KR101125863B1 - A Processing Apparatus for Wastewater Treatment having a condenser - Google Patents

Abstract

The present invention is a wastewater treatment with multiple condensers to efficiently separate low-boiling materials such as aldehydes, esters, methanol and acetone, which causes high concentrations of COD and BOD, by recycling wastewater steam heat and employing multiple condensers. Relates to a device.

The apparatus includes a wastewater storage tank (100) in which the first treated wastewater is introduced and stored, a separation means (500) for heating the wastewater from the wastewater storage tank (100) to separate the steam and the concentrated wastewater, and storing the concentrated wastewater. A sedimentation tank (waste water circulation system) 300, a first condenser 210 for condensing steam, a first gas-liquid separator 211 separating the condensed first condensed water and steam not condensed in the first condenser 210, and A first condensate storage tank 230 for storing the first condensed water separated from the first gas liquid separation tank 211, and a second condenser 220 for condensing the steam separated from the first gas liquid separation tank 211 again; A second gas-liquid separation tank 221 separating the non-condensed steam from the second condenser 220 and the second condensed water condensed, and a second condensed water separated from the second gas-liquid separation tank 221. And a vacuum pump 270 for sucking and discharging steam separated from the second gas-liquid separation tank 221. .

The wastewater treatment apparatus of the present invention purifies the wastewater by heating the wastewater, separating the steam and concentrated wastewater generated therefrom, condensing the separated steam, and condensing the condensed water and the uncondensed steam from the condensed water. Increase the efficiency

Wastewater, steam, steam, concentration, heating

Description

A Processing Apparatus for Wastewater Treatment having a condenser

According to the present invention, the wastewater is evaporated and concentrated by heating the primary treated water from which the particulate matter is removed through the screen of the flocculant or the screen, and the dissolved solids of the concentrate are separated into sludge. The present invention relates to a wastewater treatment apparatus for separating, and more particularly, to a wastewater treatment apparatus for easily separating and treating a high concentration wastewater containing low boiling point substances such as wastewater and acetaldehyde in a thermal power plant.

In addition, the present invention is not only to improve the wastewater treatment efficiency by reusing steam and reused waste water vapor, but also to the wastewater treatment apparatus having a multi-stage condenser to improve the purification efficiency by repeatedly condensing and discharging the vaporized vapor. It is about.

In general, methods for purifying and treating industrial wastewater include a method of administering a flocculant to the wastewater so that the aggregated foreign matters are settled and removing the foreign matter contained in the wastewater through a screen.

In this way, the wastewater from which foreign matters are first filtered is supplied to a secondary treatment facility, and the wastewater is heated and evaporated to sludge the dissolved solids.

An example wastewater treatment apparatus is disclosed in Korean Patent Registration No. 0870449 and shown in FIG. 1.

The condensation unit 20 includes a chamber 10, a condensation unit 20 including a cooling tube through which a low temperature fluid flows, and a condensate receiver 30 and a condensate tank 60 to receive condensate generated on the surface of the cooling condensation due to condensation. And a cooling tower 40 for circulating and supplying the cooling water to the cooling tube, and a waste water heating unit 50 for heating the waste water and supplying it into the chamber 10.

When the heated wastewater passes through the inside of the chamber 10, water vapor generated from the wastewater is condensed on the outer circumferential surface of the cooling pipe so that a certain amount of water in the wastewater is reduced, and the remaining wastewater is recovered to the wastewater tank 70 and the wastewater. By repeatedly circulating the heating unit 50 and the chamber 10, the waste water is vaporized and condensed to finally discharge only a small amount of sludge.

However, in the above apparatus, since the steam of the wastewater heated by the wastewater heating unit 50 is condensed and discharged in the chamber 10 as it is, the steam heat of the generated wastewater cannot be recycled. Accordingly, not only the energy consumption for heating the wastewater increases, but also the number of repetitive circulations of the wastewater circulating in the wastewater tank 70, the wastewater heater 50, and the chamber 10 increases the wastewater treatment time.

