CN111308966B - Emergency emission supervision system, analysis system and user terminal equipment for waste incineration power generation - Google Patents

Abstract

The invention provides a waste incineration power generation emergency discharge supervision system, an analysis system and user terminal equipment. The emergency emission supervisory system for waste incineration power generation comprises: the data acquisition module is used for acquiring emergency emission data, and the emergency emission data comprises control data related to the combustion working condition and the emitted smoke of the garbage incinerator; the data processing module is used for converting the control data to obtain processable data; and the data transmission module is used for transmitting the processable data to a waste incineration power generation emergency emission data analysis system, and the waste incineration power generation emergency emission data analysis system analyzes the processable data to form an analysis result related to the incinerator emergency emission data and transmits the analysis result to user terminal equipment. According to the invention, the real-time, convenient and effective monitoring of the emergency emission data by the user is realized.

Description

Emergency emission supervision system, analysis system and user terminal equipment for waste incineration power generation

Technical Field

The invention relates to the field of garbage disposal, in particular to a garbage incineration power generation emergency discharge supervision system, an analysis system and user terminal equipment.

Background

The economic development and the urbanization process in China greatly increase the quantity of municipal domestic garbage, the garbage incineration power generation is an effective way for harmless, quantitative reduction and resource disposal of the garbage, the garbage incineration treatment can not only achieve the environment-friendly effect, but also generate steam by waste heat of the garbage incineration for power generation and heat supply, so that the energy is saved, and the garbage incineration power generation method is a better resource recycling mode.

However, the waste incineration power generation has the characteristics of complex operation process, short emergency treatment period, strict emission standard and the like. This poses a challenge to the real-time and accuracy of the relevant data monitoring. A method for monitoring data of waste incineration power generation is to use a Programmable Logic Controller (PLC) or a Distributed Control System (DCS) to centralize data in a field central control room for monitoring, and in the operation process of an incinerator, operators can obtain the most intuitive operation data, but the following limitations also exist: 1) regional limitations: if the operator wants to acquire real-time data, the operator can only observe or inquire the real-time data through the central control room, and when the operator processes problems on site, the operator needs to inquire the processing result of the central control room, and cannot obtain data feedback by himself. 2) Convenience and accuracy limitations: for some important data concerned in real time, the traditional mode is more real-time observation by human eyes, which consumes manpower and is easy to generate errors. Meanwhile, only the operators who know the corresponding operation can obtain the data more smoothly. 3) The limitation of aging: the alarm or key information feedback result can not be automatically notified to related personnel in the first time by means of short messages, WeChats, mailboxes and the like, so that timely processing can be performed.

Therefore, the invention provides a waste incineration power generation emergency discharge supervision system, an analysis system and user terminal equipment, which are used for solving the problems in the prior art.

Disclosure of Invention

In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

The invention provides a waste incineration power generation emergency discharge supervision system, which comprises:

the data acquisition module is used for acquiring emergency emission data, and the emergency emission data comprises control data related to the combustion working condition and the emitted smoke of the garbage incinerator;

the data processing module is used for converting the control data to obtain processable data;

the data transmission module is used for sending the processable data to a waste incineration power generation emergency emission data analysis system, the waste incineration power generation emergency emission data analysis system analyzes and processes the processable data to form an analysis result related to incinerator emergency emission data and sends the analysis result to user terminal equipment, and the analysis result comprises a picture configuration formed by configuring and processing the processable data.

Illustratively, the control data comprises data of a programmable logic controller and/or a distributed control system controlling the waste incineration system.

The data processing module converts the emergency discharge data transmitted by an OPC protocol into the processable data transmitted by a Modbus protocol.

The invention also provides a waste incineration power generation emergency emission data analysis system, which comprises: a memory and a processor, wherein the processor is capable of,

the memory to store instructions;

the processor is used for executing the instructions in the memory to enable the waste incineration power generation emergency emission data analysis system to execute the following operations:

receiving processable data sent by a waste incineration power generation emergency emission supervisory system, wherein the processable data are converted from emergency emission data through the waste incineration power generation emergency emission supervisory system, and the emergency emission data comprise control data related to the combustion working condition and the emitted smoke of a waste incinerator;

analyzing the processable data to form an analysis result, wherein the analysis result comprises a picture configuration formed by configuring the processable data;

and sending the analysis result to user terminal equipment.

