KR20160129352A - The Ship - Google Patents

Abstract

The present invention relates to a ship. According to the present invention, <a computing module which can acquire a discharge amount of a purified harmful substance passing through a harmful substance reducing machine (i.e. a harmful substance included in exhaust gas purified by passing through the harmful substance reducing machine) by communicating with a harmful substance sensor attached to the rear of the harmful substance reducing machine>, <a computing module which can induce the amount of a reducing agent supplied to the harmful substance reducing machine to be increased by transmitting a message for requesting an increase in the reducing agent to the harmful substance reducing machine if determined that a discharge amount of the acquired purified harmful substance exceeds a preset reference amount of a purified harmful substance by comparing the dischage amount of the purified harmful substance with information about prestored purified harmful substance reference amount>, etc. are systematically disposed and provided in a communication system of the harmful substtance reducing machine, thereby being capable of providing guidance to easily resolve a decrease in harmful substance purification efficiency of the harmful substance reducing machine due to degradation of catalyst efficiency of an SCR catalyst by inceasing an injection amount of a reducing agent without frequent replacement of the SCR catalyst at a main agent side of ship operation.

Description

Ship {The Ship}

The present invention relates to a ship, and more particularly, to a communication system of a harmful substance abatement device in communication with a hazardous substance detection sensor attached to the rear end of a harmful substance abatement device, A computation module capable of acquiring the emission amount of the toxic substance contained in the exhaust gas purified through the harmful substance abatement device), < a calculation module for calculating the amount of the purified harmful substance, When it is determined that the amount of the purified harmful substance exceeds the predetermined amount of the purified harmful substance, a message requesting the increase of the reducing agent is sent to the harmful substance abatement device, and the amount of the reducing agent supplied to the harmful substance abatement device And a computation module that can lead to an increase in the amount of the SCR. The not frequently replace the hagoseodo, via increased injection amount of the reducing agent, to a to guide ships to easily fix the hazardous material removal efficiency decrease problem of harmful substances device due to the catalyst decreased efficiency of the SCR catalyst.

Recently, regulations on harmful substances emitted from vessels such as nitrogen oxides (NO _x ) have been further strengthened (for reference, in Tier III, which takes effect in 2016, nitrogen oxide emissions are reduced to 3.4 g / KW or less ), Various kinds of harmful substance abatement devices for marine use have been widely developed / distributed using technologies such as Selective Catalyst Reduction (SCR), for example.

For example, Korean Patent Laid-Open No. 10-2010-132310 (titled SCR system for ship using urea powder and nitrogen oxide reduction method) (Published Dec. 17, 2010), Korean Patent Laid-Open No. 10-2003-127737 Title: Apparatus for preventing clogging of SCR apparatus using waste heat of ship) Korean Patent Laid-Open No. 10-2014-46651 (Name: Degeneration apparatus of large-sized engines for ships) (2014.4.21. ) Discloses in more detail the detailed structure of a harmful substance abatement device for a ship according to such a conventional technique.

1, the harmful substance abatement device 10 according to the prior art, for example, the nitrogen oxide abatement device, has an exhaust gas distribution line 12 drawn out from the engine 11 side, A reducing agent storage tank 21 for storing a reducing agent (for example, urea) for reducing a substance such as nitrogen oxides (NO _x ), and a reducing agent storage tank 21 connected to the reducing agent storage tank 21, A reducing agent injector 20 for injecting a reducing agent (for example, urea) stored in the storage tank 21; a compression device for supplying compressed air to the reducing agent injector 20 so as to smoothly perform a series of reducing agent injection functions; A controller 23 for controlling the compressed air supply valve 24 on the basis of measured values output from the sensor 19 side and adjusting the amount of reducing agent injected by the reducing agent injector 20, (11) through the gas distribution line (12) As the results, by passing the exhaust gas and the reducing agent together, it is to take a configuration in which SCR reactor 13 for purifying the harmful substances contained in exhaust gas (e.g., nitrogen oxide (NO _x)) in combination of the systematic.

