KR20160142029A - Oil Vapor Emission Reduction System Using Detection of Gas and Smell - Google Patents

Abstract

The present invention relates to a technique which removes oil components from an oil mist (VOC), which is a volatile organic compound, which is vaporized within an oil sludge tank and discharged to outside, and which also detects poisonous gases and smells contained in the oil mist and removes the poisonous gases and smells according to detected detection values. According to the present invention, there is provided a processing system for reducing an oil mist emission using smells and gas detection, comprising: an oil mist removing means which is connected with an oil sludge tank through an oil mist line and condenses to liquefy the oil mist; a gas centrifugation separator which is connected with the oil mist removing means through a first discharge line and removes poisonous gases from the oil mist; a second discharge line which is connected with the gas centrifugation separator such that the oil mist, which has passed through the gas centrifugation separator, to outside air; a detection means which is arranged on the first discharge line to detect the smell and the oil mist; a control unit which is electrically connected with each of the detection means and the gas centrifugation separator to transfer signals; an electronic valve which is electrically connected with the control unit to transfer signals while being connected with the first discharge line; and a bypass line which is connected between the electronic valve and the second discharge line.

Description

     TECHNICAL FIELD [0001] The present invention relates to a system and method for reducing a vapor emission using a smell and gas detection system,

     More particularly, the present invention relates to a system for removing volatile organic compounds (VOC), which evaporates in the oil sludge tank and is discharged to the outside, To detect the contained toxic gas and odor, respectively, and to remove all the toxic gas according to the detected value.

     The vessel is equipped with an oil sludge tank, and the oil sludge tank is collected in a state in which the oil sludge is filled. In this way, the oil sludge filled in the oil sludge tank is evaporated by the surrounding temperature and changed into a vapor state. At this time, when a large amount of the generated oil vapor is present in the oil sludge tank, the internal pressure is increased and the risk of explosion of the oil sludge tank is increased. Therefore, the oil vapor is discharged to the atmosphere to prevent it.

Generally, a vapor discharge pipe is connected to an oil sludge tank, and a vapor discharge pipe is taken out to the upper surface of the deck of the ship or the uppermost surface of the hull to discharge the vapor into the atmosphere.

However, the vapor discharged to the outside through the exhaust pipe is condensed and liquefied rapidly by the temperature difference while contacting with the outside air, and condensed water and oil are discharged by falling down by the self weight and blowing in the wind, And becomes sticky.

As a result, not only the upper surface of the deck but also the wall surface of the hull are heavily contaminated by oil adhered to the surface of the hull, which is very messy and there is a need to perform a removing operation to remove the debris.

Particularly, oil fractions adhering to the upper surface of the deck are very slippery and fall down during the operation or walking of the crew, which is a considerable risk factor for safety. In addition, the oil content of the oil adhered to the upper surface of the deck or the wall surface, And toxic gases and odors from the inside of the hull are introduced into the inside of the hull, which causes the health of the crew and the indoor environment.

Furthermore, the toxic gas and oil contained in the vapor are responsible for the environmental pollution including the ocean as well as the environmental pollution described above.

Korean Patent Publication No. 10-2014-0096446

The present invention has been made to solve the problems described in the background art, and it is an object of the present invention to provide a method and apparatus for removing volatile organic compounds (VOCs), which are volatile organic compounds that evaporate in an oil sludge tank and are discharged to the outside, The present invention is directed to a system for processing a vapor emission reduction using an odor and gas detection method capable of detecting toxic gases and odors according to detected values.

In the present invention, an oil mist removing means connected to an oil sludge tank through a vapor line and condensing and liquefying the vapor; A gas centrifugal separator connected to the oil mist removing means through a first discharge line and removing the odor and toxic gas of the vapor; A second discharge line connected to the gas centrifuge separator for discharging the vapor passing through the gas centrifuge separator to the atmosphere; A detection unit provided in the first discharge line for detecting odors and vapor; A control unit electrically connected to the detection unit and the gas centrifuge separator, respectively; A solenoid valve electrically connected to the control unit in a state of being connected to the first discharge line, and a bypass line connected between the solenoid valve and the second discharge line; The present invention can achieve the object through the vapor emission reduction processing system using odor and gas detection.

In addition, the detection means can achieve the object through a vapor emission reduction processing system using an odor and gas detection comprising an odor detection sensor capable of detecting odor and a toxic gas detection sensor capable of detecting toxic gas.