Illustratively, the waste incineration power generation emergency discharge supervision system further performs storing the processable data.

Illustratively, the analyzing the processable data further comprises performing big data analysis according to the stored processable data to obtain a combustion condition trend, and obtaining an optimized control parameter for controlling the incineration process of the incinerator according to the combustion condition trend.

Illustratively, the analyzing the processable data further comprises alarm analysis processing the processable data, the analysis result comprising an alarm diagnostic signal.

The invention also provides a user terminal device, which comprises a memory and a processor:

the memory to store instructions;

the processor is configured to execute the instructions in the memory to cause the user terminal device to:

receiving an analysis result sent by a waste incineration power generation emergency discharge data analysis system, wherein the analysis result is formed by analyzing and processing processable data sent by a waste incineration power generation emergency discharge supervision system by the waste incineration power generation emergency discharge data analysis system, the processable data is emergency discharge data converted by the waste incineration power generation emergency discharge supervision system, the emergency discharge data comprises control data related to the combustion condition of the waste incinerator and the discharged smoke, and the analysis result comprises a picture configuration formed by carrying out configuration processing on the processable data;

and displaying the analysis result to a user in a visual form.

Illustratively, the analysis result comprises performing big data analysis according to the stored processable data to obtain a combustion condition trend, and obtaining an optimized control parameter for controlling the incineration process of the incinerator according to the combustion condition trend.

Illustratively, the analysis result includes an alarm diagnostic signal obtained by performing alarm analysis processing on the processable data.

According to the waste incineration power generation emergency emission supervision system, the waste incineration power generation emergency emission data analysis system and the user terminal equipment, the emergency emission data including the control data related to the combustion working condition and the emitted smoke of the waste incinerator are analyzed and processed and then sent to the user terminal equipment to be displayed to a user in a visual mode, and therefore the user can conveniently and effectively monitor the emergency emission data in the incineration power generation process anytime and anywhere.

Drawings

The following drawings of the invention are included to provide a further understanding of the invention. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In the drawings:

fig. 1 is a block diagram of a waste incineration power generation emergency emission supervision system according to an embodiment of the present invention;

fig. 2 is a block diagram of a waste incineration power generation emergency emission data analysis system according to an embodiment of the present invention;

fig. 3 is a block diagram of a user terminal device according to an embodiment of the present invention;

fig. 4 is an application example of implementing emergency emission supervision for waste incineration power generation according to an embodiment of the present invention.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the invention.

In order to thoroughly understand the present invention, a detailed description will be provided in the following description to illustrate the emergency emission supervision system, the analysis system, and the user terminal device of the waste incineration power generation of the present invention. It will be apparent that the practice of the invention is not limited to the specific details known to those skilled in the art of waste treatment. The following detailed description of the preferred embodiments of the invention, however, the invention is capable of other embodiments in addition to those detailed.

It should be noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the invention. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

Exemplary embodiments according to the present invention will now be described in more detail with reference to the accompanying drawings. These exemplary embodiments may, however, be embodied in many different forms and should not be construed as limited to only the embodiments set forth herein. It is to be understood that these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of these exemplary embodiments to those skilled in the art. In the drawings, the thicknesses of layers and regions are exaggerated for clarity, and the same elements are denoted by the same reference numerals, and thus the description thereof will be omitted.

However, the waste incineration power generation has the characteristics of complex operation process, short emergency treatment period, strict emission standard and the like. This poses a challenge to the real-time and accuracy of the relevant data monitoring. A method for monitoring data of waste incineration power generation is to use a Programmable Logic Controller (PLC) or a Distributed Control System (DCS) to centralize data in a field central control room for monitoring, and in the operation process of an incinerator, operators can obtain the most intuitive operation data, but the following limitations also exist: 1) regional limitations: if the operator wants to acquire real-time data, the operator can only observe or inquire the real-time data through the central control room, and when the operator processes problems on site, the operator needs to inquire the processing result of the central control room, and cannot obtain data feedback by himself. 2) Convenience and accuracy limitations: for some important data concerned in real time, the traditional mode is more real-time observation by human eyes, which consumes manpower and is easy to generate errors. Meanwhile, only the operators who know the corresponding operation can obtain the data more smoothly. 3) The limitation of aging: the alarm or key information feedback result can not be automatically notified to related personnel in the first time by means of short messages, WeChats, mailboxes and the like, so that timely processing can be performed.