At this time, the SCR reactor 13 is a SCR catalyst that reacts nitrogen oxides (NO _x ) with a reducing agent while simultaneously passing exhaust gas and a reducing agent, and reduces the nitrogen oxides (NO _x ) (18) and an SCR chamber (17) for accommodating the SCR catalyst (18).

On the other hand, under such a conventional system, the SCR catalyst 18 included in the SCR reactor 13 gradually decreases its catalytic efficiency as the use time of the harmful substance abatement device 10 increases, The deterioration efficiency of the harmful substances in the harmful substance reduction device 10 is also gradually decreased according to the decrease of the catalytic efficiency of the harmful substance reduction device 13.

Of course, under this circumstance, if the SCR catalyst 13 is newly replaced, the harmful substance cleaning efficiency of the entire harmful material of the harmful material abatement device 10 can be normally restored. However, the replacement of the large SCR catalyst 13, As a result, it is possible to prevent the harmful substance of the harmful substance abatement device 10 from being deteriorated due to the deterioration of the catalytic efficiency of the SCR catalyst 13, as long as no special measures are taken, because it requires a lot of manpower, cost and furthermore, There is a great difficulty in solving the problem of reduction in the material purification efficiency.

Korean Patent Laid-Open No. 10-2010-132310 (name: SCR system for ship using urea powder and nitrogen oxides abatement method) (Dec. 17, 2010) Korean Patent Laid-Open No. 10-2003-127737 (Name: Apparatus for preventing clogging of SCR apparatus using waste heat of a ship) Korean Patent Laid-Open No. 10-2014-46651 (Name: Denitration Apparatus for Large Marine Engines) (Published on April 21, 2014)

Accordingly, it is an object of the present invention to provide a communication system of a harmful substance abatement device, which is capable of communicating with a hazardous substance detection sensor attached to the rear end of the harmful substance abatement device in the communication system of the harmful substance abatement device, A computer module capable of acquiring the emission amount of the toxic substance contained in the exhaust gas purified through the device), < a calculation module for comparing the emission amount of the obtained purified harmful substance with the stored amount information of the hazardous substance, When it is judged that the amount of toxic substances emitted exceeds the prescribed amount of the toxic substances, the amount of the reducing agent supplied to the toxic substance abatement device may be increased by transmitting a message requesting the increase of the reducing agent to the harmful substance abatement device The SCR catalyst is not frequently replaced at the ship operator's side. In addition, through the increase of the injection amount of the reducing agent, it is guided to easily solve the problem of reduction of the harmful substance purification efficiency of the harmful material abatement device due to the decrease of catalytic efficiency of the SCR catalyst.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to an aspect of the present invention, An engine for propelling the hull; A harmful material abatement device for reducing harmful substances contained in the exhaust gas discharged from the engine; And a reducing agent addition and supply inducing device for additionally supplying a reducing agent to the harmful material abatement device in accordance with the amount of the purified harmful substance that has passed through the harmful material abatement device.

In the present invention, the communication system of the hazardous material abatement device communicates with the hazardous material detection sensor attached to the rear end of the hazardous material abatement device to detect the presence of the hazardous material passing through the harmful material abatement device A computer module capable of acquiring the emission amount of the toxic substance contained in the purified exhaust gas), < a computation module capable of comparing the emission amount of the purified harmful substance, which has been acquired, with the stored amount information of the hazardous substance, If it is judged that the amount of the toxic substance exceeds the reference amount of the toxic substance, it is sent to the harmful substance abatement device to increase the amount of the reducing agent supplied to the harmful substance abatement device The SCR catalyst can be installed on the ship operator side under the implementation environment of the present invention, It does not replace hagoseodo, via increased injection amount of the reducing agent, it is possible to easily fix the hazardous material removal efficiency decrease problem of harmful substances due to the catalyst unit, decreased efficiency of the SCR catalyst.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary view conceptually showing a harmful substance reduction device according to a conventional technique; FIG.
FIG. 2 is an exemplary view conceptually showing a detailed configuration of a ship according to the present invention; FIG.
FIG. 3 is an exemplary view conceptually showing a detailed configuration of a reducing agent addition supply device according to the present invention; FIG.
FIG. 4 is an exemplary view conceptually illustrating a detailed function execution procedure of the reducing agent addition supply device according to the present invention; FIG.

