KR20200060932A - Monitoring system for lng bunkering - Google Patents

Abstract

Disclosed is an LNG bunkering monitoring system capable of pre-detecting a hazard during LNG bunkering work and identifying a cause for the occurrence of the hazard while planning a measure at the same time. The LNG bunkering monitoring system includes: an environment sensor module sensing the temperature, humidity, wind direction, wind velocity, image and position of a surrounding environment of a worker, to which the worker is sent for LNG bunkering work, such as an LNG storage tank or vessel receiving LNG fuel; an LNG detection sensor module installed in the vessel receiving LNG fuel, the LNG storage tank, an LNG supply tank and an LNG pipe facility to sense a flow rate, pressure and electric resistance; a data server part connected to the environment sensor module and the LNG detection sensor module to receive and store surrounding environment data and LNG detection data sensed by the environment sensor module and the LNG detection sensor module while comparing the data with pre-stored reference data to calculate the position of the environment sensor module or LNG detection sensor module which is less than a set reference value or more than the set reference value; and a control part receiving the position of the environment sensor module or LNG detection sensor module, which is less than the set reference value or more than the set reference value, from the data server part to stop the operation of the LNG pipe facility in which the environment sensor module or LNG detection sensor module is located while generating a danger signal.

Description

LNG bunkering monitoring system {MONITORING SYSTEM FOR LNG BUNKERING}

This study was the result of the research conducted by the Ministry of Trade, Industry and Energy and the Korea Institute for Industrial Technology Promotion as a project for fostering economic (wide-area) cooperation industries. Advancement of Technology (KIAT) through the Encouragement Program for The Industries of Economic Cooperation Region. Matters related to this study are as follows.

Project Name: Project Name: Encouragement Program for The Industries of Economic Cooperation Region

Assignment No.: P0004703

The present invention relates to an LNG bunkering monitoring system, and more particularly, to a monitoring system for enhancing safety of an LNG bunkering operation.

Generally, LNG bunkering refers to an act of supplying LNG fuel to a ship, and there are pipe to ship, truck to ship, and ship to ship methods for LNG bunkering.

The Pipe to Ship method is a fixed method of supplying LNG fuel to ships through piping on the land, and there are large fixed type with a small capacity to supply LNG fuel of 30~5Km ³ and fixed type with a large capacity to supply 130Km ³ or more, and the Truck to Ship is a mobile method of supplying LNG fuel to ships by using tank lorry on land. It is a method of supplying LNG fuel to ships less than 30 m ³ , and 2K~5K LNG to other ships through ships at the Ship to Ship sea. It is a way to supply fuel.

The scale of life damage and facility damage caused by gas leakage or secondary explosion resulting from the LNG bunkering process is very large compared to general fire accidents. Not only do they have it, most LNG accidents have left the problem of facilities and are lacking in operation and management, which is the decisive factor in the accident.

In other words, in the case of LNG, various aspects for safety must be considered due to the material characteristics stored and transported in an ultra-low temperature of -165℃, and the storage facility is reduced because the volume is reduced by more than 600 while maintaining the sub-zero temperature for the convenience of storage and transportation. The problem of not only can lead to a huge amount of gas leakage as a result, but also has a problem that the risk of accidents is very high because there is a high possibility of secondary accidents such as fire and explosion accidents due to gas leakage.

Accordingly, strict safety standards and design standards are applied to LNG bunkering of ships, and 2-3 safety devices for accidents are required, and even if safety devices are provided, one negligence can lead to a major accident. There is a problem.

Therefore, there is a need to develop a system that can monitor the working environment to predict and prevent various safety accidents in advance by enhancing the safety of the working environment in advance and monitoring the bunkering work process in real time.

Republic of Korea Patent Publication No. 10-2018-0026044 (2018.03.12.)

It is an object of the present invention to provide an LNG bunkering monitoring system capable of detecting a risk in advance during LNG bunkering work and identifying a cause for the occurrence of the risk and preparing a countermeasure.

Other detailed objects of the present invention will be clearly understood and understood by experts or researchers in this technical field through specific contents described below.