In order to solve the problems in the prior art, the invention provides a waste incineration power generation emergency discharge supervision system, a waste incineration power generation emergency discharge data analysis system and user terminal equipment.

Fig. 1 is a block diagram illustrating an emergency emission supervision system for waste incineration power generation according to an embodiment of the present invention; fig. 2 is a block diagram of a waste incineration power generation emergency emission data analysis system according to an embodiment of the present invention; fig. 3 is a block diagram of a user terminal device according to an embodiment of the present invention; fig. 4 is an application example of implementing emergency emission supervision for waste incineration power generation according to an embodiment of the present invention.

In order to solve the problems in the prior art, the invention provides a waste incineration power generation emergency discharge supervision system, which comprises:

the data acquisition module is used for acquiring emergency emission data, and the emergency emission data comprises control data related to the combustion working condition and the emitted smoke of the garbage incinerator;

the data processing module is used for converting the control data to obtain processable data;

the data transmission module is used for sending the processable data to a waste incineration power generation emergency emission data analysis system, the waste incineration power generation emergency emission data analysis system analyzes and processes the processable data to form an analysis result related to incinerator emergency emission data and sends the analysis result to user terminal equipment, and the analysis result comprises a picture configuration formed by configuring and processing the processable data.

The emergency emission monitoring system for the waste incineration power generation acquires emergency emission data including control data related to combustion conditions and emitted smoke of the waste incinerator, converts the emergency emission data and sends the converted data to the waste incineration power generation emergency emission data analysis system to obtain an analysis result including picture configuration, and finally enables a user to receive the analysis result on user terminal equipment.

As shown in fig. 1, the emergency emission supervision system 100 for waste incineration power generation includes a data acquisition module 101, a data processing module 102, and a data transmission module 103.

The data acquisition module 1 is used for acquiring emergency discharge data, wherein the emergency discharge data comprises combustion condition data related to the combustion condition of the garbage incinerator and flue gas data related to the discharged flue gas.

Illustratively, the combustion condition of the garbage incinerator is related to the feeding quantity of a feeding device on the incinerator, the feeding quantity of a feeding grate, the operation and turning speed of the incineration grate, the feeding quantity of primary air and secondary air and other control parameters. The data of the flue gas discharged after the garbage incineration is related to the control parameters of the combustion working condition of the incinerator, the temperature of the hearth of the incinerator, the feeding amount of lime slurry of the deacidification tower, the feeding amount of ammonia water in the denitration device and the like.

In an example according to the present invention, the data collecting device includes a device for collecting the above-mentioned control parameters, such as a PLC controller (programmable logic controller) 1011 and/or a DCS system (distributed control system) 1012 for controlling the waste incineration system, and the emergency discharge data of the incinerator including combustion condition data related to the combustion condition of the waste incinerator and flue gas data related to the discharged flue gas is obtained by collecting the control parameters for controlling the waste incineration system, and is sent to the user terminal in real time after subsequent processing and analysis, so as to implement effective supervision and control of the emergency discharge of waste incineration power generation, and effectively implement real-time effective and convenient monitoring of waste incineration power generation.

Referring to fig. 4, in an application example of implementing the emergency emission supervision of the waste incineration power generation according to an embodiment of the invention, a central switch is adopted to summarize data collected from a PLC optimization control station and a DCS system OPC server.

With continued reference to fig. 1, the waste incineration power generation emergency emission supervisory system according to the present invention further includes a data processing module 102. The data processing module 102 is configured to process the emergency discharge data collected by the data collection module 101 to form processable data for the analysis processing of the waste incineration power generation emergency discharge data analysis system to form an analysis result, and the analysis result is sent to the user terminal, where the analysis result includes a picture configuration formed by performing configuration processing on the processable data, so that a user can monitor the emergency discharge data in the incineration power generation process in real time through the user terminal, and real-time, effective and convenient monitoring of waste incineration power generation is effectively achieved.

