KR20230152879A - Combustion improving agent smart automatic injection system - Google Patents

Abstract

The present invention relates to a smart automatic injection system for combustion improvement agents based on big data.
The present invention includes a water storage tank (100) for storing water; A combustion improvement agent storage tank (200) that stores the combustion improvement agent; waste incinerator (300); A combustion improvement agent supply unit 400 that automatically supplies the water and combustion improvement agent supplied from the water storage tank 100 and the combustion improvement agent storage tank 200 to the waste incinerator 300; a data-based combustion environment prediction unit 500 that provides optimal data information by acquiring firebox temperature information and clinker production information of the waste incinerator 300; It includes a control unit 600 that determines the input amount of the combustion improvement agent based on information acquired through the combustion environment prediction unit 500 and controls the combustion improvement agent to be supplied to the waste incinerator 300 through the combustion improvement agent supply unit 400.
The present invention has the effect of being able to incinerate waste in a waste incinerator unmanned and with an optimized combustion environment.

Description

Big data-based combustion improvement agent smart automatic injection system {Combustion improving agent smart automatic injection system}

The present invention relates to a smart automatic injection system, and more specifically, to a smart automatic injection system for improving combustion based on big data that predicts the combustion environment of an incinerator based on big data and allows waste to be incinerated under optimal environmental conditions. It's about.

Due to the recent pandemic phenomenon, a large amount of waste such as disposable products, waste plastic, and high-calorie household waste is being generated around the world. Due to this waste, the processing capacity of landfill, biodegradation, etc. is exceeded, and the amount of waste incineration is rapidly increasing. Large amounts of exhaust gases are having a negative impact on the atmospheric environment.

In order to prevent such environmental pollution, leading countries overseas are reducing the volume of waste due to incineration by increasing the efficiency of waste incinerators and generalizing resource recovery using waste heat boilers, and are achieving landfill efficiency after incineration of more than 90%.

However, in the case of Korea, we rely on landfill rather than incineration, so the rate of incineration after landfill remains below 10%. If landfill treatment capacity is insufficient in the future, we may face serious environmental problems due to lack of incineration technology.

In particular, the increase in the use of disposable products due to COVID-19 is generating more household waste such as waste plastics and waste paper, and these high-calorie household wastes are having a significant impact on the operation of each local government's waste heat boiler incinerator.

Accordingly, the demand for innovative and eco-friendly waste incinerator combustion efficiency improvement technology that can prevent environmental pollution by increasing combustion efficiency even when incinerator processing capacity is expanded is increasing.

In other words, the waste disposal business, which is growing along with the environmental energy industry, is developing into a very large industry nationally, so it is necessary to quickly enter new markets through local production at a time when the barriers to market entry are not yet high.

However, existing waste incinerators have problems in terms of combustion efficiency and management operation, such as structural limitations of the combustion accelerator injection system, absence of combustion environment data, and cost and manpower requirements due to manned manual management.

To date, management of waste incinerators has been limited to the function of suppressing high-temperature combustion or incomplete combustion by injecting a fixed flow rate of combustion accelerator through manual injection.

Therefore, it is predicted that waste incinerators will be quickly converted to a system that applies an innovative smart automatic injection device with an automatic management method based on combustion data that can simultaneously expand the incinerator processing capacity and solve environmental pollution in response to consumer demands.

Meanwhile, in the case of conventionally commercialized combustion improvement agent injection devices, there is a need to replace them with a more innovative, high-efficiency, high-precision automatic smart injection system due to problems such as structural limitations, absence of combustion environment data, and cost and manpower requirements due to manned manual management. .

Moreover, the importance of the waste incinerator equipment field is increasing to secure a global position as a core technology in the future environmental energy market, but there is still a lack of domestic production of core parts and activation of domestic waste-related specialized companies.

In addition, the existing waste incinerator combustion improvement agent injection device requires manual operation and management by dedicated personnel, and has had the problem of not being able to control the combustion environment due to the absence of combustion environment statistical data.

The background or prior art described above is information possessed by the present inventor or acquired in the process of deriving the present invention, and is only intended to help understand the technical significance of the present invention, and is information to which this invention belongs before filing the application for the present invention. It should be noted that this does not mean that it is a widely known technology in the field.

