SU31188A1 - Power installation - Google Patents

Description

The invention relates to power plants with the use and change in the specific gravity of a solution when its concentration changes. In the proposed power plant, two tanks are used with a tubular heated network inside them and with pipes, valves separated from them and pipes interconnected, which will leak through a heater. Cold water is alternately passed through this system with the aim, when passing it through one of the tanks, to cool the concentrated solution coming in by siphon from another tank, thereby contributing to the release of the solute, and to heat, on the other hand, after passing the choe through the second heater reservoir, and thus contribute to the dissolution of the substance in it. The installation is equipped with a t-shaped tube, both knees of which are placed in the tubes of the tank, and another tube connecting both tanks, designed to return a weak solution that is displaced from one tank to another through a hydraulic motor placed in a pipe connected by valves with pipes connecting both tanks.

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The drawing shows a schematic view of the power plant, with a partial cut.

The proposed power plant has a strictly symmetrical construction of two identical halves: the left A and the right B, each of which consists of a tank (chamber) / or 2 and a pipe 3 or 4. The shape of the tank is rationally arbitrary, and the volume depends on the capacity of the plant. The tank is designed for hydraulic pressure, has an extensive tubular heating network inside and is generally identical in design with surface closed refrigerators of steam engines. The lower mouths of the heating network are connected to 8 ton tubes. 9, branched in two: one of the branches is supplied with cooling liquid in the chamber, while the other is removed, already exhausted. For such a dual function, branch points of the pipes are supplied. three-way cranes. The homogeneous branches of both pipes, interconnected, form processes 19 and 20. Which, depending on the purpose, are directed: one to the place of waste disposal, the other to the source of refrigerant fluid. The upper mouths of the heating networks of both chambers are connected by connecting pipes 10, which in their

paths pass heater 7 /. The walls of the tank are provided with manholes and windows for monitoring the course of the reaction. The purpose of both tanks at the same time of the installation is sharply opposite: “if one of them, heating the solution, diffuses the soluble substance, then the other, cooling the solution, crystallizes it.

Tubes 3 and 4 are installed vertically on the tank legs and are directly connected to them. The area of their cross section is determined by the installation power, and the height, in addition, by the requirements of successful diffusion; the shape of their cross section is preferably oval.

Both halves of the installation communicate at the top and at the base of the pipes with two duct systems. Above for this purpose, there is a siphon / 2, the curved ends of which are immersed in the interior of the pipes 5 and 4, ending near the bottom of the tanks. The space between the walls of the siphon and the tubes J and - at the very base of the latter (to avoid mixing of the hot and cold solutions) is closed by ring valves 5 and b. On the sides of the pipe, starting from the end to the annular valve, there are several slots 21, the purpose of which is to facilitate the diffusion process.

When this tank cools the solution, the slots are closed with valves driven externally by screw rods 22. At the bottom, the flow system consists of an I-shaped pipe 13 to the pipe 14 located on the same vertical plane and connected by a vertical pipe 16. The lower horizontal pipe 14 passes at the top of the tanks and ends in the lids of both chambers. The upper horizontal pipe 13 has long, upwardly curved ends which, penetrating inward, go almost up to the top towards the siphon 72. By this structure, it is intended to achieve better diffusion of the solution and uniformity of its specific gravity throughout the pipe. At the junction points of the horizontal pipes and pipes 16, check valves 77 and 18 are installed, by means of which the solution flow is alternately transferred from the right pipe to the left reservoir, then vice versa. The hot solution is passed through a hydraulic motor, such as a water turbine 75, for the purpose of obtaining mechanical work.

The beginning of the installation is preceded by charging it, which consists in that one of the tanks (suppose left 7) is filled to capacity with a solid soluble substance, and the rest with a solvent or a weak solution of the same substance. A certain amount of solid solute is also loaded into the left tank in order to create a phase for crystallization. Subsequently, if necessary, the amount of soluble can be increased through the upper part of the pipe or reduced by replacing the solution with a pure solvent.

When the unit is charged, refrigerant fluid is introduced into it. Lastly, having passed first, in this case, the left chamber and having passed the heater 77, enters the right chamber already in the hot state. Here, it transmits the heat to the inner contents of the chamber, after which it is discharged to the outside in a cooled state. Due to the increase in the temperature of the solvent, the solid of the right chamber goes into solution. When the latter acquires the required temperature and strength, the annular valve 5 and the diffusion gap 27 in the left chamber are closed, and the taps of the lower flow system become calculated to drain the hot solution from the right pipe into the left chamber 7. As in the latter, the solution, the cooling liquid goes, it naturally cools, and cooling, in the presence of a crystalline substance in the chamber of a solid phase, causes the decomposition of a strong solution to crystal hydrate and a weak solution. The crystals are deposited on the walls of the heating network and at the bottom of the chamber, displacing the weak cold solution through the siphon 72 into the right half of the installation. A weak solution has no other way out, since a hot solution of a higher specific gravity continuously flows in from above. The possibility of penetration of the flowing hot solution into siphoi 72 on the other hand is excluded.

A weak solution, once in the right half, heats up and passes into a strong hot solution, regularly increasing the loss of the latter, due to its drainage into the left chamber.

as a result of the processes described. the solid of the right chamber 2 will pass and deposit to the left; in the right chamber it should be left as long as necessary as a solid phase for the crystallization of the solution under the opposite effect of the installation.

The last is that the left chamber is heated and the right is cooled. This is achieved by reversing the direction of flow of the refrigerant fluid, followed by overlapping the annular valves 5 and 6 of the chambers, the diffusion gap dampers and the taps of the lower flow system. Thus, the hot solution of the left pipe 3 will now expire in the right chamber 2, giving an effect similar to that described above. Thereafter, again, there is a change of roles between the two halves of the installation, and so on. Each such change entails an interruption in the operation of the turbine. It is possible to eliminate interruptions in two ways: use several installations with the expectation that at the time of interruption one would operate smoothly with the other, or used to implement the installation operation of an aggregate from a turbium and a generator partially working on batteries with accumulations. hp 1 stock of electricity at the time of inactivity of the turbine.

The subject matter of the invention.

Claims (2)

1. A power plant using a change in the specific gravity of the solution at its concentration, different with the use of two tanks 7 and 2 with pipes J and separated from the tanks by valves 5 and 6, with a system of pipes 7, and pipes 8, 9 connected to each other and 10, of which the latter passes through the preheater 11, through which system alternately cold water is passed in one and the other direction, with the purpose of passing through one of the tanks to cool the concentrated solution coming from the other tank through siphon / 2, bstvovat the separation of solute and heat from one side after passing through the water heater // second tank and facilitate the dissolution Nachod luminant there substance. 2. In the installation of claim 1, use a b-shaped pipe 13, both of which bends are placed in pipes 3 to 4, pipes J4 connecting both tanks I and 2, intended for the back flow of a weak solution displaced from one tank to another through a hydraulic motor (for example, a turbine) / 5, placed in pipe 6, connected to pipes J3 and f4 by means of check valves / 7 and 78. Yu