Because the data in the PLC controller 1011 or the DCS system 1012 is the control data of the field device, the data collection process is usually implemented through the OPC standard interface in the collection process. In order to realize communication between controllers, between controllers and other devices via a network, data transmitted through the OPC protocol needs to be converted into data transmitted through the Modbus protocol. Illustratively, the data processing module 102 includes a memory storing executable program instructions and a controller that, upon execution of the executable program instructions, controls the data processing module 2 to convert data transmitted via the OPC protocol into processable data transmitted via the Modbus protocol.

For example, in actual use, the data processing module collects data in the PLC controller 1011 or the DCS system 1012 through the engineering configuration data analysis center. The engineering configuration data analysis center comprises a memory and a controller, wherein the memory and the controller store executable program instructions, and when the executable program instructions are executed, the engineering configuration data analysis center is controlled to perform protocol conversion on data in the PLC 1011 or the DCS 1012. Illustratively, the engineering configuration data analysis center includes a hardware system integrated with KepServer software and protocol conversion software.

Illustratively, as shown in fig. 1, the waste incineration power generation emergency emission supervision system 100 further comprises a data transmission module 103, and the data transmission module 103 sends the processable data to a waste incineration power generation emergency emission data analysis system.

Illustratively, the data transmission module includes a memory storing executable program instructions and a controller that, upon execution of the executable program instructions, controls the data transmission module to transmit the processable data to the cloud server. The data transmission module includes a wired data transmission module or a wireless data transmission module, wherein the wired data transmission module may include, but is not limited to, ethernet or other suitable wired communication manner, and the wireless data transmission module may include an Internet network, a mobile communication network (such as a GPRS network, a GSM network, a 2G network, a 3G network, a 4G network, an LTE network, or a 5G network, etc.), a WiFi network, and the like. Illustratively, the data transmission module is set as a 4G network module.

The data transmission module 103 sends the processable data to a waste incineration power generation emergency emission data analysis system, the waste incineration power generation emergency emission data analysis system analyzes the processable data to form an analysis result, and the analysis result is sent to a user terminal, so that the user can monitor the emergency emission data in the incineration power generation process in real time. According to one embodiment of the invention, the data transmission module adopts remote communication equipment suitable for an industrial internet platform (FServer), such as FBox equipment, so that remote interconnection, remote downloading and remote maintenance of field equipment are conveniently realized. In practical application, the FBox equipment is installed in a field cabinet and is connected with different types of PLC, intelligent instruments or frequency converters and other equipment through serial ports or Ethernet ports. The FBox device can release data in the PLCs or the instruments to an internet cloud server through surfing the internet, and can check the device data distributed in various places at any time, know the running state of the device, give an alarm, remotely debug the PLCs, monitor the cameras and the like. Through the remote client software matched with the FBox equipment, a user can conveniently remotely update a PLC and a human-computer interface program through the Internet, inquire and analyze field data, acquire field data analysis problems and remotely maintain and configure; the real-time pictures can be checked through the camera, the on-site operation data can be collected more conveniently, fault alarm is made, early warning is maintained, and improvement feedback is made according to the collected data, so that products are optimized better.

It should be understood that the data transmission module provided as the FBox device in the present embodiment is only an example, and those skilled in the art can provide any data transmission module including a memory storing executable program instructions and a controller as needed to implement the data transmission of the present invention.

It is to be understood that the present invention is only exemplary of arranging the waste incineration power generation emergency emission supervision system in a modular form such as a data acquisition module, a data processing module, and a data transmission module, and those skilled in the art will understand that any system containing hardware and software (executable program instructions) that will implement the functions of the data acquisition module, the data processing module, and the data transmission module described above can implement the present invention. Both implementations described above are included within the scope of the present invention.

