SU1038496A2 - Power-and-heat generating plant - Google Patents

Abstract

THERMAL ENERGY INSTALLATION for auth. St. No. 602690, characterized in that, in order to increase efficiency, a battery with heating and heated surfaces is provided with two containers filled with one heated and the other cooled with liquid heat accumulating substance and interconnected by means of two pipelines, the heating surface “On one of the pipelines, and heated on the other. x (eaten oo with 05

Description

The invention relates to a power system, namely to heat and condensation power plants.

According to the main author. St. No. 602690 is a known heat and power plant, containing main and condensation peak steam power circuits and a battery connected via a heating pair to the steam generator of the main circuit, and the heated one to a peak circuit, and to the battery a heating heater connected to a network heater. The heat exchanger included in the KOH; teHcaTOpe peak circuit is switched on in the network water path.

In this unit, the accumulated heat accumulated in the battery during hours of reduced electrical loads is used to generate extra power during the hours of increased electrical loads by the turbo generator of a peak circuit operating in a purely heat-generating mode. In hours of reduced electrical loads, the excess heat energy of the main generator's steam generator is used to charge the battery and to supply heat to the consumer 1.

The disadvantage of this setup is its low efficiency due to the fact that in the process of discharging the battery, the parameters of the steam of the peak contour fall and the turbine of the peak contour operates on sliding parameters, and in the process of charging the battery with changing temperature of the heat accumulating substance the steam of the main circuit used as the heating coolant in the network heater, which complicates the regulation of heat supply to the consumer.

The purpose of the invention is to increase the efficiency of the heat and power plant.

The goal is achieved by the fact that in the heat and power plant according to the author. St. No 602690 battery with heating and heated surfaces is equipped with two tanks filled with one heated and the other with cooled liquid heat accumulating vep: and connected to each other using two pipelines, and the heating surface is located on one of the pipelines, and the heated one on another.

The drawing shows a diagram of the heat and power plant.

The heat and power installation consists of a main steam power circuit containing a steam generator 1, a turbo generator 2 with a condenser 3, regenerative heaters 4 and 5 of low and high pressure, respectively, and a valve 5 of a peak steam power circuit, containing a battery with heating and heated surfaces 7 and 8, respectively which is equipped with two containers 9 and 10. The container 9 is filled with the heated one, and the container 10 with the cooled liquid heat accumulator. Capacities 9 and 10

interconnected by means of two pipelines 11 and 12.

On the pipeline 11 there is a heating surface 7, connected through the valve 13 to the steam generator 1 of the main steam-power circuit, and the pump 14, and on

The pipe 12 has a heated surface 8 and a pump 15. The peak steam power circuit also includes a turbogenerator 16 connected to the heated surface 8 and a condenser 17 with a heat exchange surface 18 of the heat recovery system placed in it, containing, in turn, pipelines 19 and 20 straight and reverse network water, respectively, the network heater 21, connected by heating medium to the main steam power

0 contour by pipelines 22, 23 and 24, with the booster pump 25 installed on the latter. The heat and power plant operates as follows.

During the period of reduced electrical loads, the turbogenerator 16 of the peak steam power circuit is disconnected, the turbogenerator 2 of the main steam power circuit is also disconnected or operates with a reduced electrical power. Pump 14 is on, pump 15 is off. The excess steam produced by the steam generator 1, through the open valve 13 is fed to the entrance of the heating surface 7, where the steam releases some heat to the heat storage substance pumped by the pump 4 from the tank 10 to the tank 9. The condensate of the heating steam through pipe 22 enters the network through the heater 21, where it heats the network water supplied from the pipeline 20. Then the condensate is fed by a booster pump 25 into the feedwater path of the main steam-power circuit. At constant feed

0, the steam from the steam generator 1, the heating surface 7 and the constant capacity of the pump 14, the parameters of the condensate used as the heating coolant in the network heater 21, are also constant. By varying the capacity of the pump 14, the parameters of the heat-accumulating substance and steam condensate leaving the heating surface 7 remain constant, and with a variable flow rate of steam supplied from the steam generator 1 to the heating surface 8.

 The constancy of the parameters of the condensate leaving the heating surface 8 and supplied to the network heater 21 simplifies the regulation of the constant heat supply to the consumer.

5 During the period of increased electrical loads, the steam from the steam generator 1 enters the turbogenerator 2. The valve 13 is closed, the pump 14 is turned off and the pump 15 is turned on. The heated heat storage agent accumulated in the tank 9 is pumped by pump 15 to the tank 10. Through pipeline 12 and through heated the surface 8 gives off heat to the working body of the peak steam power circuit, as a result of which a pair of peak circuit is generated, which enters the peak turbogenerator 16 of the peak circuit and then into the condenser 17, where it condenses, grevaet mains water supplied from the return conduit 20. When the constant capacity pump 15 and the constant produ: voditelnosti heated surface 8 by the number of generated steam parameters of the steam supplied to the turbine generator 16 piiovogo circuit okazyvayuts constant. By varying the capacity of the pump 15, the parameters of the heat-accumulating substance and the secondary steam coming out of the heated surface are kept constant and at a variable flow of steam supplied to the turbogenerator 16.

Claims (1)

HEAT POWER INSTALLATION by ed. St. No. 602690, characterized in that, in order to increase efficiency, the battery with heating and heated surfaces is equipped with two containers filled with one heated and the other with cooled liquid heat-accumulating substance and interconnected by two pipelines, the heating surface is located “on one of pipelines, and heated - on the other.