The present invention is an environmental sensor module capable of detecting the temperature, humidity, wind direction, wind speed, image, location of the worker's surrounding environment where the worker is input during LNG bunkering, such as a ship receiving LNG fuel or an LNG storage tank, and the LNG The LNG detection sensor module installed in a vessel receiving fuel, an LNG storage tank, an LNG supply tank, and an LNG pipe facility to detect flow rate, pressure, and electrical resistance, and the environmental sensor connected to the environmental sensor module and the LNG detection sensor module The environmental sensor module or LNG that is below the set reference value or exceeds the set reference value compared to the pre-stored reference data while receiving and storing the surrounding environment data and the LNG detection data detected by the module and the LNG detection sensor module. Data server unit that calculates the position of the detection sensor module, and receives a location of an environmental sensor module or an LNG detection sensor module that is less than or exceeds a set reference value set from the data server unit, and is less than a set reference value It proposes an LNG bunkering monitoring system including a control unit that stops the operation of an LNG pipe facility in which an environmental sensor module or an LNG detection sensor module is located or exceeds a set reference value and generates a danger signal.

In addition, the present invention receives the environment data and LNG detection data from the operator around the data server unit, the central monitoring that receives and displays the location of the LNG pipe facility and the operation of the LNG pipe facility from the control unit It may further include wealth.

In addition, the present invention receives the environment data and LNG detection data from the operator around the data server unit, and the control unit can receive and display the location of the LNG pipe facility where the abnormality occurred and whether the LNG pipe facility is operating. It may further include a user terminal.

As described above, the LNG bunkering monitoring system according to an embodiment of the present invention includes an environment data around an operator input of an LNG bunkering operation, a ship receiving LNG fuel, an LNG storage tank, an LNG supply tank, and an LNG pipe facility. By detecting the LNG detection data and comparing it with pre-stored reference data, it is possible to detect in advance the risk factors of the environment around the worker and the risk factors of the ship receiving LNG fuel, the LNG storage tank, the LNG supply tank, and the LNG pipe facility. .

As described above, the LNG bunkering monitoring system according to an embodiment of the present invention detects the risk factors of the environment surrounding the worker and the ship receiving the LNG fuel, the LNG storage tank, the LNG supply tank, and the LNG pipe facility in advance. When it occurs, the control unit can automatically stop the operation of the LNG pipe facility at the location where the hazard occurred.

Therefore, the LNG bunkering monitoring system according to an embodiment of the present invention can prevent gas leakage accidents, fires, and secondary explosion accidents that may occur during LNG bunkering operations, which have a great damage to humans and facilities compared to general accidents. Therefore, there is an effect that can significantly improve the safety and reliability of the working environment.

In addition, the LNG bunkering monitoring system according to an embodiment of the present invention can quickly identify which risk factors have occurred even when only an alarm sound is heard by an administrator by setting alarm sounds differently according to various risk factors when a risk factor occurs. Therefore, it is possible to significantly and rapidly respond to risk factors, thereby significantly improving customer satisfaction and reliability.

Other effects of the present invention will be clearly understood and understood by experts or researchers in this technical field through specific contents described below or during the process of carrying out the present invention.

1 is a schematic diagram for explaining an LNG bunkering monitoring system according to an embodiment of the present invention
Figure 2 is a flow chart for explaining the process of operating the LNG bunkering monitoring system according to an embodiment of the present invention

The present invention can be applied to various changes and may have various forms, and specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific disclosure form, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from other components. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, terms such as “include” or “have” are intended to indicate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, or one or more other features or It should be understood that the existence or addition possibilities of numbers, steps, actions, components, parts or combinations thereof are not excluded in advance.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains.

Terms such as those defined in a commonly used dictionary should be interpreted as having meanings consistent with meanings in the context of related technologies, and should not be interpreted as ideal or excessively formal meanings unless explicitly defined in the present application. Does not.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is a schematic diagram for explaining an LNG bunkering monitoring system according to an embodiment of the present invention.

Referring to FIG. 1, the LNG bunkering monitoring system 100 according to an embodiment of the present invention includes an environmental sensor module 110, an LNG detection sensor module 120, a data server unit 130, and a control unit 140. It can contain.

The environmental sensor module 110 may detect the temperature, humidity, wind direction, wind speed, image, and location of the environment around which the worker is input during an LNG bunkering operation, such as a ship receiving LNG fuel or an LNG storage tank.

For example, the environmental sensor module 110 may include a temperature sensor, a humidity sensor, a wind direction and wind speed sensor, an image acquisition camera, and GPS.