Also, the controller compares and determines the odor and toxic gas detection value with the pre-input odor and toxic gas setting value, and opens and closes the electromagnetic valve according to the determined signal to select the vapor to be discharged to the atmosphere after passing through the gas centrifuge separator And a vapor emission reduction processing system using odor and gas detection for controlling the selection of passing through a bypass line without passing through a gas centrifuge separator and then discharging to the atmosphere.

In addition, the oil mist removing means can achieve the object through the vapor emission reduction processing system using odor and gas detection, which comprises a housing having a hollow structure and a heat sink connected to the outer surface of the housing in a cantilever structure .

     As described above, the use of the vapor discharge reduction treatment system according to the present invention can prevent the contamination of the upper surface of the deck and the wall surface of the hull due to adhered oil, thereby eliminating the troublesomeness of the removal operation. .

In addition, the effect of preventing the oil sticking on the upper surface of the deck can be expected to prevent an accident that the crews are working or slipping and falling down while walking.

In addition, when the vapor discharge reduction treatment system according to the present invention is used, the oil adhered to the upper surface of the deck or the wall surface of the ship or the vapor discharged to the outside is introduced into the interior of the hull, It is possible to avoid the environmental pollution including the oceans as well as the ambient pollution described above due to the discharge of the vapor.

FIG. 1 is a flow diagram of a vapor emission reduction treatment system using odor and gas detection according to the present invention, wherein the odor and gas detection values are less than a set value.
FIG. 2 is a flow diagram of a vapor emission reduction treatment system using odor and gas detection according to the present invention, in which the odor and gas detection values exceed a set value.

     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the ship is equipped with an oil sludge tank 10 in which oil scum is collected, and the oil sludge tank 10 is provided with a vapor discharge reduction treatment system 12 according to the present invention.

An oil mist removing unit 16 connected to the oil sludge tank 10 through a vapor line 14, and an oil mist removing unit 16 connected to the oil sludge tank 10 via a vapor line 14. The oil mist removing unit 16, A gas centrifugal separator 20 connected through the oil mist removing means 16 and the first discharge line 18 and a gas mist separator 20 for removing odors of vapor passing through the gas mist separator 20 from the oil mist removing means 16 And a detection means section 22 provided in the first discharge line 18 for detecting toxic gas respectively and a detection section 22 and a gas centrifuge separator 20 which are electrically connected to signals e1 and e2 And a control unit 24 connected to the gas centrifuge separator 20 so that the vapor can be discharged without passing through the gas centrifuge separator 20 in accordance with a comparison between the detected odor and toxic gas values and pre- Electronic It is configured to include the bracket 26. The bypass line 28 is connected to the structure having the.

Specifically, the oil mist removing unit 16 includes a housing 32 having a hollow structure for forming a space 30 therein, a heat sink 34 connected to the outer surface of the housing 32 in a cantilevered structure, .

The oil mist removing means 16 constructed as described above is connected to the gas centrifuge separator 20 through the first discharge line 18 and the first discharge line 18 is filled with the odor of the vapor And a detecting means 22 for detecting a toxic gas are provided.

The detection means section 22 is composed of an odor detection sensor 36 and a toxic gas detection sensor 38. The odor and toxic gas detection sensors 36 and 38 and the gas centrifuge separator 20 are respectively connected to a control section (E1, e2) are electrically connected to the signal line 24.

The gas centrifuge separator 20 is connected to a second discharge line 40 exposed to the atmosphere and a solenoid valve 26 is provided between the first discharge line 18 and the second discharge line 40. [ And the solenoid valve 26 connected to the first discharge line 18 is electrically connected to the control unit 24 via a signal line e3.

In other words, the solenoid valve 26 having the first to third opening portions 26a, 26b and 26c is connected to the first discharge line 18. At this time, the oil mist removing means 16 and the gas centrifuge The first discharge line 18 connecting the separator 20 is connected to the first and second opening and closing parts 26a and 26b and the bypass line 26b is connected between the third opening and closing part 26c and the second discharge line 40. [ 28 are connected.

The unused symbol 42 is a recovery line connected to recover the oil recovered from the oil mist removing means 16 to the oil sludge tank 10.

Hereinafter, functions and operations of a vapor emission reduction processing system using odor and gas detection according to the present invention will be described.

1, the oil vapor generated in the oil sludge tank 10 is conveyed along the vapor line 14 and flows into the space 30 of the housing 32 of the oil mist removing unit 16 .