In addition, the conventional apparatus as described above is not condensed in the condensation unit 20 in the chamber 10 and the remaining vapor is joined with the waste water at the bottom of the chamber 10 to be circulated, which is disadvantageous in shortening the waste water treatment time. It works.

The present invention has been made to solve the above problems, to provide a wastewater treatment apparatus having a condenser to shorten the wastewater treatment time and improve the purification efficiency.

Another object of the present invention is to provide a wastewater treatment apparatus having a condenser that saves energy for heating wastewater and heats the wastewater more efficiently to enable efficient use of a heat source.

It is another object of the present invention to provide a wastewater treatment apparatus having a condenser for efficiently separating low-boiling substances such as aldehydes, esters, methanol, and acetone, which cause high concentrations of COD and BOD, from wastewater steam. .

Another object of the present invention is not only to more easily separate the steam and concentrated wastewater from the heated wastewater, but also to efficiently separate low-boiling materials that can be included in the condensate to separate the condensate containing a high concentration of COD and the condensate containing a low concentration of COD The present invention provides a wastewater treatment apparatus having a multi-stage condenser that can reduce the load of a subsequent treatment process facility by treating.

In the present invention to achieve the above object, in the wastewater treatment apparatus for treating wastewater from which particulate matter is removed through the administration of a flocculant or a screen,

A wastewater storage tank for storing the wastewater; Separating means for heating the wastewater from the wastewater storage tank to separate the steam and the concentrated wastewater; A settling tank (waste water circulation facility) for storing the concentrated waste water; A first condenser for condensing the vapor; A first gas-liquid separation tank separating the non-condensed vapor from the first condenser and the condensed first condensed water; A first condensate storage tank for storing the first condensate separated from the first gas-liquid separation tank; A second condenser for condensing the vapor separated from the first gas-liquid separation tank again; A second gas-liquid separation tank separating the non-condensed steam from the second condenser and the condensed second condensed water; A second condensate storage tank for storing the second condensate separated by the second gas-liquid separation tank; And a vacuum pump for sucking and discharging the steam separated from the second gas-liquid separation tank.

In the device of the present invention, the separating means is formed in the vertical direction long and at least one of the first wastewater pipe to which the wastewater of the wastewater storage tank is supplied from the upper end, the first steam pipe surrounding the first wastewater pipe, A first heat exchange unit having a steam supplyer for supplying steam as a heating source to heat the first waste water pipe inside the first steam pipe; A first concentration tank coupled to a lower end of the first waste water pipe, into which heated wastewater flows from the first heat exchange unit; A first gas-liquid separation tank into which water vapor of the wastewater generated in an upper portion of the first concentration tank flows; Waste water vapor from the first gas-liquid separation tank surrounding at least one second waste water pipe and the second waste water pipe, the concentrated waste water being supplied to the lower portion of the first concentration tank and the first gas-liquid separation tank and extending in a vertical direction. A second heat exchange unit having a second steam pipe through which heat is introduced to heat the second waste water pipe; A second concentrating tank coupled to a lower end of the second wastewater pipe to introduce heated wastewater from the second heat exchange unit; And a second gas-liquid separation tank into which water vapor of the wastewater generated in the upper portion of the second concentration tank is introduced and supplies the introduced water vapor to the first condenser.

In addition, the present invention is connected to the supply line so that a portion of the steam and the vacuum pressure in the first steam pipe is supplied to the second steam pipe, the steam of the steam supply is supplied between the second steam pipe and the steam supplier. Characterized in that the second supply line is further connected.

In addition, the apparatus of the present invention is connected to the first steam pipe and the first condensed water storage tank to the discharge line, when the steam pressure in the first steam pipe is higher than the set pressure, the steam of the first steam pipe through the discharge line 1 discharge to the condensate reservoir,

The steam of the first condensed water storage tank is supplied to the first condenser to be condensed again.

In addition, the apparatus of the present invention is characterized in that the non-condensed steam in the condensate stored in the second condensate storage tank is supplied to the second condenser to condense again.

