KR102383087B1 - Method for incineration of waste - Google Patents

Abstract

The present invention relates to an incineration method for each amount of waste heat in response to steam demand, and by accumulating data on the amount of steam generated at the time of incineration of waste emitted by each waste discharge company, classifying and grouping the grade of the waste discharging company by the amount of heat generated by the waste, and by group It is characterized by efficient waste incineration by classifying wastes, bringing them into each storage warehouse, and incinerating the wastes stored in each group according to the demand for steam.

Description

Incineration method by heat quantity of waste in response to steam demand {METHOD FOR INCINERATION OF WASTE}

The present invention relates to a method of incineration by heat quantity of waste in response to steam demand, and more specifically, data on the amount of steam generated during incineration of wastes discharged by waste dischargers is accumulated, but the grades of waste discharging companies are classified and grouped by waste calorific value It relates to an incineration method for each heat quantity of waste in response to steam demand, which enables efficient waste incineration by classifying wastes by group, bringing them into each storage warehouse, and incinerating the wastes stored in each group according to the steam demand.

In general, when waste is generated, the waste discharging company registers the type and properties of the waste and stores it in the waste discharge warehouse. The waste is transported to an incineration company to be incinerated.

In the case of waste incineration as described above, a process of pyrolyzing the waste, burning the synthesis gas generated during pyrolysis, and post-treatment of the combustion gas is performed. The purpose is to reduce pollutant emissions by converting to gas fuel and improving combustion conditions, and this 'waste incineration method' is disclosed in Patent Registration No. 10-0710491 (hereinafter referred to as 'Patent Document 1'). has been posted.

Referring to Patent Document 1, the conventional 'waste incineration method' comprises the steps of: a) heating the pyrolysis furnace with preheated combustion air to indirectly heat the waste inside the pyrolysis furnace; b) when a part of the waste is thermally decomposed by the indirect heating to become a gas fuel, zinc burning the gas fuel in a zinc furnace; c) further pyrolyzing and gasifying the waste by using the thermal energy generated by the zinc oxide; and d) burning the gaseous fuel gasified by the pyrolysis in the combustion chamber, and burning the carbonized waste in the char combustion chamber.

Patent Document 1 having the above configuration is characterized in that it is configured to create an optimal combustion condition by combining the amount of air injected into the zinc chamber and the amount of air injected into the combustion chamber and reduce incomplete combustion products.

In general, there are cases where a lot of steam production is required during the operation of an incinerator, and there are cases where there is no demand for steam production, but there are cases where it has to be thrown away. There was a problem in that efficient incineration was difficult because it was impossible to incinerate by classifying wastes according to each situation.

Therefore, there is a demand for a method and means for incineration of waste in response to steam demand.

Patent Document 1: Republic of Korea Patent Publication No. 10-0710491

The present invention has been devised to solve the above problems, and an object of the present invention is to accumulate data on the amount of steam generated during incineration of wastes discharged by waste dischargers, but classify and group the grades of waste dischargers by waste calorific value, and group It is to provide an incineration method according to the amount of waste heat in response to the steam demand that enables efficient waste incineration by classifying wastes by category, bringing them into each storage warehouse, and incinerating the wastes stored in each group according to the steam demand.

In order to solve the above problems, the incineration method for each heat quantity of waste in response to the steam demand according to a preferred embodiment of the present invention is the step of accumulating data on the amount of steam generated during incineration of wastes discharged for each waste discharging company in a waste incineration company server ; classifying and grouping the grades of the waste discharging companies by the amount of heat generated by the waste in the waste incineration company server; When the waste transport company collects the waste from the waste discharging company and transports it to the waste incineration company, each of the collected wastes is brought into a plurality of warehouses designated for each group; and incinerating the waste stored in any one of the import warehouses according to the steam demand through an incinerator.

In addition, the waste incineration company server is characterized in that it is configured to identify the waste inventory status for each import warehouse, and to dispatch vehicles for waste collection mainly to the waste discharging companies corresponding to the group with insufficient waste inventory.

In addition, the waste incineration company server is configured to identify the steam demand according to the incineration schedule and, when the steam demand increases, to proceed with the dispatch for waste collection to a group of high-grade waste dischargers, and when the steam demand decreases, It is a group of low-grade waste dischargers, characterized in that it is configured to proceed with dispatch for waste collection.

In addition, in the process of collecting waste from the waste discharging company, the video information of the waste loading process by the collector terminal and the corresponding waste discharging company information are transmitted to the waste incineration company server, and the waste incineration company server is the corresponding waste It is characterized in that the carry-in warehouse designated in the group to which the discharging company belongs is transmitted to the collector terminal.

