SU1103001A1 - Method of loading power unit - Google Patents

Abstract

WAY OF LOADING THE ENERGY BLOCK by increasing the boiler's steam generating capacity and adjusting the steam flow rate to a turbine with high and low pressure regenerative heaters by opening control valves so as to increase the loading speed in peak modes steam regenerative high-pressure heaters and set the control valves to the position corresponding to the nominal electric power: 5 turbine .

Description

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: about 1 The invention relates to a power system and can be used for loading power units at peak conditions. There is a known method of loading the power unit by disconnecting the selections for regenerative heaters and passing steam of the selections through the flow part of the turbine to the condenser ij. The disadvantage of this method is the relatively small increase in the additional power received. There is a known method of loading the power unit by increasing the boiler's steam output and controlling the steam flow rate to the turbine from the regenerator. high and low pressure heaters by opening control valves 2. The disadvantage of this method is that the loading of the power unit is carried out slowly by successively opening the turbine control valves, which does not satisfy the requirements imposed on the power units in the fast electric load modes, in peak operating modes of the united power systems. The purpose of the invention is to increase the speed of loading the power unit in peak modes. This goal is achieved; According to the method of loading the power unit by increasing the boiler's steam capacity and controlling the steam flow rate to the turbine with high and low pressure regenerative heaters by opening control valves, simultaneously with increasing the steam capacity of the boiler, the high pressure regenerative heaters are installed and the control valves are installed in position corresponding to the rated electric power of the turbine. The drawing shows a graph of the loading of the power unit. The method of loading the power unit wasps. exists as follows. If it is necessary to increase the loading rate in peak mode 01,, 2, the power unit increases the boiler's steam output by increasing feedwater consumption and fuel, disconnecting the high-pressure regenerative heaters (LDPE) and setting the turbine control valves to the position corresponding to the rated electric power of the turbine. The increase in power due to the opening of control valves occurs at P9 curve 2, by turning off LDPE by curve 3, and by the indicated method - by curve 1. Additional electrical power is obtained both by turning off LDPE and opening control valves, and by simultaneously forcing the boiler for fuel and feedwater above the nominal value (uN) and by increasing the steam flow rate in the flow part behind the LDPE compared to opening only the control valves with the LDPE turned on, i.e. overload-, power unit (uN). The value of D N depends on the degree of forcing of the boiler for fuel and water, as well as the performance of the boiler and the power of the unit, and the value of A N depends on the overload of the boiler and the rated power of the unit. Obtaining additional power supply is due to the fact that an increase in the value of steam consumption, which is fed to the heating of feedwater when the boiler is overloaded and the turbine control valves open, enters the flow section of the turbine. Thereby, additional power is generated as the heaters are turned off. Thus, the proposed method of loading a power unit allows, in peak mode, to obtain a higher final power with a higher lifting speed for a shorter period of time over the entire operating range of its loads, which provides more efficient control of the load curve to cover the peak power of thermal power plants and united power systems.

Claims (1)

METHOD FOR LOADING AN ENERGY UNIT by increasing the steam capacity of the boiler and regulating the flow of steam into the turbine with regenerative heaters of high and low pressure by opening the control valves and set the control valves in a position corresponding to the rated electrical power of the turbine. iU _n „1103001 1103001.,