The apparatus of the present invention reduces the energy consumption by using the steam heat of the waste water, which has been heated and evaporated through the steam of the steam supplier, to heat and evaporate the waste water. In particular, the present invention makes it possible to efficiently separate low-boiling substances such as aldehydes, esters, methanol and acetone, which cause high concentrations of COD and BOD, for reuse of wastewater steam heat.

The apparatus of the present invention heats the wastewater, separates the steam generated from the concentrated wastewater, and condenses the separated steam, and condenses and discharges the condensed and uncondensed steam from the condensed water. Increase

In addition, by forming the first and second heat exchange units, which are employed in the apparatus, up and down in length, the waste water is moved downward by gravity and simultaneously heated by steam heat. The waste water vapor is formed to simplify the separation of steam and concentrated wastewater.

The wastewater treatment apparatus according to the embodiment of the present invention is an apparatus for purifying and treating industrial wastewater and the like, and is a device for secondarily treating wastewater in which foreign substances contained in the wastewater are primarily treated by the administration of a flocculant or a mechanical screen device.

In the wastewater treatment apparatus of the present invention, the dissolved sludge is concentrated and separated by heating and evaporating the wastewater, in which the foreign matter is filtered first, and the low-boiling substances are separated by discharging the vaporized vapor through a plurality of condensers, thereby improving the purification efficiency of the wastewater. Increase

In particular, the wastewater treatment apparatus of an embodiment of the present invention enables efficient separation of low boiling point materials such as aldehydes, esters, methanol and acetone, which cause high concentrations of COD and BOD.

In addition, the apparatus of the present invention is provided with a plurality of condenser to separate the condensate is required for a high concentration of COD and the condensate is required for a low concentration of COD, thereby reducing the load of the subsequent process facility.

Referring to Figure 2 showing the wastewater treatment apparatus of the present invention, it is the wastewater storage tank 100 and the wastewater storage tank 100 is stored and flows into the first treated wastewater, steam and concentrated wastewater by heating the wastewater from the wastewater storage tank 100 Separation means 500 for separating into the water, a sedimentation tank for storing the concentrated wastewater (waste water circulation facility; 300), the first condenser 210 for condensing the steam, and not condensed in the first condenser 210 A first gas-liquid separation tank 211 separating the first condensed water condensed with steam, a first condensed water storage tank 230 storing the first condensed water separated from the first gas-liquid separation tank 211, and the first condensed water; A second condenser 220 for condensing the vapor separated from the gas-liquid separation tank 211 and a second gas-liquid separation tank 221 for separating the condensed second condensed water and steam not condensed in the second condenser 220. ) And a second condensate for storing the second condensed water separated from the second gas-liquid separation tank 221. It can inhale the vapors separated in the storage tank 250 and the second liquid branch group separation tank 221 and a vacuum pump 270 for discharging.

The first and second condensers 210 and 220 have a structure in which a steam flowing through the installation of the cooling water flows to condense, and the first and second separation tanks 211 and 221 are vertically installed up and down. As a result, the condensed water condensed into the lower portion and the uncondensed steam is raised.

Referring to FIG. 3, the separating means 500 is formed to extend in the vertical direction and at least one first wastewater pipe 111 to which wastewater of the wastewater storage tank 100 is supplied from an upper end thereof, and the first wastewater pipe ( A first steam pipe 112 surrounding the 111 and a steam supplier 150 for heating the first waste water pipe 111 by supplying steam as a heating source inside the first steam pipe 112. A first heat exchange unit (110); A first concentration tank 113 coupled to a lower end of the first wastewater pipe 111 and into which the wastewater heated from the first heat exchange unit 110 flows; A first gas-liquid separation tank 114 into which water vapor of the wastewater generated in an upper portion of the first concentration tank 113 flows; The at least one second wastewater pipe 121 and the second wastewater pipe 121 are formed to be provided in the lower portion of the first concentration tank 113 and the first gas-liquid separation tank 114 and elongate in the vertical direction. A second heat exchange unit (120) having a second steam pipe (122) for wrapping the waste water vapor from the first gas-liquid separation tank (114) and heating the second waste water pipe (121); A second concentration tank 123 coupled to a lower end of the second waste water pipe 121 and into which waste water heated from the second heat exchange unit 120 flows; And a second gas-liquid separation tank 124 for supplying the introduced water vapor to the first condenser 210 and introducing water vapor generated in the upper portion of the second concentration tank 123.

