KR101938173B1 - Purge ventilation system of offshore structure and purge ventilation method using the same - Google Patents

Abstract

An exhaust system of an offshore structure and an exhaust method using the exhaust system are disclosed.
An exhaust system of an offshore structure includes an air circulation duct connected to a plurality of main rooms, and the air circulation duct includes an air conditioning and air conditioning system including an air conditioner for air conditioning the air and blowing air for blowing air, (HVAC system); An exhaust duct connected to the air circulation duct for exhausting gas penetrating into the main room; A plurality of shutoff dampers for opening and closing the air circulation duct and the exhaust duct; A gas detector installed in each of the main rooms to detect gas; And a control unit for opening and closing the shut-off damper in accordance with the detection of the gas detector, and driving the blowing fan to discharge the gas intruded into each main room to the outside of the exhaust duct.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exhaust system for an offshore structure and an exhaust method using the exhaust system.

The present invention relates to an exhaust of an offshore structure, more specifically, to an automatic purge ventilation using an existing HVAC system (air-conditioning and air-conditioning system), and a normal state recovery An exhaust system of an offshore structure having improved safety and convenience, and an exhaust method using the exhaust system.

For example, LNG FPSO (Floating, Production, Storage and Offloading), Oil FPSO, LNG FSRU (Floating Storage and Regasification Unit), FPU (Floating Production Unit).

LNG FPSO is an offshore structure used to produce natural gas, store the natural gas directly in the sea and store it in the LNG storage tank, and transfer the LNG stored in the LNG storage tank to the LNG carrier when necessary.

In case of LNG FPSO, it is an offshore vessel dealing with dangerous gas. When the gas enters the safety zone, there is a risk of fire in the main room. (Purge ventilation) is carried out for the purpose of being able to be pulled out. Here, purge refers to discharge of gas before ignition because there is a possibility of explosion when the unburned gas is in a furnace or in other places when ignited.

1 is a schematic view showing an exhaust system of a conventional offshore structure.

Referring to FIG. 1, in a conventional exhaust system 10 for an offshore structure, gas is introduced into any one of the first to third main rooms 11, 12 and 13, for example, the third main room 13, The operator moves the portable purge fan 20 into the third main room 13 and operates the portable purge fan 20 to exhaust the gas to the outside Exhaust). The first room 11 and the second room 12 also evacuate in the same manner.

However, the conventional exhaust system of an offshore structure is troublesome and time-consuming to recover the normal condition because it is carried out until the operator confirms that there is no gas as a portable purge fan for each main room.

Further, the conventional exhaust system of an offshore structure has a problem that stability may be deteriorated when an error occurs in confirming no gas of a worker.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an air conditioning system and an air conditioning system in which an exhaust duct is connected to an air circulation duct of a HVAC system, and a plurality of shut off dampers , And shut-off damper is opened and closed according to the detection of the gas detector installed in each main room, and the ventilation fan is driven to discharge the gas intruding into each main room to the outside of the exhaust duct to perform automatic exhaust using the existing HVAC system equipment And it is an object of the present invention to provide an exhaust system for an offshore structure and an exhaust method using the exhaust system that can recover a normal condition within a short time without the hassle of a worker.

In order to achieve the above object, an exhaust system of an offshore structure according to the present invention comprises an air circulation duct connected to a plurality of main rooms, and air circulation ducts are provided with air blowing fans and air to supply air to the main rooms An exhaust duct connected to the air circulation duct for exhausting gas intruding into the main room; a plurality of shut-off dampers for opening and closing the air circulation duct and the exhaust duct; A gas detector installed in each of the main rooms for opening and closing the shutoff damper in accordance with detection of the gas detector and driving the blowing fan to blow gas intruded into each main room to the outside of the exhaust duct And a control unit for controlling the discharge of the exhaust gas.

Wherein the main room comprises a first main room, a second main room and a third main room, and the shut-off damper is installed on each of the inlet side of the air circulation duct adjacent to the first main room to the third main room A second shut-off damper provided on an outlet side of the air circulation duct adjacent to the air conditioner, and a third shut-off damper provided on an inlet side of the exhaust duct adjacent to the air conditioner.