KR Patent Registration No. 10-2179773 Registration date 2020.11.11 KR Patent Registration No. 10-2043939 Registration Date 2019.11.06 KR Patent Registration No. 10-1349453 Registration Date 2014.01.02 KR Patent Publication No. 10-2022-0026179 Publication date 2022.03.04

Accordingly, the present inventor comprehensively considered the above-mentioned matters and at the same time, with the idea of solving the technical limitations and problems of the existing technology, the system operation starts from the time of incineration material input to the waste incinerator, automatic sensing of the firebox temperature, temperature data analysis, and data The present invention was created as a result of continuous research and effort to develop a smart automatic injection system with a new structure that diagnoses final combustion conditions through prediction of temperature changes in the firebox and error correction.

Therefore, the technical problem and purpose to be solved by the present invention is to optimize the firebox combustion environment by automatically controlling the amount of combustion improvement agent input in a smart automatic injection device in real time through advance prediction and to provide a process operated by unmanned automation.

Here, the technical problems and objectives to be solved by the present invention are not limited to the technical problems and objectives mentioned above, and other technical problems and objectives not mentioned will be clearly understood by those skilled in the art from the description below.

Specific means according to the implementation of the present invention for effectively achieving a specific technical purpose while embodying a new idea for solving the technical problem of the present invention as described above include a water storage tank for storing water; A combustion improvement agent storage tank that stores the combustion improvement agent; waste incinerator; a combustion improvement agent supply unit that automatically supplies water and combustion improvement agent supplied from the water storage tank and the combustion improvement agent storage tank to the waste incinerator; a data-based combustion environment prediction unit that provides optimal data information by acquiring firebox temperature information and clinker production information of the waste incinerator; We present a smart automatic injection system for combustion improvers based on big data, which includes a control unit that determines the amount of combustion improver input through the information acquired through the combustion environment prediction unit and controls the supply of the combustion improver to the waste incinerator through the combustion improver supply unit.

As a result, the present invention can create a new effect in that waste incineration in a waste incinerator can be incinerated unmanned and with an optimized combustion environment.

According to the technology of the present invention, which is based on a unique solution to solve the above-described technical problems, combustion improvement agent is added according to the internal sensing value of the waste incinerator, thereby securing combustion efficiency through fixed-quantity injection and convenience of work through automatic injection. There is an advantage in securing it.

Here, the effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

Figure 1 is a configuration diagram of a smart automatic injection system for combustion improvement agents based on big data according to an embodiment of the present invention.
Figure 2 is a flow chart of the operation process according to Figure 1.

Hereinafter, embodiments according to the present invention will be described in more detail with reference to the accompanying drawings. Before describing the present invention, the terms described below are defined in consideration of the functions in the present invention, which are technical aspects of the present invention. It is specified that it should be interpreted as a concept that corresponds to the idea and a meaning commonly used or commonly recognized in the relevant technical field. Additionally, if it is determined that a detailed description of a known function or configuration related to the present invention may obscure the gist of the present invention, the detailed description will be omitted.

The drawings attached herein illustrate the composition and operation of the technology, and some parts are exaggerated or simplified for convenience and clarity of understanding, and each component does not exactly match the actual size and shape.

In addition, in this specification, the term and/or refers to a combination of a plurality of related described items or includes any item among a plurality of related described items, and when a part includes a certain element, this refers to a specially opposed description. This does not mean excluding other components unless there is a , but means that other components can be included in addition.

In other words, terms such as 'include', 'equipped', 'have', etc. mean the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in this specification. However, it should be understood that this does not exclude the presence or addition of one or more other features, numbers, step operation components, parts, or combinations thereof.

In addition, terms such as top, bottom, upper surface, lower surface, or upper, lower, upper, lower, front and back, left and right are used for convenience to distinguish the relative positions of each component. For example, the upper part of the drawing may be referred to as upper and the lower part as lower, the longitudinal direction may be referred to as the front-to-back direction, and the width direction may be referred to as the left-right direction.

Additionally, terms such as first and second may be used to describe various components. That is, terms such as first, second, etc. may be used only for the purpose of distinguishing one component from another component. For example, the first component may be named the second component as long as it does not deviate from the scope of protection of the present invention, and the second component may also be named the first component.

The present invention relates to a smart automatic injection system for combustion improvement agents based on big data.