In one example according to the present invention, a waste incineration power generation emergency emission supervisory system includes a memory storing executable program instructions and a processor, which when executed by the processor performs:

acquiring emergency discharge data, wherein the emergency discharge data comprises control data related to the combustion condition and the discharged flue gas of the garbage incinerator;

converting the control data to obtain processable data;

and sending the processable data to a waste incineration power generation emergency discharge data analysis system, wherein the waste incineration power generation emergency discharge data analysis system analyzes the processable data to form an analysis result related to incinerator emergency discharge data and sends the analysis result to user terminal equipment, and the analysis result comprises a picture configuration formed by carrying out configuration processing on the processable data.

In order to solve the problems in the prior art, the invention also provides a waste incineration power generation emergency emission data analysis system, which comprises:

the data transmission module is used for receiving processable data obtained after the emergency emission data are converted by the waste incineration power generation emergency emission supervision system, and the emergency emission data comprise control data related to the combustion working condition and the emitted smoke of the waste incinerator;

the data analysis module is used for analyzing the processable data to form an analysis result related to incinerator emergency emission data, and the analysis result comprises a picture configuration formed by performing configuration processing on the processable data; wherein,

and the data transmission module also sends the analysis result to user terminal equipment.

As shown in fig. 2, the waste incineration power generation emergency emission data analysis system 200 includes a data analysis module 201 and a data transmission module 202. Wherein, the data transmission module 201 receives the processable data sent by the emergency emission monitoring system 100 for waste incineration power generation. The data analysis module 201 analyzes the processable data to form an analysis result related to the incinerator emergency emission data, wherein the analysis result comprises a picture configuration formed by configuring the processable data. The data transmission module 201 transmits the analysis result including the screen configuration to the user terminal. Therefore, effective supervision and control over the emergency discharge of the waste incineration power generation are realized, and real-time effective and convenient monitoring of the waste incineration power generation is effectively realized.

Illustratively, the data analysis module 201 includes a memory storing executable program instructions and a processor, and when the processor executes the executable program instructions, the data analysis module 201 analyzes the processable data to form an analysis result related to the incinerator emergency emission data.

Illustratively, the data transfer module 202 includes a memory storing executable program instructions and a processor, and the data transfer module 202 transfers data when the processor executes the executable program instructions. Illustratively, the data transmission module 202 includes a wired data transmission module or a wireless data transmission module, wherein the wired data transmission module may include, but is not limited to, ethernet or other suitable wired communication manner, and the wireless data transmission module may include an Internet network, a mobile communication network (such as a GPRS network, a GSM network, a 2G network, a 3G network, a 4G network, an LTE network, or a future 5G network, etc.), a WiFi network, and the like. Illustratively, the data transmission module is configured as a WiFi module.

Illustratively, the user terminal includes a mobile phone, a tablet computer, a notebook computer, and the like.

Illustratively, the data transmission module 202 sends the alarm signal to the user terminal in the form of a short message, a WeChat, or an email. The burning power generation process can be conveniently, quickly and efficiently monitored by a user.

Illustratively, the data analysis module 201 also stores the processable data.

Illustratively, the data analysis module 201 further performs big data analysis according to the stored processable data to obtain a combustion condition trend, and obtains an optimized control parameter for controlling the incineration process of the incinerator according to the combustion condition trend.

Illustratively, the big data analysis includes, but is not limited to, analysis using machine learning models including, but not limited to, neural network models, vector machine-based models, and the like. Methods for large data analysis are well known to those skilled in the art and are not intended to be limiting.

Illustratively, the data analysis module 201 further performs alarm analysis processing on the processable data, and the analysis result includes an alarm diagnosis signal. By carrying out alarm analysis processing on the key data, the monitoring of the key information by a user is realized, and the real-time, effective and convenient monitoring of the waste incineration power generation is further realized.

It should be understood that the configuration of the waste incineration power generation emergency emission data analysis system in the form of a data analysis module and a data transmission module is merely exemplary, and those skilled in the art will understand that any system including hardware and software (executable program instructions) that will implement the functions of the data analysis module and the data transmission module can implement the present invention. Both implementations described above are included within the scope of the present invention.

