KR20020041074A - Recovery apparatus of oil steam from generator - Google Patents

Abstract

PURPOSE: An apparatus for recovering oil mist from oil-entraining steam that is generated when high heat is conducted to sealant oil used to prevent efflux of hydrogen gas is provided. CONSTITUTION: The apparatus comprises an oil/water separation tank(6); a cooler(10) which has a cooling pipe(11) for controlling the supply of cooling water by operation of an electronic valve(12); a conical filter net(20) which is composed of many minute pores for separating oil and water; an axle(32) which transmits the driving power of motor(31); a rotating wing(30) which plays a role of scraper for inflow of oil into a drain hole(33); an oil recovery pipe(40) which collects oil from the drain hole; a U-shaped pipe(50) which collects dropping water from the filter net passing through a support board(51) and drains the water by difference of specific gravity; an oil/water separator(60) which separates oil and water again; a limit switch(63) which sends a control signal by the operation of float(62) which is controlled by buoyancy of water; several level switches(70) which indicate oil quantity collected from the oil recovery pipe with float(71).

Description

Recovery apparatus of oil steam from generator

The present invention is environmental pollution by preventing the discharge of the steam generated by the high heat conduction to the sealed oil used to prevent the outflow of hydrogen gas which is a cooling medium of the generator, more specifically, the generator is discharged into the atmosphere The present invention relates to an oil vapor recovery apparatus of a power generation facility which prevents the failure of a facility due to the accumulation of steam and prevents the oil component contained in the oil vapor from being reused.

In general, Figure 1 is a block diagram showing the sealing oil supply system and the oil vapor discharge system of the power generation equipment, the sealing oil is continuously supplied to the generator shaft (2) of the power generation equipment by the sealing oil supply pump (3) Hydrogen gas, which is a cooling medium of the generator, is prevented from being leaked out. At this time, the sealing oil for sealing is drained into the vacuum tank 4 while containing hydrogen gas and water for cooling in the generator. Hydrogen gas and oil vapor in the oil components are sent to the separator 6 using a vacuum pump (5).

Hydrogen gas and vapor sent from the vacuum pump (5) to the separator (6) are separated into water and oil by the specific gravity difference, the gaseous components are discharged into the atmosphere through the top of the separator, and the separated oil is sealed in the vacuum pump. And it is re-supplied to the lubricating oil, the remaining water is manually discharged to the outside through the drain valve (7).

However, since the oil separated through the above process continues to circulate in the separator tank and the vacuum pump without stagnation time in the separator tank, the vacuum pump is operated for a long time without removing the fine water contained in the oil. By continuously supplying to, there is a problem of deteriorating the performance of the vacuum pump by causing internal damage and overheating of the vacuum pump.

As a result, the vacuum efficiency of the vacuum tank is lowered, so that the sealing efficiency of sealing the refrigerant of the generator is lowered. Also, due to an increase in the internal temperature of the separator, oil vapor is released into the atmosphere, causing air pollution.

The present invention has been made in view of the problems caused by the discharge of oil vapor derived from the conventional power plant as described above, the purpose of the cooling and recovery of the high temperature steam vapor continuously circulated in the power plant to stabilize the operation and environmental pollution It is in the provision of oil vapor recovery system of power generation facilities that can be prevented.

The present invention for achieving the above object is a circular cooler that promotes oil separation by cooling the high temperature steam introduced into the separator and prevents the discharge of steam into the atmosphere, and recovers by separating the cooled oil and water Rotatable recovery device, a U-shaped tube installed to discharge the separated water to the outside, an oil-water separator for separating and discharging the finely contained water in the separated oil, and the operation of the circular cooler and oil-water separator Consists of a control unit to efficiently recover the oil vapor generated by the sealing oil and the cooling medium to prevent environmental pollution, to prevent equipment failure due to the accumulation of steam, and to extract and reuse the oil components contained in the steam It is characterized by.