The temperature sensor, humidity sensor, wind direction and wind speed sensor, image acquisition camera, and GPS of the environment sensor module 110 are used for LNG bunkering, such as ships receiving LNG fuel or LNG storage tanks. The temperature, humidity, wind direction and wind speed, image, and location can be detected and transmitted to the data server unit 130.

Here, the environmental sensor module 110 including the temperature sensor, humidity sensor, wind direction and wind speed sensor, image acquisition camera, and GPS may be connected to the data server unit 130 through wired/wireless communication.

For example, for wired/wireless communication connecting the environmental sensor module 110 and the data server unit 130, a ship with high communication reliability to safely transmit data sensed by the environmental sensor module 110. And it is preferable to use an embedded wired/wireless communication module including two types of wires such as RS485 and LAN (802.3BZ_2.5G+5G) used in land plants and one type of WLAN (802.11ac standard) based wireless. .

The LNG detection sensor module 120 is installed in a ship receiving the LNG fuel, an LNG storage tank, an LNG supply tank, an LNG pipe facility, an LNG tank, an LNG storage tank, an LNG supply tank of a ship receiving the LNG fuel, It can detect the flow rate, pressure, and electrical resistance of LNG pipe plants.

For example, the LNG detection sensor module 120 is a flow meter, a digital pressure gauge for acquiring internal element data of an LNG pipe such as flow rate, pressure, temperature, concentration of LNG fuel inside the LNG pipe, and whether the LNG pipe is cracked. It may include a digital strain gauge for obtaining external element data such as.

Here, the LNG detection sensor module 120 such as the flow meter, digital pressure gauge, and digital strain gauge may be connected to the data server unit 130 through wired/wireless communication.

For example, for wired/wireless communication connecting the LNG detection sensor module 120 and the data server unit 130, communication reliability is used to safely transmit data detected by the LNG detection sensor module 120. It is recommended to use an embedded wired/wireless communication module that includes two wired types such as RS485 and LAN (802.3BZ_2.5G+5G) used in high ship and land plants, and one wireless type based on WLAN (802.11ac). desirable.

In the case of the LNG bunkering operation, the LNG bunkering monitoring system 100 according to an embodiment of the present invention is performed by performing the operation in an environment in which an accident, such as an explosion or fire, such as an LNG tank, an LNG pipe, and a connector connection site is high. The environmental sensor module 110 and the LNG detection sensor module 120 are connected to the data server unit 130 through two or more types of communication methods, such as two types of wired and one wireless, to detect the environmental sensor module 110 and LNG. The data detected by the sensor module 120 can be safely transmitted to the data server unit 130.

The data server unit 130 may be connected to the environmental sensor module 110 and the LNG detection sensor module 120 through two or more wired/wireless communication.

As described above, the data server unit 130 connected to the environmental sensor module 110 and the LNG detection sensor module 120 through wired/wireless communication is detected from the environmental sensor module 110 and the LNG detection sensor module 120. It is possible to receive and store environment data and LNG detection data around workers.

Meanwhile, in the data server unit 130, environmental reference data and LNG detection reference data around the operator are pre-stored, and accordingly, wire/wireless communication is detected by the environmental sensor module 110 and the LNG detection sensor module 120. If the comparison value is less than the set reference value or exceeds the set reference value by comparing the operator's surrounding environment data and the LNG detection data transmitted through the pre-stored surrounding environment reference data and LNG detection reference data, the set reference value The position of the environmental sensor module 110 or the LNG detection sensor module 120 that is less than or exceeds the set reference value is calculated.

For example, when the data server unit 130 determines that the temperature of the LNG pipeline detected from the temperature sensor of the environmental sensor module 110 has rapidly decreased compared to the pre-stored ambient environment reference data or , When it is determined that the humidity is rapidly lowered by the humidity sensor, when a flame is detected by the image acquisition camera, the abnormal signal is transmitted to the controller 140 and the temperature and humidity detected by the GPS are rapidly lowered. The location information of the sensor or humidity sensor or the location information of the image acquisition camera where the flame is detected is transmitted to the control unit 140.

In addition, the data server unit 130 when it is determined that the flow rate of the LNG pipe sensed by the flow meter is rapidly increased/decreased compared to the pre-stored LNG detection data, or the pressure sensed by the digital pressure gauge is rapidly increased. When it is determined that the increase, when the electrical resistance detected by the digital strain gauge increases rapidly, the abnormality signal is transmitted to the control unit 140 and the flow rate detected by the GPS of the environmental sensor module 110 is increased. The position information of the suddenly increased/decreased flow meter or the position information of the digital pressure gauge or digital strain gauge in which pressure or electric resistance is rapidly increased is transmitted to the control unit 140.