Exemplarily, the waste incineration power generation emergency emission data analysis system includes: a memory and a processor, wherein the processor is capable of,

the memory to store instructions;

the processor is used for executing the instructions in the memory to enable the waste incineration power generation emergency emission data analysis system to execute the following operations:

receiving processable data sent by a waste incineration power generation emergency emission supervisory system, wherein the processable data are converted from emergency emission data through the waste incineration power generation emergency emission supervisory system, and the emergency emission data comprise control data related to the combustion working condition and the emitted smoke of a waste incinerator;

analyzing the processable data to form an analysis result, wherein the analysis result comprises a picture configuration formed by configuring the processable data;

and sending the analysis result to user terminal equipment.

In an embodiment of the invention, the waste incineration power generation emergency emission data analysis system is configured as a cloud processor provided by a plurality of high-performance parallel processor clusters, and a high-performance database and an application service system are realized in the parallel processing clusters by using an internal high-speed interconnection network.

For example, when the processor executes the instructions in the memory, the waste incineration power generation emergency emission supervision system further executes to store the processable data.

For example, when the processor executes the instructions in the memory, the waste incineration power generation emergency emission supervision system analyzes the processable data and further analyzes big data according to the stored processable data to obtain combustion condition trends, and obtains optimized control parameters for controlling the incineration process of the incinerator according to the combustion condition trends, so that production guidance and suggestions can be optimized.

For example, when the processor executes the instructions in the memory, the waste incineration power generation emergency emission supervision system analyzes the processable data and performs alarm analysis processing on the processable data, and the analysis result comprises an alarm diagnosis signal. For example, the emergency discharge supervision system for waste incineration power generation realizes alarm analysis of the incineration power generation process by setting a warning threshold value for the heavy-point data, for example, setting a warning threshold value of 1000 ℃ for the temperature of the incineration furnace chamber, and when the temperature of the incineration furnace chamber exceeds the threshold value, sending a generated alarm signal to a user terminal, so as to realize fault monitoring of the incineration power generation process by the user. And the user controls the waste incineration power generation process according to the received alarm signal.

It should be understood that the above analysis results including the screen configuration, the alarm signal, etc. are merely exemplary, and those skilled in the art should understand that the analysis results can be any type of parameters that can be monitored by the user for the operation condition of the incinerator, including any parameters in the combustion operation condition (such as the furnace temperature, the flue gas flow rate, the feeding amount, the primary air amount, the oxygen content in the flue gas, the NO, etc.)_XContent, etc.) are not limited herein.

In order to solve the problems in the prior art, the invention also provides user terminal equipment which comprises a data transmission module and a display module. The data transmission module is used for receiving an analysis result sent by a waste incineration power generation emergency discharge data analysis system, the analysis result is formed by analyzing processable data sent by a waste incineration power generation emergency discharge supervision system through the waste incineration power generation emergency discharge data analysis system, the emergency discharge data comprises control data related to the combustion working condition and the discharged smoke of the waste incinerator, the analysis result comprises a picture configuration formed by carrying out configuration processing on the processable data, and the display module is used for displaying the analysis result to a user in a visual mode. The user terminal device presents the analysis result including the picture configuration sent by the waste incineration power generation emergency emission data analysis system to the user in a visual form, so that the user can monitor the incineration power generation process in real time, and meanwhile, the monitoring process is visual and operable.

As shown in fig. 3, the user terminal device 300 includes a data transmission module 301 and a display module 302.

Illustratively, the data transmission module 301 comprises a memory storing executable program instructions and a controller, and when the executable program instructions are executed, the controller controls the data transmission module 301 to receive the analysis result sent by the waste incineration power generation emergency emission data analysis system 200. The analysis result is formed by analyzing and processing processable data sent by the waste incineration power generation emergency emission supervisory system 100 by the waste incineration power generation emergency emission data analysis system, the processable data is emergency emission data converted by the waste incineration power generation emergency emission supervisory system 100, the emergency emission data comprises control data related to the combustion condition and the emitted smoke of the waste incinerator, and the analysis result comprises a picture configuration formed by carrying out configuration processing on the processable data; illustratively, the data transmission module 301 includes a wired data transmission module or a wireless data transmission module, wherein the wired data transmission module may include, but is not limited to, ethernet or other suitable wired communication manner, and the wireless data transmission module may include an Internet network, a mobile communication network (such as a GPRS network, a GSM network, a 2G network, a 3G network, a 4G network, an LTE network, or a future 5G network, etc.), a WiFi network, and the like. Illustratively, the data transmission module is configured as a WiFi module.