1 is a conceptual diagram showing a sealing oil supply system and a vapor discharge device of a general power generation equipment,

Figure 2 is a cross-sectional configuration showing the installation state of the oil vapor recovery apparatus of the embodiment of the present invention,

3 is an exploded perspective view of the steam automatic recovery apparatus.

<Description of Symbols for Major Parts of Drawings>

1: power plant 2: generator shaft

3: sealed oil supply pump 4: vacuum tank

5: vacuum pump 6: separator

10: cooler 11: coolant pipe

12 solenoid valve 13 cooling fin

20: strainer 30: rotary wing

31: motor 32: hollow shaft

33: discharge hole 40: oil recovery pipe

50: U tube 51: support plate

60: oil water separator 70: level switch

Hereinafter, with reference to the accompanying drawings, the oil vapor recovery apparatus of the power generation facility of the present invention will be described in detail.

2 and 3 are installed state and exploded perspective view of the oil vapor recovery apparatus according to the embodiment of the present invention, the hydrogen gas and oil vapor in the sealed oil drained from the generator shaft of the power plant by the operation of the vacuum pump in a conventional manner The separator is recovered from the vacuum tank to the separator 6.

A plurality of cooling fins 13 are provided on the inner upper portion of the separator 6 while the circulation of the cooling water is controlled by the control operation of the solenoid valve 12 to cool the high temperature oil vapor forcedly introduced from the vacuum pump through the conduit 8. The cooler 10 is provided with a coolant pipe 11 of a loop type or an uneven type.

On the lower side of the cooler 10 is a fine porous cone to separate the oil and water constituents of the cooled oil vapor so that the sieve net 20 is installed so as to obstruct the radial direction of the separator 6, the upper part of the strainer The surface rotates by a drive of the motor 31 to remove the oil film formed on the surface of the sieve 20 to the scraper action to flow into the discharge hole 33 formed in the lower portion of the hollow shaft 32 for transmitting the rotational force The wing 30 is provided.

The lower end of the hollow shaft 32 is installed by the oil recovery pipe 40 is removed by the rotary blade 30 to recover the oil of good quality flowing through the discharge hole 33, the bottom surface of the strainer 20 The U-shaped tube 50 which collects water which penetrates through this strainer via the support plate 51, and discharges water by specific gravity difference is installed.

At the inlet of the U-shaped tube 50, which is connected to the support plate 51, a recovery pipe 61 for recovering oil discharged in an unseparated state is formed, and the recovery pipe 61 is a running water for separating oil and water again. It is connected to the separator (60).

The oil / water separator (60) has a float (62) which is operated when the water and oil are separated by a specific gravity difference in the tank and the amount of water is recovered, and a limit switch which is operated by a touch signal of the float to generate a control signal. 63 is provided.

On the other hand, the lower side of the separator (6) is removed by the operation of the rotary blades 30 to display the flow rate measured by the float 71 when the oil recovered through the oil recovery pipe 40 fills up The level switch 70 is installed, and the level switch will control the opening and closing of the drain valve 64 installed in the solenoid valve 12 of the cooler 10 and the oil / water separator 60 together with the limit switch.

Therefore, the present invention as described above is cooled through the cooler 10 while the high temperature oil vapor introduced into the separator 6 through the oil vapor inlet pipe 8 is cooled in the gas, by the cooling action to the oil vapor Condensation occurs and water and oil, which are components of the oil vapor, fall to the lower portion and fall on the sieve 20. The pure gas, which is not condensation, of the oil vapor is discharged to the outside of the water separator (6).

Water containing oil dropped to the conical sieve 20 is dropped to the support plate 51 installed on the bottom through a minute hole formed in the sieve 20, the oil forms an oil film on the surface of the conical sieve 20.

Subsequently, the oil remaining as the oil film in the conical sieve 20 is scraped by the scraper action of the rotary blade 30 joined to the hollow shaft 32 rotated by the driving of the motor 31 sieve 20 After being collected at the central portion of the hollow shaft 32 is discharged to the oil recovery pipe 40 through the discharge hole 33 formed in the lower portion, the high quality oil separated and collected from the oil vapor as described above is a vacuum pump It can be supplied and reused.