In addition, in the process of bringing waste into the warehouse through the waste transport vehicle, the video information of the waste loading process by the incinerator site manager terminal, the waste loading time information, and the current waste storage amount information of the loading warehouse are displayed as the waste. It is characterized in that it is configured to be transmitted to the incineration company server.

As described above, according to the present invention, data on the amount of steam generated during incineration of wastes discharged by waste discharging companies are accumulated, but the grades of the waste discharging companies are classified and grouped by waste calorific value. There is an advantage in that wastes can be incinerated efficiently by configuring them to incinerate the wastes stored in each group according to the demand for steam after being brought in.

In addition, there is an advantage in that it is possible to maximize the energy recovery efficiency by controlling the steam production according to the steam demand to minimize the waste steam (energy) of the waste.

In addition, the tendency to generate air pollutants generated according to the characteristics of waste combustion is different, and there is an advantage in that it is possible to minimize pollutant emission by operating the facility accordingly.

In addition, there is an advantage in that it is possible to efficiently utilize the identified data when determining the unit price of waste treatment and whether to trade by identifying the characteristics of waste by each waste-discharging company.

1 is a configuration diagram of an incineration system for each heat quantity of waste in response to steam demand according to a preferred embodiment of the present invention.
Figure 2 is a flow chart of the incineration method for each amount of waste heat in response to the steam demand according to a preferred embodiment of the present invention.
Figure 3 is an explanatory diagram showing the progress of dispatching according to the inventory status of waste by each warehouse in the method of incineration by heat amount of waste in response to steam demand according to a preferred embodiment of the present invention.
4 is an explanatory diagram showing the progress of dispatching according to the steam demand of the incineration method for each amount of waste heat corresponding to the steam demand according to the preferred embodiment of the present invention.
5 is an explanatory view showing the process from waste collection to loading in the incineration method for each amount of waste heat corresponding to the steam demand according to the preferred embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. Like reference numerals in each figure indicate like elements.

1 is a configuration diagram of an incineration system for each amount of waste heat in response to steam demand according to a preferred embodiment of the present invention, and FIG. 2 is a flowchart of a method of incineration by heat amount of waste in response to steam demand according to a preferred embodiment of the present invention.

Figure 3 is an explanatory diagram showing the dispatch progress according to the waste inventory status for each warehouse in the incineration method by heat quantity of waste in response to the steam demand according to a preferred embodiment of the present invention, Figure 4 is steam according to a preferred embodiment of the present invention It is an explanatory diagram showing the progress of dispatch according to the steam demand of the incineration method by the amount of waste heat in response to the demand, and FIG. An explanatory diagram showing the process.

First, referring to FIG. 1 , the incineration system for each heat quantity of waste in response to steam demand according to a preferred embodiment of the present invention is a waste discharging company server 100 , a waste transport company server 200 , and a waste incineration company server 300 . ), a collector terminal 400 , and a manager terminal 500 .

The waste discharging company server 100 registers waste information including types and properties of wastes when a waste discharging company generates waste, and receives price information and collection schedules for waste collection from a plurality of waste transport company servers 200 . Therefore, it is possible to select a waste transport company in consideration of price and quick collection.

The waste transport company server 200 transmits the price information and collection schedule for waste collection to the waste discharge company server 100, and according to the waste import schedule notified from the waste incineration company server 300, the waste A waste transport vehicle 10 for transporting the registered waste from the discharger server 100 to the incineration company is assigned.

The waste incineration company server 300 notifies the waste delivery schedule to the waste transport company server 200, and receives a video recording the process of loading, transporting, and disembarking waste from the collector terminal 400 that collects waste. As such, in the present invention, the waste incineration company server 300 accumulates data on the amount of steam generated at the time of incineration of waste discharged for each waste discharging company, but classifies and groups the waste discharging company by waste calorific value, Efficient waste incineration is possible by classifying wastes by group, bringing them into each storage warehouse, and then incinerating the wastes stored in each group according to steam demand.

The collector terminal 400 is a terminal possessed by a collector who collects waste, and records a series of processes from the process of collecting waste discharged from the waste discharging company to the discharging of the waste to the waste incinerator server, ), which is configured to photograph the waste loading process in the process of collecting the waste discharged from the waste discharging company and transmit it to the waste incineration company server 300, and transport the waste loaded on the waste transport vehicle to the waste incineration company It is configured to film the process of taking a picture and transmit it to the waste incineration company server 300, and film the process of the waste transport vehicle arriving at the waste incineration company and disembarking the waste loaded on the waste transport vehicle to the waste incineration company server 300 configured to transmit.

