SU767371A1 - Method of controlling a power plant - Google Patents

Description

one

The invention relates to a power system and can be controlled by controlling turbines that are powered by steam from two sources with different temperatures, for example, from a utilizing boiler and from a combined heat and power plant.

Methods are known for regulating a power plant with a group of cogeneration turbines connected to the utilization boiler 10 by varying the steam flow rates from the c. heat lines when the pressure of fresh steam deviates from the turbines of the first subgroup and when the pressure is 5 NIN in the heat line of the turbines of the second subgroup and by changing the steam flow rates to the heat lines from an external source

These methods do not take into account 20 variations in steam temperature in front of the turbines, and therefore they cannot be used when an additional source of fresh steam is connected to the turbine group.25

There is also known a method for regulating a power plant by changing the flow rate of steam supplied from the utilization boiler and from an external source of fresh steam through the DA.

common line to the group of cogeneration turbines, by controlling the steam temperature in the common line and changing the steam flow rate supplied from the turbine selections and From the steam source of reduced parameters to the heat lines, with variations in fresh steam pressure and pressure and steam temperature to heat: lines from set points 2.

This method is the closest to this technical essence and the achieved result.

The disadvantage of this method is the lack of stabilization of temperature in the main line, which adversely affects the reliability of the steam turbines. The purpose of the present invention is stabilization; obz temperature in the general highway.

To achieve this goal, the steam temperature at the outlets from the utilization boiler and from an external source of fresh steam is measured, compared, and with increasing (decreasing) steam temperatures in the common line, increase (decrease) the steam supply from an external source from the steam, when the temperature Out of it is lower (higher) than the temperature of the steam at the outlet from the utilization boiler. In order to prevent a sharp change in the temperature of the steam in front of the turbines when either the utilization boiler or an external source is disconnected, both of them are immediately disconnected. The drawing shows a schematic diagram of the implementation and this control method. Turbines 3 and 4 are connected to the utilization boiler 1 and to the external source 2 of fresh steam. To superheat the steam generated in the utilization boiler 1, a superheater 5 with furnace b and electrically driven valve 7 is installed on the saturated steam pipeline, auto-1%:% sk. closes off signal 8 when the superheater protection is triggered. A reduction-cooling unit (CWP) 9 is connected between the boiler and the superheater. The temperature of the superheated steam is measured by thermal steam 10. A thermocouple 12 is installed on the steam line from an external source 2 in front of the common line 11, which changes the steam flow from the external source 2 when the temperature deviation of steam in front of the turbines by a signal from the sensor 14, the meter 15 flow rate and valves 16 with electric drive. Steam consumption from the selection of turbine 3 of the first subgroup is changed by valve 17 according to the signal of fresh pressure deviation from the turbines from sensor 18. Steam consumption from the selection of turbine 4 of the second subgroup is changed by valve 19 according to the signal of pressure deviation from sensor 20. The selections of turbines 3 and 4 are connected to consumers 21 and 22 of a pair of different pressures through the heat lines 23 and 24. To compensate for the missing amount of steam from the selections, a source 27 of reduced parameters was connected to the heat mains through regulating valves 25 and 26. .. in the utilization boiler 1, an amount of steam is produced depending on the process conditions and the degree of contamination of the heating surfaces of the boiler. An overheated 5par in the superheater enters the main line 11 To increase the reliability of the steam supply, an external source 2 is connected to the karoturbine group, the steam temperature from which is different from the steam temperature from the utilization boiler to the extent that it can cause undesired airflow to fresh steam in front of the turbines. At steady state operation of the boiler 1, the valve 13 is adjusted to a constant flow rate of steam from an external source 2, which ensures the allowable temperature of steam in front of the turbines and the total flow rate of fresh steam corresponding to the steam flow rates for turbines 3 and 4 with the average flow rate from the selection of the turbine of the first subgroup and flow rate from the selection of the turbine 4 of the second subgroup, the maximum provided consumers 22 connected to this turbine. In this case, the missing amount of steam for consumers 21 and 22 is supplied from source 27 through valves 25 and 26. As the steam capacity of boiler 1 decreases (increases), the pressure of fresh steam in line 11 decreases (increases). At the same time, the temperature of the steam mixture in this line decreases (increases) if the temperature of the steam from external source 2 is lower (outward) the temperature of the steam from the utilization boiler 1. To stabilize the steam temperature in front of the turbines, the steam flow is changed through valve 13 from external source 2 when lowering (increasing) the temperature of steam in line 11. If the temperature of steam from an external source is lower than the temperature of steam from the utilization boiler, then the steam consumption through valve 13 is reduced (increased). If the temperature of the steam from the external source 2 is higher than the temperature of the steam from the utilization boiler, then the steam consumption through the valve 13 increases (decreases). In this way, stabilization of the steam temperature in front of the turbines is achieved. The change in steam temperature in the general highway 11 can also occur for reasons of lowering the steam temperature both from an external source and from a utilization boiler when costs from both sources are constant, as well as when one of the sources is disconnected. When the vapor pressure in the supply line is lowered (increased), turbine 3 reduces (increases) the steam consumption in the extraction, and valve 25 increases (decreases) the steam supply to the heat pipe 23. Steam consumption to the heat pipe 24 through the valve 26 increases (decreases) when steam consumption from the selection of turbine 3 of the minimum (maximum) value or temperature of steam B on line 23 of the minimum (maximum) value in case of temperature. the steam from turbine selection 3 exceeds the steam temperature from source 27. If the temperature of steam from source 27 is higher, “I eat the temperature of steam from selection, then the steam consumption through klgaak 26 is reduced (increased). This stabilizes the pressure of the fresh pas. tiepeji. turbygshi, pressure in the heatworm line 23, as well as pressure and temperature in the heat line 24.

