SU1110910A1 - Control system of heat supply plant - Google Patents

Abstract

HEATING SYSTEM MANAGEMENT SYSTEM equipped with condensation turbines with chambers of unregulated steam extraction, heat generation turbines with chambers of adjustable steam extraction and network water heaters connected to the sampling chambers, containing regulating steam boilers of the condensation turbines connected to the rotor, and rotary chambers, and rotary steam boosters, and rotary steam turbine regulators connected to the rotary chambers of the spinning rods, and rotary steam turbine regulators connected to the rotary chambers of the spinning rods, and rotary steam turbine regulators connected to the rotary steam boosters, and rotary steam boosters, and rotary steam turbines Steam inlet organs and chambers of regulated extraction of heat turbines connected to the controllers of rotation frequency and pressure in the chambers selectables, differing from the fact that, in order to increase the efficiency of the installation, pressure regulators in the chambers of unregulated withdrawals according to the number of condensation turbines, switches and blocks Y were introduced into the system; equalities connected between the pressure regulator of one of the condensation turbines and each of pressure regulators of other condensation turbines, while the pressure regulators are connected via switches to the regulators of the steam inlet of condensing turbines. (L; o

Description

The invention relates to a power system and can be used in heating installations.

Closest to the invention of the technical essence and the achieved result is a control system of a heat and power plant equipped with condensation turbines with cameras of unregulated steam extraction, heat and heat turbines with cameras of adjustable steam extraction and network water heaters connected to the selection chambers of condensation turbines connected to speed controllers and regulators of the steam inlet and chambers of controlled extraction heat tele- communications turbines connected to the rotational speed regulator tori and pressure chambers controlled offtake 1.

The disadvantages of the known system are somewhat lower installation efficiency due to an increase in the degree of throttling of the condensation steam of turbines with adjustable selections with an increase in the frequency of the electrical network and due to the mixing of parallel streams of network water of different temperatures and the potential of the heating steam does not match the resulting temperature of the network water.

The purpose of the invention is to increase the efficiency of the installation.

The goal is achieved by the fact that a control system for a heat and power plant equipped with condensation turbines with unregulated steam extraction chambers, heat generation turbines with adjustable steam extraction chambers and network water heaters connected to the extraction chambers contains regulators of the steam inlet of condensation turbines connected to the regulators rotational speeds, and regulators of the steam inlet and chambers of regulated extraction of heat-generating turbines, connected to the regulators for an hour From the rotation and pressure in the chambers of the regulated outlets, pressure regulators were introduced in the chambers of the unregulated outlets according to the number of condensation turbines, switches and comparison units connected between the pressure regulator of one of the condensation turbines and each of the pressure regulators of the other condensation turbines, while the regulator the pressure is connected via switches to the regulators of the steam inlet of condensing turbines.

The drawing shows a diagram of the proposed control system.

The heat treatment plant contains condensation turbines 1, 2 and 3 with unregulated extraction chambers and heat exchangers 4 and 5 with adjustable steam extraction chambers. Turbine selection boxes 1-5 are connected respectively

to the heaters B-10 of the network water, which are connected via the network water to the main line 11 of the direct and main lines 12 of the reverse network water. Pipelines 13 and supply network return water to network heaters 9 and 10 turbines 4 and 5 are connected, respectively, by additional pipelines 15 and 16 to line 11 of the direct network water, to which the peak boiler 17 and the heat consumer 18 are connected.

Turbines 1, 2 and 3 have control systems with rotational speed regulators 19, 19, 19, steam distribution regulators 20, 20, 20 of steam inlet

5 a steam turbine inlet and are additionally equipped with pressure regulators 21, 21, 21 with switches 22, 22, 22. Between the pressure regulator 21 of the turbine 1 and the pressure regulator 21 of the turbine 2 a comparison unit 23 is installed, and between the regulators 21

 and 21 pressures of turbines 1 and 3 are a unit 24 of comparison.

The pipes 4 and 5 have control systems, including rotational speed regulators 19 and 19, steam distribution

5 regulators 20 and 20 of the steam inlet at the steam turbine inlet, pressure regulators 21 and 21, and regulators 25 and 25 of the chambers of the regulated heat extraction samples.