In addition, the device of the embodiment of the present invention is connected to the supply line 115 so that a portion of the steam and the vacuum pressure in the first steam pipe 112 is supplied to the second steam pipe 122, the second steam pipe ( A second supply line 117 through which the steam of the steam supplier 150 is supplied is connected between the 122 and the steam supplier 150.

In addition, when the first steam pipe 112 and the first condensed water storage tank 230 are connected to the discharge line 116, the steam pressure in the first steam pipe 112 is higher than the set pressure and the steam condensed water is discharged. Steam and steam condensed water of the first steam pipe 112 through the line 116 to be discharged to the first condensed water storage tank 230, the steam of the first condensed water storage tank 230 is the first condenser 210 To be condensed again.

In addition, the non-condensed steam in the condensed water stored in the second condensed water storage tank 250 is supplied to the second condenser 220 to be condensed again, and the steam separated from the second gas-liquid separation tank 221 It is sucked by the vacuum pump 270 and discharged for the third treatment such as odor prevention treatment.

The wastewater treatment apparatus of the present invention having the above configuration is operated as follows.

2 and 3, the waste water treated as above is introduced into and stored in the wastewater storage tank 100, and high temperature steam is supplied to the first steam pipe 112 through the steam supplier 150. .

Subsequently, the wastewater is supplied from the lower portion of the wastewater storage tank 100 to the first wastewater pipe 111 of the first heat exchange unit 110 by the wastewater supply pump 101 and flows downward. The waste water of the first wastewater pipe 111 is heated by the high temperature steam supplied to.

The heated wastewater is partially evaporated and partially condensed in the first concentration tank 113, and the concentrated wastewater is supplied to the second wastewater pipe 121 by the first wastewater circulation pump 130.

In addition, the wastewater vapor evaporated in the first concentration tank 113 is collected by the first gas-liquid separation tank 114, some of the steam collected in the first gas-liquid separation tank 114 is condensed, and the concentrated wastewater is the first concentration tank. Along with the wastewater concentrated in the 113 is supplied to the second wastewater pipe 121 by the first wastewater circulation pump (130).

On the other hand, the wastewater vapor supplied to the first gas-liquid separation tank 114 is supplied to the second steam pipe 122 through a duct above the first gas-liquid separation tank 114, the wastewater flowing through the second wastewater pipe 121 Will be heated again.

In addition, between the second steam pipe 122 and the steam supplier 150 is further connected to the second supply line 117 to which the steam of the steam supplier 150 is supplied to be heated to a higher temperature.

The wastewater heated again in the second wastewater pipe 121 is partially concentrated by evaporation in the second concentration tank 123, and the concentrated wastewater is supplied to the settling tank 300 by the second wastewater circulation pump 230. .

In addition, the wastewater vapor evaporated in the second concentration tank 123 is collected by the second gas-liquid separation tank 124, some of the steam collected in the second gas-liquid separation tank 124 is condensed, and the concentrated wastewater is The wastewater concentrated in the two concentration tanks 123 is supplied to the settling tank 300 by the second wastewater circulation pump 230.

Wastewater concentrate sludge precipitated in the settling tank 300 is dried in a drying apparatus (not shown), which is a concentrate treatment facility, through a concentrate transfer pump 301, and dehydrated to be caked.

On the other hand, the waste water vapor evaporated in the second gas-liquid separation tank 124 is introduced into the first gas-liquid separation tank 211 via the first condenser 210, the lower portion of the first gas-liquid separation tank 211 The collected first condensed water is collected by the first condensed water storage tank 230 and discharged by the first condensed water discharge pump 240 through a third process such as chemical treatment for removing odor.