Illustratively, the display module 302 includes a memory storing executable program instructions and a processor, and when the processor executes the executable program instructions, the display module 302 displays the analysis results to a user in a manner that is visible to the user. The analysis result includes a screen configuration formed by configuring the processable data, and the display module 302 presents the configuration screen to the user on the user terminal device 300.

Illustratively, the analysis result comprises big data analysis according to the stored processable data to obtain a combustion condition trend, and optimal control parameters for controlling the incineration process of the incinerator according to the combustion condition trend. On the user terminal 300, a display module 302 displays specific control parameters and combustion condition trends. Thereby enabling the user to obtain optimized production guidance and recommendations.

Illustratively, the analysis result includes an alarm diagnostic signal obtained by performing alarm analysis processing on the processable data. On the user terminal device 300, a display module 302 displays an alarm value and the like.

The user observes the emergency emission data of the waste incineration power generation through the user terminal equipment to realize the intuitiveness and the operability of the user terminal monitoring.

It should be understood that the configuration of the waste incineration power generation emergency emission data analysis system in the form of a data display module and a data transmission module is merely exemplary, and those skilled in the art will understand that any system including hardware and software (executable program instructions) that will implement the functions of the data display module and the data transmission module can implement the present invention. Both implementations described above are included within the scope of the present invention.

In one example according to the invention, a user terminal device comprises a memory and a processor:

the memory to store instructions;

the processor is configured to execute the instructions in the memory to cause the user terminal device to:

receiving an analysis result sent by a waste incineration power generation emergency discharge data analysis system, wherein the analysis result is formed by analyzing and processing processable data sent by a waste incineration power generation emergency discharge supervision system by the waste incineration power generation emergency discharge data analysis system, the processable data is emergency discharge data converted by the waste incineration power generation emergency discharge supervision system, the emergency discharge data comprises control data related to the combustion condition of the waste incinerator and the discharged smoke, and the analysis result comprises a picture configuration formed by carrying out configuration processing on the processable data;

and displaying the analysis result to a user in a visual form.

Illustratively, the user terminal includes a mobile phone, a tablet computer, a notebook computer, and the like. The analysis result is displayed to the user in the form of picture configuration, characters and the like. The system realizes real-time and effective monitoring of the incineration power generation process by a user anytime and anywhere, and meanwhile, the monitoring process is intuitive and operable.

Referring to fig. 4, an example of an application implementing emergency emission regulation for waste-incineration power generation is shown, according to an embodiment of the present invention. A data acquisition module (a PLC (programmable logic controller) optimization control station I and a DCS (distributed control System) OPC (OLE for process control) server II) of the waste incineration power generation emergency discharge supervision system acquires control data and gathers the control data through a central exchanger III; the data processing module is set as an engineering configuration data analysis center, the engineering configuration data analysis center acquires PLC data and DCS OPC data which are gathered by a central switch and the server by using KepServer software, and converts emergency discharge data transmitted by an OPC protocol into processable data transmitted by a Modbus communication protocol; the data transmission module is set as FBOX equipment (fifth), the FBOX equipment (fifth) is connected with the engineering configuration data analysis center through an RJ45 protocol and can process data transmitted by a Modbus protocol; meanwhile, the FBOX device carries the SIM card through a built-in 4G module to transmit the processable data to a waste incineration power generation emergency emission data analysis system set as a cloud server (C). The cloud server analyzes and processes the processable data to provide an analysis result comprising a configuration picture, alarm information and the like, and sends the analysis result to the mobile terminal, and the user obtains the analysis result through the visual display of the mobile terminal. And the cloud server informs the user of the generation time, the value and the alarm condition of the parameters related to the combustion condition in the analysis result in the forms of short messages, WeChat, mails and the like.

