CN113941446A

CN113941446A - Characterization dry-type electrostatic precipitator operation CO2Consumption online accounting system and method

Info

Publication number: CN113941446A
Application number: CN202111133036.3A
Authority: CN
Inventors: 刘含笑; 崔盈; 赵琳; 寿恬雨; 刘美玲; 边晨; 曹羽
Original assignee: Zhejiang Feida Environmental Science and Technology Co Ltd
Current assignee: Zhejiang Feida Environmental Science and Technology Co Ltd
Priority date: 2021-09-27
Filing date: 2021-09-27
Publication date: 2022-01-18

Abstract

The invention provides a method for representing CO in operation of a dry-type electric precipitator₂The system comprises a dry-type electric dust remover, a data monitoring unit, a data transmission unit and a data processing and displaying unit, wherein the data monitoring unit is used for monitoring energy consumption data consumed during operation of the dry-type electric dust remover, the data monitoring unit is in communication connection with the data processing and displaying unit through the data transmission unit, the data processing and displaying unit comprises a processor and a display in communication connection with the processor, and the processor is used for receiving the data monitored by the data monitoring unit and converting the data into CO₂Consumption data, the display for converting the processor to CO₂The consumption data are displayed outwards, and the representation of CO is realized₂Real-time monitoring of emissions, andCO change by regulating related parameters through controller₂Consumption, and CO is realized on the premise of ensuring that pollutant emission reaches the standard₂The consumption is the lowest.

Description

Characterization dry-type electrostatic precipitator operation CO2Consumption online accounting system and method

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of dust removing equipment, in particular to a method for representing CO in operation of a dry-type electric dust remover₂A consumption online accounting system and method.

[ background of the invention ]

At present, the mainstream equipment of the smoke particulate treatment equipment of the domestic and overseas coal-fired power plants is a dry-type electric dust collector, the dry-type electric dust collector discharges ash removed from smoke in a dry state, a high-strength electric field is released through electrodes, under the action of the electric field force, load point dust is collected by a cathode device and an anode device, an anode plate adopts a metal polar plate which is hung in parallel, and the cathode can adopt a top-hanging type or a side-hanging type according to the actual conditions of projects.

The traditional dry-type electric dust remover can only monitor pollutant emission and operation parameters and cannot monitor and characterize CO₂The emission is not beneficial to energy conservation and carbon reduction of energy-using equipment for reducing pollution, and the representation of the operation CO of the dry-type electric dust remover is provided₂A consumption online accounting system and method.

[ summary of the invention ]

The invention aims to solve the problems in the prior art and provides a method for representing CO in operation of a dry-type electric dust collector₂Consumption on-line accounting system and method capable of monitoring and characterizing CO₂And (4) discharging the amount.

In order to achieve the aim, the invention provides a method for characterizing CO in operation of a dry-type electric dust remover₂Consumption is accounting system on line, including dry-type electrostatic precipitator, data monitoring unit, data transmission unit, data processing display element, data monitoring unit is used for monitoring dry-type electrostatic precipitator operation consumption's energy consumption data, data monitoring unit passes through data transmission unit and data processing display element communication connection, data processing display elementComprises a processor and a display connected with the processor in communication, wherein the processor is used for receiving the data monitored by the data monitoring unit and converting the data into CO₂Consumption data, the display for converting the processor to CO₂The consumption data is displayed outwards.

Preferably, the processor is preset with control logic and calculation function for converting the data monitored by the data monitoring unit into CO₂The data is consumed.

Preferably, the data processing and displaying unit further comprises a controller and an operation input device, wherein the controller is in communication connection with the processor, and is used for regulating and controlling the operation mode and parameters of the dry-type electric dust collector so as to change the CO₂And the operation input device is used for manually inputting the running mode and parameters of the dry-type electric dust collector.

Preferably, the dry-type electric dust collector comprises a cathode system, an anode system, a high-voltage power supply device, a low-voltage power supply device, a rapping system, an ash conveying system and an ash bucket heat insulation system.

Preferably, the data monitoring unit comprises an electric energy meter for monitoring the power consumption of the high-voltage power supply device, a pressure gauge for monitoring the resistance of the dry electric dust collector and an electric energy meter for monitoring the power consumption of the low-voltage power supply device.