Hereinafter, a ship according to the present invention will be described in more detail with reference to the accompanying drawings.

2, the ship 300 according to the present invention includes a hull 300a, an engine 303 for propelling the hull 300a, And harmful material abatement devices 100 for reducing harmful substances included in the exhaust gas discharged from the engine 303 are systematically combined.

Reduction in this case, the harmful substances device 100, e.g., a nitrogen oxide reduction device is an exhaust gas flow line 112 and, hazardous materials drawn out from the engine 303 side, for example, nitrogen oxides (NO _x) A reducing agent storage tank 121 for storing a reducing agent (e.g., urea) for the reducing agent storage tank 121 and a reducing agent storage tank 121 connected to the reducing agent storage tank 121, A compressed air supply 122 for supplying compressed air to the reductant injector 120 so as to smoothly perform a series of reducing agent injection functions, A controller 123 for controlling the compressed air supply valve 124 on the basis of the measured value output from the exhaust gas circulation line 112 and regulating the amount of the reducing agent injected by the reducing agent injector 120, The exhaust gas and the reducing agent And the SCR reactor 113 for purifying the harmful substances contained in the exhaust gas (for example, nitrogen oxides (NO _x )) are passed through together to be structured in a systematic combination.

At this time, the SCR reactor 113 is a SCR catalyst that reacts nitrogen oxides (NO _x ) with a reducing agent while simultaneously passing exhaust gas and a reducing agent, and reduces the nitrogen oxides (NO _x ) And a SCR chamber 117 for accommodating the SCR catalyst 118 are combined.

Also, under the system of the present invention, the SCR catalyst 118 included in the SCR reactor 113 gradually decreases its catalytic efficiency as the use time of the harmful substance abatement device 100 increases, The efficiency of cleaning the harmful material 100 of the harmful material reduction device 100 is also gradually decreased due to the decrease of the catalytic efficiency of the SCR catalyst 113.

Of course, under this circumstance, if the SCR catalyst 113 is newly replaced, the harmful substance cleaning efficiency of the harmful material reduction apparatus 100 can be normally restored. However, the replacement of the large SCR catalyst 113, As a result, it is necessary for the operator of the ship to carry out the harmful deterioration of the harmful material abatement device 10 due to the deterioration of the catalytic efficiency of the SCR catalyst 113 There is a great difficulty in solving the problem of reduction in the material purification efficiency.

As shown in FIG. 2, in the present invention, in the communication system such as the harmful substance abatement device 100, the cleaning harmful substance (that is, the harmful substance A reducing agent addition and supply inducing device 500 capable of inducing the reducing agent to be additionally supplied to the harmful substance abatement device 100 according to the amount of the harmful substance contained in the exhaust gas purified through the abatement device) I will take measures.

In this case, the reducing agent addition supply device 500 of the present invention may be structured to be subordinate to the program block of the controller 123 side of the harmful substance abatement device 100, depending on the situation.

3, the reducing agent addition supply device 500 according to the present invention is connected to the controller 123 of the harmful material abatement device 100, the harmful substance abatement device 100, An operation information storage module 502 for communicating with the hazardous material detection sensor 130 attached to the rear end of the SCR chamber 117 of the apparatus 100, a purification toxic substance discharge amount acquisition module 503, a reducing agent addition and supply induction module 504, , The reducing agent injection target amount update induction module 505, and the like are closely combined.