The manager terminal 500 is located at the site of a waste incineration company and is a terminal possessed by a manager who manages the process of bringing waste into the warehouse through a waste transport vehicle. In the process, the process of bringing in the waste is photographed, and information on the time of bringing in the waste and information on the current amount of waste stored in the corresponding warehouse is transmitted to the waste incineration company server 300 .

Hereinafter, with reference to FIGS. 1 to 5, an incineration method for each heat quantity of waste in response to steam demand according to a preferred embodiment of the present invention will be described.

First, data on the amount of steam generated during incineration of wastes emitted by each waste company is accumulated (S100) in the waste incineration company server 300, and in the waste incineration company server 300, based on the accumulated data, the waste discharging company for each waste calorific value Classify the grades and group them (S200).

Next, when the waste transport company collects the waste from the waste discharging company and transports it to the waste incineration company, the collected waste is brought in (S300) to a plurality of warehouses designated for each group divided into groups, at this time, as shown in FIG. As shown, in the process of the collector collecting waste from the waste discharging company, the video information of the waste loading process by the collector terminal 400 and the corresponding waste discharging company information are transmitted to the waste incineration company server 300 (S700) ), and the waste incineration company server 300 transmits (S710) the carry-in warehouse designated to the group to which the waste-discharging company belongs to the collector terminal 400, so that the collected waste is brought into the corresponding carry-in warehouse (S720). will lose

On the other hand, in the process of bringing waste into the warehouse through the waste transport vehicle, video information of the waste transport process by the incinerator site manager terminal 500, waste transport time information, and current waste storage amount information of the warehouse It is preferable to be configured to transmit (S730) to the waste incineration company server 300.

Finally, according to the demand for steam, the waste stored in any one of the import warehouses is incinerated (S400) through an incinerator. As shown in FIG. 3, the waste incineration company server 300 is each If the waste inventory status of each warehouse is identified (S500) and the waste inventory of a specific warehouse is insufficient (S510), the dispatch for waste collection is carried out mainly by the waste emitting companies corresponding to the group with insufficient waste inventory (S520). can do.

On the other hand, as shown in Fig. 4, the waste incineration company server 300 is characterized in that it is configured to grasp the steam demand according to the incineration schedule (S600), check whether the steam demand increases (S610), and the steam demand If is increased, it is configured to proceed with the dispatch for waste collection to a group of high-grade waste dischargers (S620). It is configured to proceed (S630).

As described above, the present invention accumulates data on the amount of steam generated during incineration of wastes discharged by waste dischargers, classifies and groups the grades of waste dischargers by waste calorific value, and classifies wastes by group and carries them into each storage warehouse Efficient waste incineration is possible by configuring to incinerate the wastes stored in each group according to the steam demand.

Best embodiments have been disclosed in the drawings and specification. Although specific terms are used herein, they are used only for the purpose of describing the present invention, and are not used to limit the meaning or scope of the present invention described in the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: waste discharging company server 200: waste transport company server
300: waste incineration company server 400: collector terminal
500: administrator terminal

Claims (5)

accumulating data on the amount of steam generated during incineration of wastes discharged for each waste discharging company in a waste incineration company server;
classifying and grouping the grades of the waste discharging companies by the amount of heat generated by the waste in the waste incineration company server;
When the waste transport company collects the waste from the waste discharging company and transports it to the waste incineration company, each of the collected wastes is brought into a plurality of warehouses designated for each group; and
Incinerating the waste stored in any one of the import warehouses according to the steam demand through an incinerator;
The waste incineration company server is configured to identify the waste inventory status for each incoming warehouse and dispatch trains for waste collection mainly to the waste discharging companies corresponding to the group with insufficient waste inventory,
The waste incinerator server is configured to identify the steam demand according to the incineration schedule and, when the steam demand increases, to a group of high-grade waste dischargers for waste collection, and when the steam demand decreases, the grade Incineration method by heat quantity of waste in response to steam demand, characterized in that it is configured to proceed with the dispatch for waste collection to a group of low waste dischargers.
delete delete The method according to claim 1,
In the process of collecting waste from the waste discharging company, the video information of the waste loading process by the collector terminal and the corresponding waste discharging company information are transmitted to the waste incineration company server, and the waste incineration company server is the corresponding waste discharging company An incineration method for each heat quantity of waste in response to steam demand, characterized in that it transmits a warehouse designated for a group to which the group belongs to the collector terminal.
The method according to claim 1,
In the process of bringing waste into the warehouse through a waste transport vehicle, the video information of the waste loading process by the incinerator site manager terminal, the waste loading time information, and the current waste storage amount information of the loading warehouse are displayed at the waste incineration company. Incineration method by heat quantity of waste in response to steam demand, characterized in that it is configured to be transmitted to the server.

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