SU539150A1 - The method of regulating the group of heat turbines - Google Patents

Description

The invention relates to methods for controlling heat-generating steam turbines and can be used in installations where these turbines are powered by steam from waste heat boilers.

There is a known method for regulating a group of heat turbines by changing the flow rates. Steam from selections to heat lines 1.

Pa: the distribution of heat loads between the turbines is produced depending on the parameters of the steam in the heat mains. However, this method cannot be used to regulate the group of cogeneration turbines: if this group is connected to the recovery boiler, since the performance of this steam source is usually determined by the operating mode of other process units, and the method does not take into account the deviations of the steam parameters in front of the turbines.

There is also known a method for regulating the soils of heat-generating turbines connected to a recovery boiler, at which the steam consumption from the selections to the tenel highways from .5 is in one subgroup of turbines with the pressure deviation of fresh steam, in another subgroup from the third subgroups with the deviation of pressure in the heat lines and, ijpo.Me addition, change the steam consumption in thermal

lines from an external source 2. The disadvantage of this method is the narrow range of stabilization of turbine power in case of deviations of the boiler boiler output, since in these cases the pressure in the tenl highways is maintained by taking steam from turbines fed from an external source. The proposed snoz possibility to expand

Dianazon turbine power stabilization deviations of the boiler boiler output. This is achieved by reducing (increasing) the costs of running out of the selection of turbines of the second subgroup and increasing

(shorten) steam consumption from an external source to the heat line of turbines of the third subgroup, when the steam consumption of the turbine selection of the first turbine reaches the first level of the minimum (maximum) level.

In the drawing, a schematic diagram for implementing the onisable method is given.

To the waste heat boiler 1, a sub-turbine 2-5. Steam consumption from the selection of turbine 2 of the nerve nodgroup is changed by valve 6

a fresh pressure deviation signal in front of the tubes from the sensor 7. On the extraction line from the turbine 2 there is a sensor 8 for measuring the flow rate of steam into the extraction. Steam consumption from the selection of turbines 3 and 4 of the second subgroup

changes valve. 9 p 10 by signals from

Sensors And and 12 flow diversions from screenings. The drivers 13 and 14 set the required expenditure. Steam consumption from the selection of turbine 5 of the third subgroup is changed by valve 15 according to the pressure deviation signal in the extraction line from sensor 16. Turbine turbines are connected to steam consumers 17 and 18 of different pressures through heat lines 19 and 20. To compensate for the missing amount of steam from selections to Tenl line m through the control valves 21 and 22 are connected to the external springs 23 and 24.

In the waste-heat boiler 1, the amount of steam is generated, depending on the technical and technological conditions, as well as on the degree of contamination of the heating surfaces. Turbine 5 is filled with fresh barrels in an amount necessary to provide a given power and flow rate from the selection to maintain the pressure in the heat line 20. The turbines 3 and 4 operate at a constant flow rate from the selections.

The flow rates from the turbine selections 3 and 4 are set such that the turbine 2 has a sufficient range of flow variations from the selection during normal operation of the heat exchanger.

The valve 22 is adjusted to a constant steam flow rate from an external source 24 to the tenl main line 20 of the turbine. The valve 21 maintains the pressure in the heat line 19 by supplying steam from an external source 23.

With a decrease (increase) in the steam generator of the recovery boiler, the pressure of the fresh steam in the supply line decreases (new). Turbine 2 reduces (increases) steam consumption in the selection.

If, upon reaching the minimum (maximum) sampling from turbine 2, the turbine selection 3-5 does not decrease (does not increase), then the whole group of turbines may be stopped, but the reason for the lack of fresh steam or otherwise fresh pressure is permissible.

To stabilize MOHJHOCTH turbines

Attainment of steam consumption from the selection of turbine 2 of the maximum minimum (maximum) level, reduce (increase) the flow rate of iara from the selection of turbines 3 and 4 and increase (decrease) the flow rate of the external source through the valve 22 to the heat main of the turbine 5. At that, the pressure in line 20, it rises (lowers) and control valve 15 reduces (increases) the flow rate of iara from withdrawal.

Thus, the consumption of fresh steam is adjusted to the steam output of the recovery boiler and the operation of the turbines is stabilized.

Claims (2)

1. Author's certificate N ° 245198, M. К л .2 F 01К 7/24, 1967. 2. Author's certificate N ° 311015, M. K l. 2 F 01 D 17/20, 1970. (