Here, the operation information storage module 502 may store various operation information necessary for the reductant addition and supply service in its information storage area, for example, registration information of the controller 123 of the harmful substance abatement device 100, The reference amount information of the reducing agent addition supply standard information, the program component information necessary for performing the functions of the respective computation modules, the communication session connection of each computation module, / Program component information for maintenance / maintenance of the harmful substance reduction device according to the present invention, so that the series of harmful substance reduction device preheating process according to the present invention can be normally performed without any problem.

4, a hazardous substance detection sensor 130 attached to the rear end of the SCR chamber 117 of the harmful material abatement device 100 is provided at the cleanup toxicant emission amount acquisition module 503 side, (A harmful substance contained in the exhaust gas purified through the harmful substance abatement device 100) from the toxic substance detection sensor 130 side while communicating with the harmful substance detection device 100 do.

In this way, when the emission amount of the cleaning harmful substance (the harmful substance contained in the exhaust gas purified through the harmful material abatement device 100) is obtained, the reducing agent addition supply induction module 504 side acquires the purification harmful substance emission amount acquisition module 503 to read out the amount of the purified harmful substances and communicate with the operational information storage module 502 to extract the amount information of the purified hazardous substances stored in the information storage area thereof (See FIG. 4).

When the amount of the purified harmful substances, the quantity of the purified harmful substances, and the like is read / extracted through the above-described procedure, the reducing agent addition supply module 504 proceeds to a series of information comparison routines, The amount of the hazardous substances contained in the exhaust gas passed through the harmful substance abatement device 100 is judged as exceeding the amount of the predetermined amount of the hazardous harmful substances (See FIG. 4).

In this case, when it is determined that the amount of the purified harmful substances contained in the exhaust gas that has passed through the harmful material abatement device 100 exceeds the preset amount of the hazardous harmful substance, the reductant additional supply induction module 504 side The information is stored in the information storage module 502, and the information is stored in the information storage module 502. Then, a series of information generation routines are executed based on the information, (See FIG. 4). The reductant increase request message includes a description that the condition is to increase by FF.

Through the above-described procedure, when the reductant increase request message containing the description that the amount of the reducing agent is increased by FF by AA condition is generated, the reducing agent addition supply induction module 504 transmits, via the interface module 501, The control unit 123 communicates with the harmful material abatement device 100 side controller 123 and transmits the generated reductant increase request message to the harmful substance abatement device 100 controller 123 (see FIG. 4).

Of course, through the above-described procedure, when the reductant increase request message containing the description that the amount of the reducing agent is increased by FF by AA condition is received / received, the controller 123 reads the reducing agent increase request message, A procedure of controlling the compressed air supply valve 124 and increasing the amount of the reducing agent injected by the reducing agent injector 120 is executed in accordance with the details of the situation. As a result, the catalyst efficiency of the SCR catalyst 113 is reduced The exhaust gas and harmful substances discharged from the engine 303 can undergo further deactivation procedures due to the increased reducing agent, and as a result, the harmful substances (which pass through the harmful substance abatement device 100 The amount of harmful substances included in the purified exhaust gas) can be greatly reduced.

As described above, in the present invention, the hazardous material abatement device 100 is communicated with the hazardous material detection sensor 130 attached to the rear end of the hazardous material abatement device 100 in the communication system of the harmful material abatement device 100, A computation module capable of acquiring the amount of the discharged toxic substances (ie, the toxic substances contained in the exhaust gas purified through the harmful substance abatement device); and <the amount of purified harmful substances When it is determined that the amount of the toxic substance to be cleaned exceeds the amount of the predetermined amount of the toxic substance, the request message is sent to the harmful substance abatement device 100, A computer module capable of guiding the amount of the reducing agent supplied to the harmful material abatement device to increase, and the like are provided systematically. Therefore, in the implementation environment of the present invention, It is possible to reduce the harmful substance purification efficiency of the harmful material abatement device 100 due to the lowering of the catalytic efficiency of the SCR catalyst 113 by increasing the injection amount of the reducing agent without frequently replacing the SCR catalyst 113 frequently The problem can be easily solved.