As shown in FIG. 1, the big data-based combustion improver smart automatic injection system according to the present invention includes a water storage tank 100 for storing water, a combustion improver storage tank 200 for storing a combustion improver, and a waste incinerator. (300), a combustion improvement agent supply unit 400 that automatically supplies the water and combustion improvement agent supplied from the water storage tank 100 and the combustion improvement agent storage tank 200 to the waste incinerator 300, and the waste incinerator A data-based combustion environment prediction unit 500 that provides optimal data information by acquiring it through the firebox temperature information and clinker production information of (300), and a combustion improvement agent through the information acquired through the combustion environment prediction unit 500. It consists of a control unit 600 that determines the input amount and controls the supply of the combustion improvement agent to the waste incinerator 300 through the combustion improvement agent supply unit 400.

The water storage tank 100 stores water inside and is provided with an inlet for coupling an inflow line for water storage on one side and an outlet for coupling an discharge line for supplying the stored water on the other side.

The combustion improvement agent storage tank 200 has a combustion improvement agent stored therein, and an inlet for receiving the combustion improvement agent is formed on one side, and an outlet for supplying the combustion improvement agent is formed on the other side.

The waste incinerator 300 forms the same internal space as a known one, and a number of known sensors are installed in the internal space to variously sense the interior, such as a temperature sensor that senses temperature and a detection sensor that checks the remaining amount inside.

The combustion improvement agent supply unit 400 injects the water from the water storage tank 100 and the combustion improvement agent from the combustion improvement agent storage tank 200 through the nozzle of the injector 410.

The injector 410 injects a fixed amount of combustion improvement agent into the waste incinerator 300 through a nozzle during the switching operation.

The combustion environment prediction unit 500 stores big data through signal values from sensors installed inside the waste incinerator 300, and includes a temperature sensor that senses the temperature and a clinker sensor that measures the amount of clinker. there is.

The control unit 600 determines the amount of combustion improvement agent input based on information acquired through the combustion environment prediction unit 500 and supplies the combustion improvement agent to the waste incinerator 300 through the combustion improvement agent supply unit 400.

Accordingly, when the sensor installed inside the waste incinerator 300 outputs conditions such as internal temperature, the combustion environment prediction unit 500 outputs a pre-stored signal value through various signal values, and the control unit 600 outputs the output signal value. This operates the injector 410 of the combustion improvement agent supply unit 400 so that a fixed amount of combustion improvement agent can be injected.

That is, as shown in FIG. 2, when the input step of incinerating the waste incinerator 300 is performed, the sensor senses the temperature of the firebox in the internal space and outputs the measured signal value to the control unit 600. The combustion environment prediction unit 500 continuously performs a temperature data analysis step in which the temperature data is analyzed through pre-stored memory values, and at the same time, the error is corrected through the predicted firebox temperature, and then the combustion improvement agent input amount is determined to determine the combustion improvement agent supply unit. When (400) operates the system by adding the combustion improvement agent, the combustion environment of the firebox temperature is optimized.

The present invention is not limited to the above-described embodiments and the accompanying drawings, and may be modified and applied in various ways not exemplified without departing from the technical spirit of the present invention, as well as each component. It is clear to those skilled in the art that the present invention can be broadly applied by replacing it with other equivalent embodiments. Therefore, contents related to modifying and applying the technical features of the present invention should be construed as being included within the technical idea and scope of the present invention.

100: water storage tank
200: Combustion improvement agent storage tank
300: Waste incinerator
400: Combustion improvement agent supply department
410: sprayer
500: Combustion environment prediction unit
600: Control unit

Claims (1)

A water storage tank (100) for storing water;
A combustion improvement agent storage tank (200) that stores the combustion improvement agent;
A waste incinerator 300 for internal combustion of various wastes;
A combustion improvement agent supply unit 400 that automatically supplies the water and combustion improvement agent supplied from the water storage tank 100 and the combustion improvement agent storage tank 200 to the waste incinerator 300 through the nozzle of the injector 410;
a data-based combustion environment prediction unit 500 that provides optimal data information by acquiring firebox temperature information and clinker production information of the waste incinerator 300;
A control unit 600 that determines the input amount of the combustion improvement agent based on information acquired through the combustion environment prediction unit 500 and controls the supply of the combustion improvement agent to the waste incinerator 300 through the combustion improvement agent supply unit 400. Data-based combustion improver smart automatic injection system.

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