SU1560900A1 - Method of control of cleaning apparatus of regenerative air-heating boiler - Google Patents

Abstract

The invention relates to the field of heat and power engineering and makes it possible to increase the reliability of operation of the furnace screens of steam boilers by reducing thermal stresses in the screen tubes due to limiting the amplitude of fluctuations in the temperature of the metal. The sensor 21 determines the temperature of the metal pipes in the most heat-stressed place of the flue screens, which enters the calculator 22, which determines the current amplitude of temperature fluctuations of the metal, which in the adder 24 is compared with the specified amplitude of temperature fluctuations of the metal obtained from the setting unit 23. In the event that the current amplitude is greater than a predetermined, a command signal is generated to the control member 25, which turns on the cleaning apparatus 26. 1 il.

Description

The invention relates to a power system, in particular to methods for controlling apparatuses for cleaning heating surfaces of regenerative air heaters of steam boilers

The aim of the invention is to increase the reliability of the furnace screens of steam boilers.

The drawing shows a structural diagram of a system that implements the proposed method ..

’The circuit contains flue gas temperature sensors 1, cold air temperature 2 and excess air in the flue gases. 3, connected to the calculator 4, temperature sensors ’5 and superheated steam pressure 6, connected to the enthalpy calculator 7. superheated steam, sensors of temperature 8 and pressure 9 of feed water connected to a calculator of enthalpy of feed water 10, calculators 4, .7, 10, as well as a steam generator 11 sensor of the boiler, heat loss regulators 12 with flue gases with a clean regenerative air heater RVP and calorific value. 'abilities of equivalent fuel 13, timer 14 connected to fuel consumption calculator J15, which is connected to adder 16 ”Adder 1 & and conditioner fuel adjuster 18 are connected to calculator 17 of additional costs” Ass The sensor 19 of the cleaning bridge and the calculator 17 are connected to the adder 2.0 “The temperature sensor of the metal of the screen pipe is connected to the calculator 22 of the oscillation amplitude” The calculator 22. and the regulator 23 of the amplitude of the temperature fluctuation of the metal of the pipe of the furnace screen are connected to the adder 24 "The control body 25 is connected to the executive body - apparatus 26 cleaning

The system works as follows, In the process of operation of the boiler, the prices stand STOP!;

V when the heater is dirty, the flue gas temperature U, j _X increases, which is determined by sensor 1 of the current value U ^ _x .. Sensor 2 detects the temperature of the cold air. Sensor 3 captures the current value of the excess air in the flue gases. In the calculator, the current value of the heat loss with flue gases q is calculated. o Sensor 5 and sensor 6 respectively record the current values of temperature t _{P (1} and superheated steam pressure R _p , and calculator 7 determines the enthalpy of superheated steam. Similarly, sensor 8 and sensor 9 record the current values of feed water temperature and pressure, respectively, in the calculator The feed water enthalpy is determined 10. Calculator 15 receives the values of the current heat loss with flue gases <12; from calculator 4, the current values of the enthalpies of superheated steam i _nn and feed water i _hQ from calculate _nei4 7 and 10, current e value paproproizvoditelnosti D from the sensor 11, the value of heat loss from the exhaust gases q ₂₀ in pure TDOA from the set point 12, the calorific value · ability of equivalent fuel SP _T from the set point 13 and the value of the time interval between the previous and current moments determine overrun fuel from the timer 14. The calculator 15 determines the current fuel overrun §6; for a given period of time and in the adder 16, this value is added to the value of the fuel overrun from the moment of the last cleaning of the RVP 22 S 'B; . At the time of cleaning, the adder 16 is reset to zero. ”In the calculator 17, the additional costs S are determined based on the values 22S ′ B; from the adder 16 and the conditional fuel price from the host 18. The adder 20 compares the value of the additional costs since the last cleaning of the RVP from the calculator 17 with the cost of cleaning _Se from the host 1 · 9. When the condition S ^ -S _e > 0 is fulfilled, a command signal is issued to the control body 25, which includes the cleaning apparatus 26. The sensor 21 determines the temperature of the pipe metal t ·.

the heat-stressed place of the furnace screens, which enters 22, which determines the current amplitude of the metal temperature fluctuation af, which in the adder 24 is compared with the given amplitude of the metal temperature fluctuation of the pipe from the setter 23 and, if the condition at - a „== 0 is fulfilled, it generates a command signal to the“ control an organ 25 that includes a purification apparatus 26.

The use of the proposed control unit for the regenerative air heater cleaning apparatus provides, in comparison with creatures using the most calculating methods, an increase in the service life of the furnace screens of the steam boiler due to a decrease in thermal stresses in the screen tubes due to the limitation of the amplitude of fluctuations in the temperature of metals due to the instability of the furnace process.

Claims (1)

Claim A method of controlling cleaning apparatus for a regenerative air heater of a boiler by turning on cleaning apparatus when the additional costs of generating electricity of a predetermined amount are exceeded due to contamination of the heating surfaces of the regenerative air heater, characterized in that, in order to increase the reliability of the furnace screens of the boiler, the amplitude of the fluctuations in the temperature of the furnace metal is measured screens at the most heat-stressed point and if it exceeds the permissible value, they also turn on the device you are cleaning. -. Compiled by V. Nazarov