SU1751591A1 - System controlling concentration ratio in steam-releasing stages of drum-type boiler - Google Patents

Abstract

Use: heat power engineering in the systems of regulation of the multiplicity of concentration in the evaporation stages of the drum boiler. The essence of the invention. The regulator 10 of the ratio of the concentration ratio is connected to the setting device 11 and the sensors 12 and 13, which measure the salt content of the boiler water in the first and last evaporation stages, respectively. The output of the regulator 10 is connected to the pulse ignition block 14. The output More of the pulse integration unit 14 is connected to the input of the water flow regulator 15 through the water flow restrictor 17. Output Less than the pulse integration unit 14 is directly connected to the water flow controller 15. The inputs of the regulator 15 are connected to the setting device 19 and the water consumption sensor 20. The output of the regulator 15 is connected to the actuator 21, acting on the control valve 9. 1 Il.

Description

The invention relates to energy and can be applied to automatically control the multiplicity of concentrations in the evaporation stages of a drum boiler.

A known system for controlling the multiplicity of concentrations in the evaporation stages of a drum boiler, comprising a valve with an actuator on the control line connected between the downpipes of the last and first evaporation stages, as well as sensors for the salinity of boiler water in the first and last evaporation stages.

A disadvantage of the known system is the inaccuracy in controlling the multiplicity of concentrations in the evaporation stages of the drum boiler, which does not allow to continuously maintain minimal losses of water and heat with a purge, as well as to prevent a decrease in the quality of steam and excessive consumption of phosphates in a timely manner. So, for example, under certain boiler operating modes, an excessively large water flow through the line for controlling the concentration ratio (more than 2% of the boiler productivity) or excess phosphates in the boiler water is possible, which in the first case leads to a decrease in the efficiency of stepwise evaporation and a decrease in the quality of steam, and in the second, to a significant increase in losses of water and heat with purging and an increase in the consumption of phosphates.

The purpose of the invention is to increase the accuracy of maintaining the multiplicity of concentrations in the evaporation stages of the boiler.

This goal is achieved by the fact that the system is equipped with series-connected sensors for the salinity of the boiler water in the first and last stages of evaporation and a regulator of the ratio of the multiplicity of concentrations with a master and pulse control unit, which has two outputs More and Less, as well as a water flow regulator with a flow transmitter, master, limiter water flow rate and an actuating element, the output being greater than the pulse integration unit connected to the input of the water flow regulator through the flow limiter ode of water, and the output is Less ”- with the input of the flow regulator directly, the output of which is connected to the actuator connected to the valve on the control line.

The drawing shows a diagram of the system.

The clean compartment of the drum 1 of the boiler is connected by the down pipes 2 to the collector 3 of the clean compartment screen, and the remote cyclone (salt compartment) 4 is connected through the down pipes 5 to the collector 6 of the left screen of the salt compartment. Additionally, the upper point of one of the lowering pipes 5 is connected by a line 7 for controlling the concentration ratio with the lower point of one of the lowering pipes 2 of the clean compartment. On the line 7 for controlling the multiplicity of concentrations, a sequentially tapering flow meter 8 and a control valve 9 are installed.

The regulator 10 of the ratio of the multiplicity of concentrations at the input is connected to the setter 11 and sensors 12 and 13, which measure the salt content of the boiler water in the first and last stages of evaporation, respectively, and the output to the pulse integration unit 14 of the water flow controller 15, and the output connection is Greater 6 of the pulse integration unit 14 with the input of the regulator 15 of the water flow is made through the limiter 17 of the water flow, and the connection of the output is Less than 18 of the unit 14 of the pulse integration with the input of the regulator 15 of the water flow, which at the inputs of additional It is additionally connected to a setter 19 and a water flow sensor 20, and in output, to an actuator 21 acting on a control valve 9. Elements 10-15, 17.19, and 20 are performed on a serial production of GPS equipment, with elements 14 and 17 being implemented using the BZI block (AKESD system).

The system operates as follows.

Subject to compliance with the calculated multiplicity of boiler water concentrations, the water flow regulator 15, summing the input signals from the water flow sensor 20, the setter 19 and the concentration ratio ratio regulator 10, maintains the required water flow in the concentration multiplication line 7,

In turn, the regulator 10 of the ratio of the multiplicity of concentrations, perceiving the signals from the salinity sensors 12 and 13 in the evaporation stages, adjusts the operation of the regulator 15 to change the flow rate of water in line 7 in cases of decreasing the multiplicity of concentrations, thereby performing the function of an automatic adjuster with respect to the regulator 15 of the water flow rate .

If, for example, a decrease in the multiplicity of concentrations occurs, then the regulator 10 through the output target More than 16 of the pulse integration unit 14 corrects the task of the regulator 15 so that the water flow in line 7 increases. The increase in water flow in line 7 leads to the establishment of a given value of the multiplicity of concentrations. In cases where the water flow rate in line 7 is greater than 2% of the boiler output by the command of the water flow limiter, the output of the regulator 10 in the circuit is more disconnected from the input of the regulator 15, which leads to stabilization of the water flow in line 7 at the limit of permissible values. With an increase in the multiplicity of concentrations, the joint operation of the regulators 10 and 15 leads to a decrease in water flow in line 7 or the complete closure of valve 9.

Due to the accuracy of maintaining the multiplicity of concentrations, the efficiency of stepwise evaporation and the quality of the steam increase _? In addition, water and heat losses are reduced, as well as phosphate consumption.

Claims (1)

Claim The system for controlling the concentration rate in the evaporation stages of the drum boiler, comprising a valve on the control line connected between the downpipes of the last and first evaporation stages, characterized in that, in order to increase the accuracy of maintaining the concentration ratio in the evaporation stages of the boiler, it is equipped with salinity sensors connected in series boiler water in the first and last stages of evaporation and a regulator of the ratio of the concentration ratio with a master and a pulse integration unit I, having two outputs More and Less, as well as a water flow regulator with a flow sensor, a setter, a water flow limiter and an actuating element, the More output of the pulse integration unit being connected to the input of the water flow regulator through the water flow limiter, and the Less output to the input a flow regulator directly, the output of which is connected to an actuator connected to a valve on the control line.