SU39486A1 - Power installation using the difference of water temperature over ice and atmospheric air - Google Patents

Description

In order to use the difference in water temperature under ice and atmospheric air, it is proposed to use two cylinders with pistons connected to a harmonic cylinder, from which water or other liquid is distilled back and forth through hydraulic turbines and the steam condenses over ice.

The drawing shows a general scheme of the power plant.

Boiler 7 is placed under ice b and is filled with an easily evaporating liquid, such as: SO. COO, MNZ, etc. There | Two working cylinders 2 and 5, equipped with pistons 7 connected to the cylinder wall by harmonics 8, are also placed. These pistons are designed to move fluid contained in cylinders 2 and 5 through two hydraulic turbines 4 and 5 in order to obtain mechanical work. Above the ice are located capacitors 9 and W.

Bearing in mind that the water temperature is equal, it is possible to maintain a temperature in the boiler not lower than -} - 0.5 °, since otherwise a crust may form. The resulting steam from the boiler 7 enters the working cylinders 2 or 5, j into which is poured or a saturated solution of NaCi; or CALF, or water. Incoming steam, acting like compressed air, | distills liquid from cylinder 2 to i

cylinder 3 or vice versa passing along the path through hydraulic turbines 4 or 5.

After the liquid from cylinder 2 has been pumped into cylinder 3, steam access is stopped by the valve, and the steam, having made an expansion or two in additional boilers (not shown in the diagram), goes to condensers 9 and 10. It is clear that the expanded product must have a pressure higher than the pressure corresponding to the vapor pressure of the liquid at air temperature.

From the release of steam into condensers 9 and 10, it condenses into liquid. When the pressure in the condenser and cylinder is approximately equal, steam comes from boiler 7 to cylinder 3, the piston of which disperses liquid into cylinder 2, which performs work in the turbine 5 on its way. 3 and vice versa. The volume of capacitors should be at least five to six times the volume of the cylinder. Installing water turbines - and 3 under water, of course, is not necessary: it can be put on top, as the solutions CaClj and MaCl freeze at very low temperatures.

Refrigerators are also best immersed in a CaCls solution for better heat transfer.

The subject matter of the invention.

A power plant using the difference in water temperature under ice and atmospheric air, in which the boiler is located under ice, and the condenser on

air, characterized in that conventional cylinders with pistons connected to the cylinder wall by a harmonic are designed to move fluid contained in the cylinders back and forth through the turbines - and 5 in order to obtain mechanical work.