According to another aspect of the present invention, there is provided a method for evacuating an offshore structure, the method comprising the steps of: ventilating the main room using a cooling / heating air conditioning system; Determining whether or not a gas intrudes into the main room; The main room is continuously ventilated using a cooling / heating air conditioning system in a normal condition without gas intrusion, and when the gas intrusion is detected, the control unit stops ventilation of the air conditioning and air-conditioning system, And discharging gas intruded into the main room through the duct.

The step of discharging the gas in the main room comprises the steps of: shutting off the shut-off damper of the air-conditioning and air-conditioning system and opening the shut-off damper of the exhaust duct; And exhausting the gas penetrated into the main room through the exhaust duct by a blowing fan of the air conditioning and air-conditioning system to the outside.

As described above, according to the present invention, an exhaust duct is connected to an air circulation duct of an HVAC system, a plurality of shutoff dampers are installed in the air circulation duct and the exhaust duct, The shutoff damper is opened and closed according to the detection of the installed gas detector and the gas blown into each of the main rooms is discharged to the outside of the main duct by driving the blowing fan to perform automatic exhausting utilizing existing HVAC system equipments. It is possible to recover the normal condition within a short time without the hassle of the operator and it is possible to realize a more safe and convenient exhaust system of an offshore structure.

1 is a schematic view showing an exhaust system of a conventional offshore structure
2 is a schematic view showing an exhaust system of an offshore structure according to the present invention.
3 is a block diagram illustrating a method for evacuating an offshore structure according to the present invention.
4 is a block diagram showing a method of discharging gas in a main room in the method for evacuating an offshore structure according to the present invention

Hereinafter, an exhaust system for an offshore structure and an exhaust method using the exhaust system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a view showing an exhaust system of an offshore structure according to the present invention.

2, an exhaust system 100 for an offshore structure according to the present invention includes an air circulation duct 111 connected to a plurality of main rooms 11, 12 and 13, An air conditioning system (HVAC system) 110 in which an air blowing fan (circulating fan) 112 for blowing air to the main room and an air conditioner 113 for air conditioning and supplying the main room are installed. The main room may include a plurality of rooms, for example, a first main room 11, a second main room 12, and a third main room 13.

The HVAC system (heating, ventilation, and air conditioning system) is a technology used for comfort of indoor and ship environments. In the air conditioner 113, the air temperature and humidity are adjusted to circulate About 70% of air, and about 30% of outside air into the main room. Here, the main room is defined as a concept including both a battlefield room, an electric cabinet, and an emergency escape house. Since the HVAC system is the same as the existing configuration, a detailed description thereof will be omitted.

An exhaust duct 120 is further connected to the air circulation duct 111 to exhaust gas (LNG and Oil of FPSO) that has entered the main rooms 11, 12 and 13. That is, one end of the exhaust duct 120 is connected to the air circulation duct 111, and the other end of the exhaust duct 120 is exposed to the outside.

The air circulation duct 111 and the exhaust duct 120 are provided with a plurality of shutoff dampers for opening and closing them.

The shut-off damper includes a first shut-off damper 131 (131a, 131b, 131c) provided at each of the air circulation duct inlet sides adjacent to the first main room 11 to the third main room 13, A second shut-off damper 132 installed at the outlet side of the air circulation duct adjacent to the air conditioner 113 and a third shut-off damper (not shown) provided at the inlet duct side adjacent to the air conditioner 113 133).

Each of the main rooms 11, 12, and 13 is provided with a gas detector 140 for detecting a gas.

The control unit 150 selectively opens and closes the shut-off dampers 131, 132 and 133 according to the detection of the gas detector 140 and drives the blowing fan 112 to open the respective main rooms 11 and 12, And exhausts the gas intruded into the exhaust duct (13) to the outside of the exhaust duct (120).

The operation of the exhaust system of an offshore structure according to a preferred embodiment of the present invention will now be described.

The air conditioning and air-conditioning system 110 drives a blowing fan (circulating fan) 112 to introduce the air in each of the main rooms 11-13 into the air circulating duct 111. The air conditioner 113 co- To circulate air. In this state, both the first shut-off damper 131 and the second shut-off damper 132 are opened while the third shut-off damper 133 is kept closed. When the gas detector 140 can not detect the gas, the blowing fan (circulating fan) 112 is driven to continuously circulate the air.