In summary, according to the waste incineration power generation emergency discharge supervision system, the waste incineration power generation emergency discharge data analysis system and the user terminal device, the emergency discharge data including the control data related to the combustion condition and the discharged flue gas of the waste incinerator are analyzed and processed and then sent to the user terminal device to be displayed to the user in a visual mode, so that the user can conveniently and effectively monitor the emergency discharge data in the incineration power generation process in real time.

The present invention has been illustrated by the above embodiments, but it should be understood that the above embodiments are for illustrative and descriptive purposes only and are not intended to limit the invention to the scope of the described embodiments. Furthermore, it will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that many variations and modifications may be made in accordance with the teachings of the present invention, which variations and modifications are within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides an emergent emission supervisory systems of msw incineration power generation which characterized in that includes:

the data acquisition module is used for acquiring emergency emission data, and the emergency emission data comprises control data related to the combustion working condition and the emitted smoke of the garbage incinerator;

the data processing module is used for converting the control data to obtain processable data, wherein the data processing module is used for converting the emergency discharge data transmitted by an OPC (optical proximity correction) protocol into the processable data transmitted by a Modbus protocol;

the data transmission module is used for sending the processable data to a waste incineration power generation emergency emission data analysis system, the waste incineration power generation emergency emission data analysis system analyzes and processes the processable data to form an analysis result related to incinerator emergency emission data and sends the analysis result to user terminal equipment, the analysis result comprises a picture configuration formed by configuring and processing the processable data, and the analysis result can be displayed to a user on the user terminal equipment in a user visual mode.

2. The waste incineration power generation emergency emission supervisory system of claim 1, wherein the control data includes data for a programmable logic controller and/or a distributed control system controlling the waste incineration system.

3. The utility model provides a waste incineration electricity generation emergency discharge data analysis system which characterized in that includes: a memory and a processor, wherein the processor is capable of,

the memory to store instructions;

the processor is used for executing the instructions in the memory to enable the waste incineration power generation emergency emission data analysis system to execute the following operations:

receiving processable data sent by a waste incineration power generation emergency emission supervisory system, wherein the waste incineration power generation emergency emission supervisory system converts the emergency emission data transmitted by an OPC protocol into the processable data transmitted by a Modbus protocol, and the emergency emission data comprise control data related to the combustion working condition and the emitted smoke of a waste incinerator;

analyzing the processable data to form an analysis result, wherein the analysis result comprises a picture configuration formed by configuring the processable data;

and sending the analysis result to user terminal equipment.

4. The waste incineration power generation emergency discharge data analysis system of claim 3, wherein the waste incineration power generation emergency discharge supervision system further performs storing the processable data.

5. The waste incineration power generation emergency emission data analysis system of claim 3, wherein the analyzing the processable data further comprises performing big data analysis based on the stored processable data to obtain a combustion condition trend, and obtaining optimized control parameters for controlling the incinerator burning process based on the combustion condition trend.

6. The waste incineration power generation emergency emission data analysis system of claim 3, wherein the analyzing the processable data further comprises performing alarm analysis processing on the processable data, and the analysis result comprises an alarm diagnostic signal.

7. A user terminal device, comprising a memory and a processor:

the memory to store instructions;

the processor is configured to execute the instructions in the memory to cause the user terminal device to:

receiving an analysis result sent by a waste incineration power generation emergency discharge data analysis system, wherein the analysis result is formed by analyzing and processing processable data sent by a waste incineration power generation emergency discharge supervision system by the waste incineration power generation emergency discharge data analysis system, the waste incineration power generation emergency discharge supervision system converts the emergency discharge data transmitted by an OPC protocol into the processable data transmitted by a Modbus protocol, the emergency discharge data comprises control data related to the combustion condition of the waste incinerator and the discharged smoke, and the analysis result comprises a picture configuration formed by carrying out configuration processing on the processable data;

and displaying the analysis result to a user in a visual form.

8. The user terminal device according to claim 7, wherein the analysis result comprises performing big data analysis according to the stored processable data to obtain a combustion condition trend, and obtaining an optimized control parameter for controlling the incineration process of the incinerator according to the combustion condition trend.

9. The user terminal device of claim 7, wherein the analysis result comprises an alarm diagnostic signal obtained by performing alarm analysis processing on the processable data.

Images