Here, the data server unit 130 detects the location transmitted from the GPS included in the environmental sensor module 110, the environmental sensor module 110 or LNG that is below a set reference value or exceeds a set reference value The position of the detection sensor module 120 is calculated.

The control unit 140 receives the location of the environment sensor module 110 or the LNG detection sensor module 120 that is less than or exceeds the set reference value from the data server unit 130, and the set reference At the same time, the operation of the LNG pipe facility in which the environmental sensor module 110 or the LNG detection sensor module 120 in which the value is less than or exceeds the set reference value is located may be stopped and a danger signal may be generated.

Here, it is preferable that the control unit 140 generates a danger signal as a sound signal, such as an alarm. When using an alarm as a danger signal, situations such as temperature change, humidity change, pressure change, flow rate change, and electrical resistance change By varying the alarm signal according to the administrator, it is possible for the administrator to easily recognize what kind of dangerous situation has occurred even by hearing the alarm sound.

In addition, the LNG bunkering monitoring system 100 according to an embodiment of the present invention may further include a central monitoring unit 150.

The central monitoring unit 150 receives environmental data and LNG detection data around the operator from the data server unit 130, and the location of the LNG pipe facility and the LNG pipe facility where a danger signal is generated from the control unit 140 It is possible to receive and display the operation status of, so that the manager can grasp the surrounding environment of LNG bunkering at a glance.

In addition, the LNG bunkering monitoring system 100 according to an embodiment of the present invention may further include a user terminal 160.

The user terminal 160 receives environmental data and LNG detection data around the operator from the data server unit 130, and the position of the LNG pipe facility and the operation of the LNG pipe facility from the control unit 140 are generated. Whether or not it can be received and displayed.

For example, the user terminal 160 may be a wireless terminal such as a PC or laptop or a smartphone or tablet PC that can be connected to the data server unit 130 and the control unit 140 through a web or application through wireless communication. It can contain.

A process of monitoring an LNG bunkering operation using an LNG bunkering monitoring system according to an embodiment of the present invention will be described with reference to FIGS. 1 to 2.

Figure 2 is a flow chart for explaining the process of operating the LNG bunkering monitoring system according to an embodiment of the present invention.

1 to 2, in order to monitor the LNG bunkering operation using the LNG bunkering monitoring system 100 according to an embodiment of the present invention, first the environmental sensor module 110 and the LNG detection sensor module 120 In the LNG bunkering operation, the environment data of the worker input to the worker and the LNG detection data of the LNG fuel in the ship and the LNG pipe facility are detected (S110).

In more detail, the temperature sensor, humidity sensor, wind direction and wind speed sensor of the environmental sensor module 110, an image acquisition camera, and a worker receiving LNG fuel through a GPS or a LNG storage tank, such as an LNG storage tank, are used by workers during LNG bunkering. The ship detects temperature, humidity, wind direction and wind speed, image, and location of the worker's surrounding environment, and is supplied with LNG fuel through the flow meter, digital pressure gauge, and digital strain gauge of the LNG detection sensor module 120, It is installed in an LNG storage tank, an LNG supply tank, and an LNG pipe facility to detect the flow rate, pressure, and electrical resistance of an LNG tank, an LNG storage tank, an LNG supply tank, and an LNG pipe facility of a ship receiving the LNG fuel.

The environmental data and the LNG detection data as described above detected by the environmental sensor module 110 and the LNG detection sensor module 120 are transmitted to the data server unit 130 through two or more types of wired/wireless communication.

When the environmental data detected by the environmental sensor module 110 and the LNG detection sensor module 120 and the LNG detection data are transmitted to the data server unit 130, the data server unit 130 pre-stores the surrounding environment of the worker. The data and the LNG detection reference data are compared with the environmental data transmitted and detected by the data server unit 130 and the LNG detection data (S120).

Peripheral environment in which operator environment data and LNG detection data that are detected from the environmental sensor module 110 and the LNG detection sensor module 120 and transmitted through wire/wireless communication by the data server unit 130 are stored in advance. Compared to the reference data and the LNG detection reference data, when the comparison value is less than the set reference value or exceeds the set reference value, the environmental sensor module 110 or the LNG detection sensor that is below the set reference value or exceeds the set reference value The position of the module 120 is calculated (S130).