If a gas breaks into any of the main rooms, for example the first main room 11, the gas detector 140 in the first main room 11 detects the gas, (150).

The control unit 150 closes the first shut off dampers 131b and 131c connected to the second main room 12 and the third main room 13 and closes the second shut off dampers 132 And maintains the third shut-off damper 133 in the open state. Next, the control unit 150 sucks the gas that has entered the first main room 11 by the blowing fan (circulating fan) 112 and blows the gas through the air circulating duct 111 and the exhausting duct 120 And controls the series of processes.

In the exhaust system for an offshore structure according to the preferred embodiment of the present invention, the operator manually presses the operation buttons 151, 152, 153 connected to the corresponding main room of the control unit 150 without gas detection by the gas detector 140, (Evacuation) can be done manually.

Meanwhile, FIG. 3 is a block diagram showing an exhaust method of an offshore structure according to the present invention, and FIG. 4 is a block diagram showing a method of exhausting gas in a main room in an exhaust method of an offshore structure according to the present invention.

2 and 3, the method for evacuating an offshore structure according to the present invention is a method for evacuating an offshore structure that exhausts gas intruding into a main room. The method includes the steps of: (11) venting (12) (13); (S 120) judging whether or not a gas intrudes into the main rooms (11), (12) and (13); The main room 11, 12 and 13 are continuously ventilated using the air-conditioning and air-conditioning system 110 in a normal condition without gas intrusion as a result of judging whether or not the gas intrusion is detected, , The control unit 150 stops the ventilation of the cooling and heating air conditioning system 110 and discharges the gas intruded into the main rooms 11, 12 and 13 through the exhaust duct 120 130).

2 and 4, the step of discharging the gas in the main rooms 11, 12, and 13 (S 130) may be performed by the shut-off damper 132 of the air conditioning and air-conditioning system 110 (S 131) of opening the shutoff damper 133 of the exhaust duct 120; (S 132) of the gas introduced into the main rooms 11, 12, and 13 through the exhaust duct 120 by the air blowing fan 112 of the air conditioning and heating system 110; .

As described above, according to the present invention, an exhaust duct is connected to an air circulation duct of an HVAC system, a plurality of shutoff dampers are installed in the air circulation duct and the exhaust duct, The shutoff damper is opened and closed according to the detection of the installed gas detector and the gas blown into each of the main rooms is discharged to the outside of the main duct by driving the blowing fan to perform automatic exhausting utilizing existing HVAC system equipments. It is possible to recover the normal state in a short time without the hassle of the operator, and it is possible to realize a more safe and convenient exhaust system of the offshore structure.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and variations are possible within an even range.

11: First main room
12: Second Main Room
13: The third main room
110: Heating / cooling air conditioning system
111: Air circulation duct
112: blowing fan
140: Gas detector
131: first shut-off damper
132: second shut off damper
133: third shut-off damper
150: control unit

Claims (9)

An air circulation duct connected to a main room, an air circulation duct connected to the air circulation duct, an air conditioning system (HVAC system) installed in the air circulation duct for supplying air to the main room through a ventilation fan for blowing air, An exhaust duct connected to the air circulation duct for exhausting gas infiltrated into the main room, a plurality of shutoff dampers for opening and closing the air circulation duct and the exhaust duct, a gas detector installed in the main room for detecting gas, And a control unit for selectively opening and closing the shut-off damper in accordance with the detection of the gas detector and driving the blowing fan to discharge the gas intruded into the main room to the outside of the exhaust duct,
Wherein the main room is set as a plurality of the main rooms, and the control unit drives the blowing fan to continuously circulate the air when the gas detector fails to detect the gas, and when the gas intrudes into any one of the main rooms, Characterized in that the gas detector in the main room which has entered the gas detector detects the gas and delivers it to the control unit. delete The method according to claim 1,
Wherein the main room comprises a first main room, a second main room, and a third main room. The method of claim 3,
The shut-
A first shut-off damper installed at the inlet side of the air circulation duct adjacent to the first main room to the third main room;
A second shut-off damper installed at an outlet side of the air circulation duct adjacent to the air conditioner; And
And a third shut-off damper installed on an inlet side of the exhaust duct adjacent to the air conditioner. delete delete delete delete delete

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