On the other hand, the water passing through the sieve (20) to the support plate 51 of the bottom is introduced into the U-shaped tube 50 while being guided along the inclined surface, the water introduced into the U-shaped tube 50 is the While water is discharged to the outside due to the structural action and specific gravity difference, the oil which is not separated from the strainer 20 and introduced into the U-tube together with the water is passed through the recovery pipe 61 connected to the inlet of the U-tube 50. After the oil and water are separated through the oil and water separator 60 to separate the water again and is discharged to the outside.

When water containing oil is introduced into the oil / water separator 60, oil and water are separated by specific gravity differences, and when the amount of water increases, the float 62 rises to operate the limit switch 63.

Conditions for controlling the operation of the cooler 10 and the oil water separator 60 are as follows.

That is, whether or not the coolant circulated in the coolant pipe 11 of the cooler 10 is supplied by the control operation of the solenoid valve 12 mounted on the pipe line. The solenoid valve 12 is always in a normal operation state. While maintaining the open state, when the signals of the limit switch 63 installed in the oil / water separator 60 and the level switch 70 installed in the gas of the water separator 6 are operated, the water level rises due to the breakage of the cooler 10. It is determined that the solenoid valve installed in the inlet of the coolant pipe 11 is blocked.

The drainage side 64 of the oil / water separator 60 is kept closed when the level switch 70 and the limit switch 63 are operated at the same time, while the level switch 70 is not operated and the limit switch 63 is closed. When it is operated only, it is opened by the operation signal and then closed by the return signal, so that only the separated water is discharged and oil is not discharged to the outside.

The level switch 70 installed in the separator 6 detects the flow level of the high quality oil collected by the float 71 and operates the level switch to check the oil level in the gas. The result was made to easily identify by turning on the external lamp (LAMP).

The oil vapor recovery apparatus of the power generation facility of the present invention cools the high temperature steam to separate oil and water as its constituents, and recovers high quality oil and reuses it to seal the breakage of the vacuum pump and the vacuum drop. It prevents the deterioration and improves the cooling efficiency, thereby increasing the durability and performance of the facility.

In addition, the oil is not separated from the water again, and at the same time by cooling and recovering the high temperature of the steam there is an advantage to prevent air pollution due to the discharge of the vapor to the atmosphere.

Claims (1)

In recovering hydrogen gas and oil in the sealed oil drained from the generator shaft of the power generation equipment to the water separator (6) from the vacuum tank by driving the vacuum pump, A cooler (10) installed in the upper portion of the water separator (6) and having a coolant pipe (11) to control the supply of coolant by the operation of the solenoid valve (12) to cool the hot steam therein, and the cooler (10) It is installed on the lower side of the oil and water generated from the cooled steam to separate the fine porous conical sieve 20 and the oil film formed on the surface of the sieve 20 to remove the rotational force of the motor 31 Rotating blade 30 which is a scraper action so that the oil is installed in the hollow shaft 32 to be transmitted to the discharge hole 33 formed in the hollow shaft 32 and the lower portion of the hollow shaft 32 It is installed so that the oil recovery pipe 40 to recover the high quality oil discharged through the discharge hole 33, and installed on the bottom of the strainer 20, the water passing through the strainer through the support plate 51 U to discharge water by specific gravity after collecting An oil and water separator (60) installed to separate oil and water discharged in a non-separated state again through a pipe (50) and a recovery pipe connected to the inlet of the U-shaped tube (50) which is connected to the support plate (51); The limit switch 63 installed in the 60 and sending a control signal by the touch operation of the float 62 operated by the buoyancy of water and the float 71 when the oil recovered through the oil recovery pipe 40 is filled. An apparatus for recovering oil vapor from a power plant, characterized in that it comprises a plurality of level switches (70) for displaying the flow rate measured by a).