherein a maximum height of the top portion is 1-7 inches. 4. The water heater of claim 1 , wherein a maximum height of the top portion is 2-5 inches. 5. The water heater of claim 1 , wherein a maximum height of the top portion is 3-4 inches. 6. The water heater of claim 1 , wherein a volume of the air pocket is 2-12 cubic inches. 7. The water heater of claim 1 , wherein the hot water outlet includes an outlet tube extending through the top portion. 8. The water heater of claim 1 , wherein the hot water outlet includes an outlet tube extending vertically through the top portion. 9. The water heater of claim 1 , wherein the hot water outlet includes an outlet tube extending horizontally below the top portion. 10. The water heater of claim 1 , wherein the hot water outlet includes an outlet tube having a horizontally-facing opening for the flow of hot water horizontally into the outlet tube during a hot water draw. 11. The water heater of claim 1 , further comprising a gasket forming an airtight seal up to a pressure of 60 psi around the hot water outlet to prevent leakage of the air pocket around the hot water outlet. 12. The water heater of claim 1 , further comprising a cold water supply pipe communicating between the cold water inlet and the cold water source, the cold water supply pipe including an air trap segment to trap the displaced air and form the thermal break. 13. The water heater of claim 12 , wherein the air trap segment includes a local high point section to trap the displaced air and form the thermal break. 14. The water heater of claim 12 , wherein a volume of the top portion is equal to or greater than a volume of the air trap segment. 15. A method for heating water, comprising: providing a water heater including a tank having an interior space, a cold water inlet communicating between a top portion of the interior space and a cold water source, a hot water outlet communicating with the interior space at an outlet height below the top portion, and a heat source; filling the tank with water through the cold water inlet while the hot water outlet is open, to form an air pocket in the top portion; heating the water in the tank with the heat source; during standby, leaking water through the cold water inlet into the top portion and displacing air from the air pocket into the cold water inlet to form a thermal break between water within the interior space and the cold water source; drawing hot water from the interior space at the outlet height through the hot water outlet; introducing cold water into the interior space through the cold water inlet in response to drawing hot water from the interior space; pushing the air of the thermal break into the interior space with the cold water being introduced; and reforming the air pocket in the top portion with the air that is pushed into the interior space. 16. The method of claim 15 , wherein: the cold water inlet includes an anti-siphon mechanism communicating with the top portion; and leaking cold water into the top portion and displacing air from the air pocket are both performed through the anti-siphon mechanism. 17. The method of claim 15 , wherein: the cold water inlet includes a dip tube having an anti-siphon hole communicating with the top portion; and leaking cold water into the top portion and displacing air from the air pocket are both performed through the anti-siphon hole. 18. The method of claim 15 , further comprising: forming an airtight seal up to a pressure of 60 psi around the hot water outlet to prevent leakage of the air pocket around the hot water outlet. 19. The method of claim 15 , further comprising communicating the cold water source with the cold water inlet through a cold water supply pipe having an air trap segment; and wherein forming the thermal break includes capturing the displaced air in the air trap segment.