Cogeneration control system

0 installation works as follows. Turbines can be started and output at 1, 2, 3, 4 and 5 at the nominal speed of rotation by adjusting the speed regulators 19, 19, 19,. The loading and unloading of turbines 1, 2 and 3 is carried out by regulating the pressure 21, 2Г, 2Г. Thus, start-up and loading of condensing turbines I, 2 and 3 are carried out similarly to counter-pressure turbines.

Regulators 21, 21, 21 maintain the pressure in the chambers of unregulated selections of turbines 1, 2 and 3 at a given level, regardless of the network frequency, affecting the steam distribution regulators 20 20, 20 of the steam inlet at the steam inlet to the turbine in the direction of opening or closing. At the same time, turbines 1, 2 and 3 operate on a thermal schedule, providing the required heating of network water in heaters 6, 7 and 8 at the maximum electrical load for a particular operating mode of a power plant.

Heating turbines 4 and 5 with adjustable steam extraction, operating. according to electrical schedule, loaded or loaded by electrical load as the network frequency changes. If heated

the network water vapor unregulated selections of turbines 1, 2 and 3 is insufficient, then heating the network water to the required temperature is provided with steam adjustable heat extraction turbines 4

and 5 in the network heaters 9 and 10, which are connected in series through the network water in the network heaters b, 7 and 8 by opening the valves on the additional pipes 15 and 16 and closing the valves on the pipes 13 and 14.

In this case, the heating of the mains water is carried out according to a two-step scheme: first in heaters 6, 7 and 8 from unregulated selections of turbines I, 2 and 3, then in heaters 9 and 10 from adjustable selections of turbines 4 and 5.

To simplify the control of a group of turbines with unregulated steam extraction between the pressure regulators 21 and 21 of the turbines 1 and 2 and the pressure regulators 21 and 21 of the turbines 1 and 3, comparison units 23 and 24 are installed. When the pressure in the extraction chambers of turbines 1 and 2 is unequal, the comparison unit 23 acts on the control mechanism of the turbine pressure regulator 21 2. When the pressure in the turbine selection chambers 1 and 3 is unequal, the reference 24 controls the turbine pressure regulator 21 control mechanism 3

Thus, equal pressures in the chambers of all turbines 1, 2 and 3 are assured while simplifying operation by automating the control of turbines: it suffices to influence the control mechanism of pressure regulator 21 of turbine 1, taken, for example, as a base, increasing or reducing the pressure in the heat extraction chamber so that the control action of the comparison units 23 and 24 increases and the load of the turbines 2 and 3 decreases. When the turbine 1 stops, any of the remaining works can be used as the base e turbines 2 or 3 by connecting a comparison unit between pressure regulators 21 and 21 of turbines 2 and 3 (this connection is not shown in the diagram).

In the course of work on thermal graphics turbines 1, 2 and 3 maintain pressure

0 in the chambers of heat extraction and do not participate in the primary maintenance of the frequency of the electrical network, however, the pressure regulators 21, 21 and 21 are equipped with switches 22, 22 and 22 that cut off the communication line of the pressure regulators 21, 21, 22 and the steam distribution bodies 20 , 20, 20 steam inlets to the steam inlet to the turbine. The operation of the switches 22, 22, 22 provides a set of load turbines 1, 2 and 3 with the required speed at the command of the system automation and transfer them to work with the entered regulators 19, 19, 19 speed and disabled regulators 21, 21, 21 pressure.

In this case, with various emergency

5 situations of turbines 1, 2 and 3 with unregulated selections are involved in the primary maintenance of the frequency of the power system.

The advantage of this control system of the heat and power plant is to increase its efficiency by reducing

0 heat consumption while simplifying operation.

Claims (1)

HEATING PLANT CONTROL SYSTEM equipped with condensing turbines with uncontrolled steam sampling chambers, heating turbines with adjustable steam sampling chambers and network water heaters connected to sampling chambers, containing condensate turbine steam inlet control elements connected to speed controllers and steam inlet control chambers and controlled sampling of cogeneration turbines connected to speed and pressure regulators in the chambers selection, characterized in that, in order to increase the efficiency of the installation, pressure regulators are introduced into the system in uncontrolled sampling chambers according to (the number of condensation turbines, switches and Comparison units included between (pressure regulator of one of the condensation turbines and each of the pressure regulators of other condensation turbines, while pressure regulators are connected through switches to the regulating bodies of the steam inlet of condensation turbines. 0160111 ’ns