Preferably, the data transmission unit includes a transmission wire and a wireless network, the processor is in communication connection with the data monitoring unit and the display through the transmission wire, the transmission wire is used for transmitting the data monitored by the data monitoring unit to the processor and transmitting the data converted by the processor to the display, and the wireless network is used for transmitting the data converted by the processor to the mobile terminal in real time.

The invention also provides a method for representing the operation CO of the dry-type electric precipitator₂An online consumption accounting method for calculating CO by using the following conversion function₂Consumption:

F＝eTP_e(E_h+E_l+E_p)/P_c

wherein F is CO generated during the operation of the dry electric dust collector₂Consumption, e is coal consumptionA conversion factor; t is the running time; pe and Pc are respectively the electricity price and the coal price; e_h、E_l、E_pRespectively high voltage power consumption, low voltage power consumption and resistance power consumption.

Preferably, the resistance power consumption E_pThe calculation formula of (a) is as follows:

wherein Q is the dry-type electrostatic precipitator entry flue gas volume, and P is the dry-type electrostatic precipitator resistance.

The invention has the beneficial effects that: the invention monitors the energy consumption of the dry-type electric dust remover through the data monitoring unit, and converts the energy consumption into CO through the control logic and the calculation function preset in the data processing display unit₂Consumed and finally displayed outwards through the display. And the CO can be changed by regulating and controlling related parameters through the controller₂Consumption, and CO is realized on the premise of ensuring that pollutant emission reaches the standard₂The consumption is the lowest.

The features and advantages of the present invention will be described in detail by embodiments in conjunction with the accompanying drawings.

[ description of the drawings ]

FIG. 1 is a representation of the CO of the dry type electric dust collector operation₂A block diagram of a consumption online accounting system;

FIG. 2 is a representation of the CO of the dry type electric precipitator operation according to the present invention₂And (3) coal consumption conversion coefficients corresponding to different coal types in the consumption online accounting method, wherein the value corresponding to the standard coal carbon dioxide emission coefficient is the coal consumption conversion coefficient e of different coal types.

[ detailed description ] embodiments

Referring to FIG. 1, the invention relates to a method for representing operation CO of a dry-type electric dust remover₂Consumption is accounting system on line, including dry-type electrostatic precipitator 1, data monitoring unit 2, data transmission unit 3, data processing display element 4, data monitoring unit 2 is used for monitoring the energy consumption data that dry-type electrostatic precipitator 1 operation consumed, data monitoring unit 2 passes through data transmission unit 3 and data processing display element 4 communication connection, data monitoring unit 2 is connected with data processing display element 4, the consumption is onlineThe data processing and displaying unit 4 comprises a processor and a display in communication connection with the processor, wherein control logic and calculation functions are preset in the processor, and the processor is used for receiving the data monitored by the data monitoring unit 2 and converting the data into CO₂Consumption data, the display for converting the processor to CO₂The consumption data is displayed outwards.

Further, the data processing and displaying unit 4 further comprises a controller and an operation input device which are in communication connection with the processor, wherein the controller is used for regulating and controlling the operation mode and parameters of the dry-type electric dust remover 1 so as to change the CO₂The consumption controller is internally provided with a plurality of operation modes, including a maximum output mode, a general operation mode, an energy-saving carbon-reducing efficiency-protecting mode and the like, wherein different modes correspond to different CO₂And consumption, and an operator can set automatic operation according to a mode and can switch manual regulation and control. The operation input device is used for manually inputting the operation mode and parameters of the dry-type electric dust collector 1, the manual input mode has a specific account number and identity recognition function, and for primary operators, an interface automatic prompt function is provided when the parameters or the modes are input.

Further, dry-type electrostatic precipitator 1 includes import and export head, negative pole system, positive pole system, high voltage power supply unit, low pressure power supply unit, rapping system, ash conveying system, ash bucket heat preservation system, and wherein, high voltage power supply unit is negative pole system, positive pole system power supply, and low pressure power supply unit is rapping system, ash conveying system, ash bucket heat preservation system power supply.

Further, the data monitoring unit 2 comprises an electric energy meter for monitoring the power consumption of the high-voltage power supply device, a pressure gauge for monitoring the resistance of the dry-type electric dust collector 1, and an electric energy meter for monitoring the power consumption of the low-voltage power supply devices such as a rapping motor of a rapping system, an ash conveying pump of an ash conveying system, an electric heating of an ash bucket heat insulation system and the like.

