SU87623A1 - Steam transformer with boiling water-ammonia solution and high-pressure absorber - Google Patents

Description

Transformers of steam are known with a boiling water-ammonia solution and a high-pressure absorber with a pump circulating solution.

The advantage of the described steam transformer is that it makes it possible to increase the vapor pressure with a high value of the thermal efficiency. This transformer differs from the ones known for the fact that for the increased thermal efficiency coefficient the absorber of the transformer has injectors that serve to increase the pressure obtained in the ammonia vapor generator from the pump supplied from the depleted solution generator.

The drawing shows a diagram of the described steam transformer.

Water at low pressure steam is introduced into a coil made of steel pipes, which is located inside the generator of 1 ammonia vapor filled with a pronounced solution of the highest concentration. Water vapor, condensate. gives off its heat of evaporation to the water-ammonia solution, evaporating ammonia from it. Ammonia vapors produce a higher pressure than the pressure of water vapor introduced into the coil.

The ammashchiny steam produced in the generator is supplied via conduit 2 to the mixing chambers of the jet absorbers. and 4 (injectors). At the same time, a weak solution from the generator / is supplied to the nozzle of the absorber .9 by means of a pump under a pressure well above the pressure of the ammonia vapor. The solution of a slightly increased concentration, already past the absorber, of the first stage is supplied to the nozzle of the absorber 4 of the second stage.

In the tubular system 5, the heat released during the absorption of ammonia vapor, water-ammonia solution is transferred to the water of the generator 6 of water vapor and evaporates it. Water vapor pressure, semi-no .87623 2 -

generated in the generator 6. bepee is higher than the pressure of the pair introduced into the generator U.

Vodrammiachny solution but the output of the tubularly of the system 5 of the generator 6 produces a p mixing chamber of a string absorber 7 supplying the tubular system of the condensate heater 6 of the low pressure core, which is nitrite for the generator 6. The condensate is increased in pressure by pump 9. the absorber 7 contains a portion of a weak water-valued solution, branched off from an entraining nozzle system of the absorber.).

To regulate the temperature of the slurry solution introduced into the generator /, a cooler 10 is installed, which simultaneously serves as a water heater, which is supplied by a pump.

Ec; rii, for example, 1 kg of saturated steam with a pressure of 2 atm is introduced into the generator, then 0.8 kg of saturatedH can be obtained in the 6-moderator, and the pressure of a pressure of ii 6 at a pressure of water-ammonia solution in the pipe system 5 is on average 20 atm. and ammonia vapor pressure in 4 at. In this case, 70% of a weak water-ammonia solution is sent to the jet absorber 3, and the remaining 30% is to the jet absorber 7, For this particular coolant, a solution 10 and pump // are required.

The loss of tenla from generator cooling / ln in the amount of 5% from the heat of low pressure steam and from generator cooling 5 is in the amount of 5% from tenl. i.touched i5 to a pair of newer pressure.

Generator Y n generator) 6 are supplied with safety valves 12 and gauge glass Vgnaka /. generator /) azl e | tseyy shelves // dephlegmator.

I re dmot and .4 (I b about 1-n and

GrasformatO) a pair with a boiling water-ammonia solution and a high-pressure absorber with a solution circulating with a pump, o and t, and with that. that for a new thermal efficiency coefficient, the Absorber of the transformer has injectors, which are used to increase the pressure obtained in the ammonia-vapor generator, with the number supplied by the pump from the depleted solution generator.