Meanwhile, the data server unit 130 transmits the location of the environmental sensor module 110 or the LNG detection sensor module 120 to the control unit 140 that is less than or exceeds the set reference value. The control unit 140 stops the operation of the LNG pipe facility in which the environmental sensor module 110 or the LNG detection sensor module 120 located below the set reference value or exceeds the set reference value, and generates a danger signal. (S140).

Then, the data server unit 130 and the control unit 140 transmits the location of the LNG pipe facility where the operator surrounding environment data, the LNG detection data and the danger signal are generated, and whether the LNG pipe facility is operating to the central monitoring unit 150 To display (S150).

As described above, the LNG bunkering monitoring system 100 according to an embodiment of the present invention is a vessel receiving LNG, LNG storage tanks, LNG supply tanks, LNG that is supplied with environmental data around the worker who is input during the LNG bunkering operation. By detecting the LNG detection data of the pipe facility and comparing it with the pre-stored reference data, the risk factors of the environment around the worker and the ship receiving the LNG fuel, the LNG storage tank, the LNG supply tank, and the risk factors of the LNG pipe facility are detected in advance. can do.

As described above, the LNG bunkering monitoring system 100 according to an embodiment of the present invention detects in advance the danger factors of the environment around the worker and the danger factors of the ship receiving the LNG fuel, the LNG storage tank, the LNG supply tank, and the LNG pipe facility. Thus, when a hazard occurs, the control unit 140 may automatically stop the operation of the LNG pipe facility at the location where the hazard occurs.

Therefore, the LNG bunkering monitoring system 100 according to an embodiment of the present invention is capable of preventing gas leakage, fire, and secondary explosion accidents that may occur during LNG bunkering, where human damage and facility damage are much greater than general accidents. Since it can be prevented, the safety and reliability of the working environment can be greatly improved.

In addition, the LNG bunkering monitoring system 100 according to an embodiment of the present invention sets the alarm sound differently according to various risk factors when a risk factor occurs, so that an administrator can quickly determine which risk factor is generated even by listening only to the alarm sound. It can be grasped correctly so that it can respond to risks more quickly and accurately.

In the detailed description of the present invention described above, it has been described with reference to preferred embodiments of the present invention, but those skilled in the art or those skilled in the art will appreciate the spirit of the present invention as set forth in the claims below. And it will be understood that various modifications and changes may be made to the present invention without departing from the technical field.

(110): environmental sensor module 120: LNG detection sensor module
(130): data server unit 140: control unit
150: central monitoring unit 160: user terminal

Claims (3)

An environmental sensor module capable of detecting temperature, humidity, wind direction, wind speed, image, and location of a worker's surrounding environment where an operator is input during an LNG bunkering operation, such as a ship receiving LNG fuel or an LNG storage tank;
An LNG detection sensor module installed in a ship receiving the LNG fuel, an LNG storage tank, an LNG supply tank, and an LNG pipe facility to sense flow rate, pressure, and electrical resistance;
A reference set in connection with the environmental sensor module and the LNG detection sensor module and compared with previously stored reference data at the same time as receiving and storing the environment data and the LNG detection data around the worker detected from the environmental sensor module and the LNG detection sensor module. A data server unit that calculates a location of an environmental sensor module or an LNG detection sensor module that is less than a value or exceeds a set reference value; And
An environment sensor module or LNG that receives a location of an environmental sensor module or an LNG detection sensor module that is less than or exceeds a set reference value from the data server unit, and that is below a set reference value or exceeds a set reference value. LNG bunkering monitoring system including a control unit that stops the operation of the LNG pipe facility where the detection sensor module is located and generates a danger signal. According to claim 1,
LNG receiving environment data and LNG detection data from the data server unit, and further comprising a central monitoring unit that receives and displays the location of the LNG pipe facility and whether the LNG pipe facility is operating from the control unit. Bunkering monitoring system. According to claim 1,
Further comprising a user terminal capable of receiving and displaying the location of the LNG pipe facility and the operation of the LNG pipe facility from the control unit receiving the environment data and the LNG detection data from the data server unit, and from the control unit LNG bunkering monitoring system.

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