Further, the data transmission unit 3 includes a transmission wire and a wireless network, the processor is in communication connection with the data monitoring unit 2 and the display through the transmission wire, the transmission wire is used for transmitting the data monitored by the data monitoring unit 2 to the processor and transmitting the data converted by the processor to the display, and the wireless network is used for transmitting the data converted by the processor to the mobile terminal in real time.

The system of the present invention calculates CO using the following conversion function₂Consumption:

F＝eTP_e(E_h+E_l+E_p)/P_c

wherein F is CO generated during the operation of the dry electric dust collector₂The consumption e is a coal consumption conversion coefficient, and the coal consumption conversion coefficients e of different coal types are shown in FIG. 2; t is the running time; pe and Pc are respectively the electricity price and the coal price; e_h、E_l、E_pRespectively high voltage power consumption, low voltage power consumption and resistance power consumption, wherein the high voltage power consumption and the low voltage power consumption are measured by an electric energy meter; resistance power consumption E_pThe calculation formula of (a) is as follows:

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.

Claims

1. Characterization dry-type electrostatic precipitator operation CO₂A consumption online accounting system, characterized by: including dry-type electrostatic precipitator (1), data monitoring unit (2), data transmission unit (3), data processing display element (4), data monitoring unit (2) are used for monitoring the energy consumption data that dry-type electrostatic precipitator (1) operation consumed, data monitoring unit (2) are through data transmission unit (3) and data processing display element (4) communication connection, data processing display element (4) include the treater, with treater communication connection's display, the treater is used for receiving the data of data monitoring unit (2) monitoring to convert into CO₂Consumption data, the display for converting the processor to CO₂Consumption dataAnd is displayed outwards.

2. The CO for characterizing the operation of the dry electric dust remover as claimed in claim 1₂A consumption online accounting system, characterized by: the processor is internally preset with control logic and calculation functions for converting the data monitored by the data monitoring unit (2) into CO₂The data is consumed.

3. The CO for characterizing the operation of the dry electric dust remover as claimed in claim 1₂A consumption online accounting system, characterized by: the data processing and displaying unit (4) further comprises a controller and an operation input device which are in communication connection with the processor, wherein the controller is used for regulating and controlling the operation mode and parameters of the dry-type electric dust remover (1) so as to change CO₂Consumption, the operation input device is used for manually inputting the operation mode and parameters of the dry-type electric dust collector (1).

4. The CO for characterizing the operation of the dry electric dust remover as claimed in claim 1₂A consumption online accounting system, characterized by: the dry-type electric dust collector (1) comprises a cathode system, an anode system, a high-voltage power supply device, a low-voltage power supply device, a rapping system, an ash conveying system and an ash bucket heat insulation system.

5. The CO for characterizing the operation of the dry electric dust remover as claimed in claim 4₂A consumption online accounting system, characterized by: the data monitoring unit (2) comprises an electric energy meter for monitoring the power consumption of the high-voltage power supply device, a pressure gauge for monitoring the resistance of the dry-type electric dust collector (1) and an electric energy meter for monitoring the power consumption of the low-voltage power supply device.

6. The CO for characterizing the operation of the dry electric dust remover as claimed in claim 1₂A consumption online accounting system, characterized by: the data transmission unit (3) comprises a transmission wire and a wireless network, the processor is in communication connection with the data monitoring unit (2) and the display through the transmission wire, and the transmission wire is used for monitoring the data monitoring unit (2)And the wireless network is used for transmitting the data converted by the processor to the mobile terminal in real time.

7. Use of a dry electrostatic precipitator characterized according to any of claims 1 to 6 for operating CO₂An accounting method of a consumption online accounting system, characterized by: the method calculates CO by adopting the following conversion function₂Consumption:

F＝eTP_e(E_h+E_l+E_p)/P_c

wherein F is CO generated during the operation of the dry electric dust collector₂Consumption, e is a coal consumption conversion coefficient; t is the running time; pe and Pc are respectively the electricity price and the coal price; e_h、E_l、E_pRespectively high voltage power consumption, low voltage power consumption and resistance power consumption.

8. The CO for characterizing the operation of the dry electric dust remover as claimed in claim 7₂The consumption online accounting system and the method are characterized in that: resistance power consumption E_pThe calculation formula of (a) is as follows: