KR101390821B1 - Wastewater separating apparatus for vessel - Google Patents

Abstract

Disclosed is a marine wastewater separating apparatus. The apparatus for separating wastewater according to an embodiment of the present invention includes a housing having a chamber into which wastewater containing mud, oil, water, and suspended matters is introduced and stored, a first region in which wastewater flows into the upper region of the chamber, An oil discharge system for discharging the oil floating in the first region to the outside, and a mud discharge system for discharging the mud deposited on the bottom of the chamber to the outside.

Description

[0001] WASTEWATER SEPARATING APPARATUS FOR VESSEL [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a marine wastewater separating apparatus for a marine vessel, and more particularly, to a marine wastewater separating apparatus capable of automatically separating wastewater containing a mud and an oil component.

Generally, ships such as drill ships are equipped with drilling equipments suitable for the development of underwater oil fields. They can be sailed by their own power, can keep the hull at a certain drilling point, and can explore or drill the seabed .

These drilling rigs (for example, DRILLSHIP, Semi Drilling Rig, and Jack-up Rig) will raise the sewage including mud, crushed water and the like including the oil mixture during the drilling process, And is separated into a reusable state through the apparatus.

Meanwhile, the sewage circulating in the drilling process is mostly recirculated through the treatment device. However, in the drilling process, the sewage leaking to the drill floor is collected through a separate water collecting device, And is handled by a manual operation.

An embodiment of the present invention is to provide a seawater separation apparatus capable of automatically separating sewage containing mud, oil, water, and suspended matter.

According to an aspect of the present invention, there is provided a method for separating wastewater into a wastewater, comprising: a housing having a chamber into which wastewater is introduced and stored; an upper region of the chamber divided into a first region into which the wastewater flows and a second region separated from the first region An oil discharge system for discharging the oil floating in the first region to the outside and a mud discharge system for discharging the mud deposited on the bottom of the chamber to the outside are provided .

In addition, the upper and both ends of the vertical partition wall may be disposed in contact with the upper wall and both side walls of the chamber, respectively, and the lower end of the vertical partition may be spaced apart from the bottom of the chamber.

A waterbot infiltration bulkhead extending upward from the bottom of the chamber to define a water reservoir into which the water of the second region is introduced and stored and partitioning a lower region of the second region; And a water outlet duct for discharging the water to the outside.

The oil discharge system may further include an oil sensor unit for sensing a level of the oil floating in the first region, an oil discharge pipe for discharging the oil to the outside, An oil valve and an oil pump for controlling the flow of the oil.

The mud discharge system may further comprise a Mudseen western part for sensing a level of the mud to be deposited on the bottom of the chamber, a mud discharge pipe for discharging the mud to the outside, A mud valve and a mud pump.

The mud sensor unit may include a level transmitter having a float that contacts the upper surface of the mud layer deposited at the bottom of the chamber and moves according to the stack height of the mud.

The embodiment of the present invention is capable of automatically separating wastewater generated in a ship such as a drill ship, thereby reducing the inconvenience that the operator has to periodically check the wastewater treatment.

1 is a perspective view showing an appearance of a sewage separation apparatus according to an embodiment of the present invention.
2 is a cross-sectional view of a waste water separator according to an embodiment of the present invention.
FIG. 3 illustrates a process of separating oil in a marine wastewater separator according to an embodiment of the present invention.
FIG. 4 illustrates a process of separating a mud of a seawater separation apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a perspective view showing an appearance of a waste water separator according to an embodiment of the present invention, and FIG. 2 is a sectional view of a waste water separator according to an embodiment of the present invention.

1 and 2, the apparatus for separating wastewater according to an embodiment of the present invention includes a housing 10 having a chamber 20 in which wastewater is stored, and the housing 10 is a vessel, Semi Drilling Rig, Jack-up Rig Or may be connected to a facility (not shown) collecting and collecting leaking leaking water during drilling in a drill ship.

An inlet 11 through which the wastewater flows into the chamber 20 is provided at one side of the upper portion of the housing 10 and the inlet 11 can be connected to receive the wastewater from a facility for collecting wastewater (not shown).

The chamber 20 is provided with vertical barrier ribs 30 partitioning the upper region of the chamber 20 into a first region 21 and a second region 22 which are separated from each other, And an air vent hole 35 for communicating the first region 21 and the second region 22 may be provided on the upper side of the plate 20 in such a manner as to be in contact with the upper wall and both side walls of the chamber 20 .

The inlet port 11 is disposed above the first region 21 defined by the vertical partition 30 and the second region 22 is defined by the first region 21 through the lower portion of the vertical partition 30, As shown in FIG.

That is, the lower end 31 of the vertical partition 30 is disposed at a predetermined distance from the bottom 23 of the chamber 20, and the first region 21 and the second region 22 communicate with each other through the spaced- .

Owing to such a structure, the oil and suspended matter contained in the wastewater flowing into the first region 21 through the inlet 11 floats to the upper portion of the first region 21 due to the difference in specific gravity, Is deposited on the bottom 23 of the chamber 20 and only water is present in the second region 22. [

A water reservoir 25 is provided at one side of the second area 22 and is partitioned by a water overflow barrier wall 40 extending upward from the bottom 23 of the chamber 20, The water stored in the water storage portion 25 is discharged to the outside through the water discharge duct 27. [

A transparent window 15 is disposed at one side of the side surface of the housing 10 so as to allow the operator to check the presence or absence of a float floating on the upper portion of the first region 21, A hatch 17 may be provided on one side of the upper surface so as to be openable and closable so as to remove suspended matters identified through the transparent window 15 from the first region 21.

The apparatus for separating wastewater according to the present embodiment includes an oil discharge system 50 for sensing the level of oil floating in the upper portion of the first region 21 and discharging the oil to the outside of the housing 10, And a mud discharge system (60) for sensing the level of the muds stacked on the housing (23) and discharging the mud out of the housing (10).

The oil discharge system 50 includes an oil sensor portion 51, an oil discharge pipe 53, an oil valve 55, an oil pump 57 and an oil storage tank 59.

The oil sensor unit 51 is for sensing the level of the oil floating in the first region 21 and includes a capacitance sensor 51a for measuring the level of the oil in accordance with the change of the dielectric constant.

The oil discharge pipe 53 may be installed such that one end communicates with the upper portion of the first region 21 and the other end communicates with the oil storage tank 59.

The oil valve 55 and the oil pump 57 are provided in the middle of the oil discharge pipe 53 for controlling the flow of the oil floating on the upper portion of the first region 21, On / off control based on the measured value.

Needless to say, the oil valve 55 and the oil pump 57 can be controlled by a control unit (not shown).

The mud discharge system 60 includes a Mudsen western part 61, a mud discharge pipe 63, a mud valve 65, a mud pump 67 and a mud storage tank 69.

The Mudsens West 61 is for sensing the level of the muds stacked on the bottom 23 of the chamber 20 and includes a float 61a contacting the top surface of the mud layer deposited on the bottom of the chamber 20, (level transmitter).

The float 61a of the Mud Seen western part 61 has a magnet inside and the float 61a detects the same principle as the potentiometer as the pipe 61b with the reed switch built therein moves up and down according to the stack height of the mud. The stack height of the mud is determined by the circuit.

The mud discharge pipe 63 may be installed so as to communicate with the bottom 23 of the chamber 20 at one end and communicate with the mud storage tank 69 at the other end.

The mud valve 65 and the mud pump 67 are provided for controlling the flow of the mud stacked on the bottom 23 of the chamber 20 and are installed in the middle of the mud discharge pipe 63, On / off < / RTI >

Needless to say, the mud valve 65 and the mud pump 67 can be controlled by a control unit (not shown). Nos. 26, 58 and 68 are air vent pipes.

Hereinafter, the operation of the marine wastewater separating apparatus according to the embodiment of the present invention will be described. FIG. 3 illustrates a process of separating oil from a seawater separation apparatus according to an embodiment of the present invention, and FIG. 4 illustrates a process of separating a mud of a seawater separation apparatus according to an embodiment of the present invention.

First, the marine wastewater separating apparatus of the present embodiment is capable of discharging wastewater containing mud, oil, water, and suspended matter through the wastewater generated during the drilling process, such as a drill ship, And flows into the chamber 20 through the opening 11.

When the wastewater which has flowed into the chamber 20 has lapsed for a predetermined time, the oil and floating matters having a low specific gravity float on the upper portion of the first region 21 and the mud is deposited on the bottom 23 of the chamber 20 .

3, when it is detected by the oil sensor unit 51 that the oil layer floating above the first region 21 has reached a predetermined level or more, the oil valve 55 is opened and at the same time, The oil pump 57 is operated to supply the oil floating in the upper portion of the first region 21 to the oil storage tank 59. When it is detected by the oil sensor unit 51 that the oil level has reached a certain level or less, the oil valve 55 and the oil pump 57 are turned off again.

On the other hand, when the sediment of the mud deposited on the bottom 23 of the chamber 20 is detected by the Mudsen Seam 61 as having reached a predetermined height, as shown in FIG. 4, the Mud valve 65 is opened The mud pump 67 is operated to supply the mud stacked on the bottom 23 of the chamber 20 to the mud storage tank 69. When the muds stacked on the bottom 23 of the chamber 20 reach a certain level or less, the mud valve 65 and the mud pump 67 are turned off again.

The floater floating on the upper portion of the first region 21 determines whether the operator exists through the transparent window 15 and opens the hatch 17 on the upper surface of the housing 10 in the presence of the float, .

Finally, the water stored in the water storage part 25 is discharged to the outside through the water discharge duct 27. In this case, it goes without saying that water in the water storage part 25 can be pumped through a separate pump (not shown).

The foregoing has shown and described specific embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims.

10: housing, 20: chamber,
21: first region, 22: second region,
23: bottom, 30: vertical partition,
40: water overflow barrier, 50: oil discharge system,
51: Oil sensor unit, 53: Oil discharge pipe,
55: Oil valve, 57: Oil pump,
59: Oil storage tank, 60: Mud discharge system,
61: West of Mudsen, 63: Mud drain,
65: Mud valve, 67: Mud pump,
69: Mud storage tank.

Claims (6)

A sewage separation apparatus for a ship having a housing for receiving and collecting sewage mixed with mud, oil, water, and suspended matter collected in a drilling process,
The interior of the housing 10 includes a chamber 20 defining a space in which the mud is deposited on the floor by a water overflow barrier 40 extending from the bottom to the top, A water storage portion 25,
The upper region of the chamber is divided into a first region (21) in which the oil and the floating matter float by the vertical partition wall (30) extending downward from the upper wall of the chamber and the lower end being separated from the bottom portion, And divided into a second region 22 where the water is present,
An oil sensor unit 51 for sensing the level of the oil floating in the first area and an oil pump 57 for discharging the oil to the outside of the housing based on the measured value sensed by the oil sensor unit An oil drainage system 50,
And a mud pump (67) for discharging the mud to the outside of the housing on the basis of the measured value sensed by the Mudsen West Wherein the mud drainage system (60) is provided for the mud discharge system (60). The method according to claim 1,
The upper portion of the first region is provided with an inlet (11) through which the wastewater flows, and the upper end and both end portions of the vertical partition are arranged to contact the upper wall and both side walls of the chamber, And an air vent hole (35) for communicating the first area with the second area is provided. The method according to claim 1,
And a water discharge duct (27) for discharging water stored in the water storage unit to the outside. The method according to claim 1,
The oil drain system
An oil discharge pipe 53 installed to communicate with the upper portion of the first region so as to discharge the oil to the outside and the other end to communicate with an oil storage tank 59 storing oil,
And an oil valve (55) for controlling the flow of the oil to the oil discharge pipe. The method according to claim 1,
The mud discharge system
A mud discharge pipe (63) communicating with the bottom of the chamber so as to discharge the mud to the outside and the other end communicating with a mud storage tank (69) storing the mud;
And a mud valve (65) for controlling the flow of the mud to the mud discharge pipe. 6. The method of claim 5,
The mud sensor unit
And a level transmitter having a float that contacts the upper surface of the mud layer deposited on the bottom of the chamber and moves according to the stack height of the mud.

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