Meanwhile, as shown in FIG. 3, the reducing agent injection target amount update induction module 505 is additionally disposed in addition to the above-described respective computation modules in the reducing agent addition supply induction apparatus according to the present invention.

In this case, the reducing agent injection target amount update induction module 505 communicates with the reducing agent addition supply induction module 504, as shown in FIG. 4, It is checked whether the amount of the pollutant emission exceeds the predetermined amount of the pollutant.

At this time, when it is determined that the amount of the purified harmful substance contained in the exhaust gas that has passed through the harmful material abatement device 100 exceeds the predetermined amount of the purified harmful substance, the reductant injection target amount update module 505 side Immediately thereafter, the reducing agent increase request message generated by the reducing agent addition supply induction module 504 is read, and then a series of information generation routines are advanced to increase the predetermined reductant injection target amount by KK in the SS condition. A procedure for generating a reductant injection target amount update request message containing the details of the reductant injection target amount update request message (see FIG. 4) is performed.

Through the above procedure, when the reductant injection target amount update request message containing the description that the preset reductant injection target amount is increased by KK by the SS condition is generated, the reductant injection target amount update induction module 505, A procedure for communicating with the controller 123 of the harmful material abatement device 100 via the control unit 501 and transmitting the generated reductant injection target amount update request message to the harmful substance abatement device 100 controller 123 (See FIG. 4).

Of course, through the above-described procedure, when the reductant injection target amount update request message containing the description that the preset reductant injection target amount is increased by KK by the SS condition is received / received, the controller 123 determines that the reductant injection target amount The target amount of the reducing agent injection target is newly updated according to the details of the update request message and thereafter the toxic substance reduction device 100 side can update the reductant injection target amount The exhaust gas and the harmful substances discharged from the engine 303 can be appropriately purified even under the situation where the catalytic efficiency of the SCR catalyst 113 is reduced while the amount of injected gas is increased.

The present invention exhibits a generally useful effect in various fields where purification of harmful substances is required.

Although specific embodiments of the present invention have been described and illustrated above, it is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof.

Such modified embodiments should not be understood individually from the technical idea and viewpoint of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

100: Hazardous substance abatement equipment
300: Ship
300a: Hull
303: Engine
500: Reducing agent addition supply device
501: Interface module
502: Operational information storage module
503: Cleanup Hazardous Material Emission Acquisition Module
504: Redundant additional supply induction module
505: Reducing agent injection target update induction module

Claims (3)

A hull;
An engine for propelling the hull;
A harmful material abatement device for reducing harmful substances contained in the exhaust gas discharged from the engine;
And a reducing agent addition and supply inducing device for additionally supplying a reducing agent to the harmful material abatement device in accordance with the amount of the purified harmful substance that has passed through the harmful material abatement device. The apparatus according to claim 1, wherein the reducing agent addition supply device communicates with a hazardous material detection sensor attached to a rear end of the harmful material abatement device to detect the amount of the hazardous material that has passed through the harmful material abatement device, An emission acquisition module;
If it is determined that the amount of the purified harmful substance is greater than the predetermined amount of the purified harmful substance, the amount of the purified harmful substance is compared with the amount of the stored amount of the purified harmful substance, And a reducing agent addition supply induction module for sending a reducing agent increase request message to the toxic substance abatement device so as to increase the amount of the reducing agent supplied to the harmful substance abatement device. 3. The method according to claim 2, wherein, when the reducing agent addition supply device communicates with the reducing agent addition supply induction module and it is determined that the amount of the cleaning harmful substance exceeds the reference amount of the predetermined cleaning harmful substance, Further comprising a reductant injection target amount update inducing module in communication with the abatement device to induce the reductant injection target amount set in the harmful substance abatement device to be updated to a value corresponding to the reductant increase request message, .

Images