The oil vapor introduced into the space 30 of the housing 32 is first condensed and liquefied by the heat dissipation plate 34 of the housing 32. The condensed liquefied oil is recovered by the recovery line 42 To the oil sludge tank 10.

As described above, the vapor is passed along the first discharge line 18 in a state where most of the oil is removed while passing through the oil mist removing means 16, and when the vapor is transported along the first discharge line 18, The first discharge line 18 is provided with a detection means 22 or odor and toxic gas detection sensors 36 and 38 for detecting odor and toxic gas on the oil vapor passing through the first discharge line 18 .

Each of the detection values detected from the odor and toxic gas detection sensors 36 and 38 is input to the control unit 24 and the control unit 24 transmits the odor detection value and the toxic gas detection value to the control unit 24, The input odor setting value, and the induction gas setting value, respectively.

For example, when the odor detection value and the toxic gas detection value are less than both the odor setting value and the induction gas setting value, the control unit 24 applies the corresponding signal to the solenoid valve 26 so that the first and third opening / And 26c are opened and the second opening and closing part 26b is opened and closed in a closed state.

The vapor that has passed through the oil mist removing means 16 passes through the bypass line 28 and the second discharge line 40 connected to the third opening and closing portion 26c without passing through the gas centrifuge separator 20, .

On the other hand, when the odor detection value and the toxic gas detection value exceed both the odor setting value and the induction gas setting value, or when the detected value of the odor detection value and the toxic gas detection value exceeds the odor setting value and the induction gas setting value The control unit 24 applies the corresponding signal to the solenoid valve 26 to open the first and second opening and closing units 26a and 26b and open and close the third opening and closing unit 26c in a closed state as shown in FIG. And the control unit 24 drives the gas centrifuge separator 20 by applying a driving signal to the stopped gas centrifuge separator 20.

Accordingly, the oil vapor passing through the oil mist removing means 16 passes through the gas centrifugal separator 20, and the gas centrifugal separator 20 separates not only residual oil but also toxic gas and odor All of which are discharged to the atmosphere through the second discharge line 40. [

Therefore, the system for reducing the emission of vapor using the odor and gas detection according to the present invention can detect the toxic gas and odor contained in the vapor, while removing most of the oil contained in the vapor, Toxic gas and odor, so that it is possible to economically operate due to the vapor emission reduction process while eliminating all the problems raised in the prior art. As described above, although the present invention has been described with reference to specific examples and drawings, it is to be understood that the present invention is not limited thereto. Those skilled in the art will appreciate that the technical idea of the present invention It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the appended claims.

10: Oil sludge tank 12: Vapor emission reduction treatment system
14: vapor line 16: oil mist removing means
18: first discharge line 20: gas centrifugal separator
22: detecting means section 24:
26: electromagnetic valve 28: bypass line
30: space 32: housing
34: Heat sink 36: Odor detection sensor
38: Toxic gas detection sensor 40: Second exhaust line
42: Recovery line

Claims (4)

Oil mist removing means connected to the oil sludge tank through a vapor line and condensing liquefied vapor;
A gas centrifugal separator connected to the oil mist removing means through a first discharge line and removing the odor and toxic gas of the vapor;
A second discharge line connected to the gas centrifuge separator for discharging the vapor passing through the gas centrifuge separator to the atmosphere;
A detection unit provided in the first discharge line for detecting odors and vapor;
A control unit electrically connected to the detection unit and the gas centrifuge separator, respectively;
A solenoid valve electrically connected to the control unit in a state of being connected to the first discharge line, and a bypass line connected between the solenoid valve and the second discharge line;
And a gas detection unit for detecting the presence or absence of the odor and the gas.
The method according to claim 1,
Wherein the detecting means comprises an odor detecting sensor capable of detecting odor and a toxic gas detecting sensor capable of detecting a toxic gas.
3. The method of claim 2,
The control unit compares the odor and toxic gas detection values with the pre-input odor and toxic gas set values and opens and closes the solenoid valve according to the determined signal so that the vapor is discharged to the atmosphere after passing through the gas centrifuge separator, Wherein the control means controls the selection of exhaust gas passing through the bypass line without passing through the gas centrifuge separator.
4. The method according to any one of claims 1 to 3,
Wherein the oil mist removing means comprises a housing having a hollow structure and a heat radiating plate connected to the outer surface of the housing in a cantilever structure.

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