When one of the sources is disconnected, the temperature of the steam in the fresh steam supply line will change dramatically and may exceed the safe limit for steam turbine tolerance.

To prevent a sudden change in the temperature of steam in the supply line when the external source 2 is disconnected, simultaneously a command signal is given to close the valve 7 at the steam inlet to the superheater and the valve 16 on the steam line from the external pipe at zero steam pressure from the external source.

When this excess of saturated steam from the utilization of the boiler 1 is dumped through the DOC 9.

When the superheater is disconnected as a result of the operation of the protections or the influence of the operating personnel, a command signal 8 is sent to simultaneously close the valves 7 and 16 and all the other operations described above are performed.

As a result, this method of regulation prevents significant deviations of the steam temperature in front of the turbines both in normal and in emergency conditions, which increases the reliability of turbines.

Claims (2)

1. The method of controlling the power plant by changing the flow rate of steam supplied from the utilization boiler and from an external source of fresh steam through a common line to the group of cogeneration turbines, by controlling the temperature of steam in the common T line and changing the flow rate of steam supplied from turbine selections and from a steam source reduced parameters to the heat lines / with variations in the pressure of the fresh steam and the pressure and temperature of the steam in the heat lines from the set values, characterized in that, in order to stabilize In order to measure the temperature at the outlets of the utilization boiler and from an external source of fresh steam, they are compared and, with an increase (decrease) in the temperature of the steam in the common pipeline, increase (decrease) the steam supply from the external fresh steam generator when the temperature of the steam at the outlet of it is lower (higher) steam temperature at the outlet of the utilization boiler. 2. A method according to claim 1, characterized in that, in order to prevent a sudden change in the temperature of the steam in front of the turbines, when either the utilization boiler or the external source is disconnected, both of them are turned off immediately. Sources of information taken into account in the examination 1. Author's certificate of the USSR 539150, CL. F 01 D 17/20, 1975. 2. USSR author's certificate According to the application 2575413, cl. F 01 D 17/20 1978.   76i: 37: i / f I.:% TS 27 CHI- I Gd