In addition, the steam collected in the upper portion of the first gas-liquid separation tank 211 is introduced into the second condenser 220 is condensed again.

In addition, when the first steam pipe 112 and the first condensed water storage tank 230 is connected to the discharge line 116, the steam line and the steam condensate in the first steam pipe 112 is greater than the set pressure, the discharge line The steam of the first steam pipe 112 is discharged to the first condensed water storage tank 230 through 116, and the steam of the first condensed water storage tank 230 is supplied to the first condenser 210 again. Condensation.

The steam passing through the second condenser 220 is further separated from the second gas-liquid separation tank 221 into steam and the second condensed water.

The second condensed water collected in the lower portion of the second gas-liquid separation tank 221 is collected in the second condensed water storage tank 250 and is treated by the second condensed water discharge pump 260 for chemical treatment, recycling or incineration for odor removal. Discharged.

In the second condensed water storage tank 250, low boiling point materials (eg, aldehydes, kedons, benzenes) having a low boiling point temperature (depending on evaporation pressure, but usually about 50 to 70 ° C.) are condensed.

In addition, the vapor collected in the upper portion of the second gas-liquid separation tank 221 is sucked by the vacuum pump 270 is discharged into the atmosphere after the chemical treatment or tertiary treatment (advanced treatment) to remove the odor.

The wastewater treatment apparatus of the present invention as described above can efficiently separate low-boiling materials such as aldehydes, esters, methanol and acetone, which cause high concentrations of COD and BOD, by reusing wastewater steam heat and passing through multiple condensers. To be.

In addition, the apparatus of the present invention is to separate the low-boiling material by heating the waste water, separating the steam generated from the concentrated wastewater, and then condensing the separated steam and by condensing the condensed water and the non-condensed steam again from it. And improve the efficiency of wastewater discharge.

In addition, the wastewater is heated through the steam of the steam supplier 150, and by using the steam heat of the heat evaporated wastewater to heat the wastewater again to evaporate to reduce energy consumption.

In addition, by forming the first and second heat exchange unit (110, 120) vertically long employed in the device, the waste water is moved downward by gravity and heated by steam heat at the same time, the first and second concentration tank 113 The concentrated wastewater is concentrated at the bottom of the 123 and the wastewater vapor is formed at the top to simplify the separation of the steam and the concentrated wastewater.

1 is a schematic view showing a conventional wastewater treatment apparatus,

2 is a schematic view showing the wastewater treatment apparatus of the present invention;

3 is a detailed view of FIG. 2.

Claims (5)

A wastewater treatment apparatus for treating wastewater from which particulate matter has been removed through administration of a flocculant or a screen, A wastewater storage tank 100 in which the wastewater is stored; Separating means for heating the wastewater from the wastewater storage tank 100 into steam and concentrated wastewater; A settling tank 300 for storing the concentrated wastewater; A first condenser for condensing the steam; A first gas-liquid separation tank 211 separating the condensed first condensed water and steam not condensed in the first condenser 210; A first condensed water storage tank 230 for storing the first condensed water separated from the first gas-liquid separation tank 211; A second condenser 220 for condensing the vapor separated from the first gas-liquid separation tank 211 again; A second gas-liquid separation tank 221 separating the condensed steam and the condensed second condensed water from the second condenser 220; A second condensed water storage tank 250 for storing the second condensed water separated from the second gas-liquid separation tank 221; And a vacuum pump 270 that sucks and discharges the steam separated by the second gas-liquid separation tank 221, The separating means is formed long in the vertical direction and at least one first wastewater pipe 111 to which the wastewater of the wastewater storage tank 100 is supplied from an upper end thereof, and a first steam that accommodates the first wastewater pipe 111. A first heat exchange unit (110) having a pipe (112) and a steam supplier (150) for supplying steam as a heating source inside the first steam pipe (112) to heat the first wastewater pipe (111). Wow; A first concentration tank 113 coupled to a lower end of the first wastewater pipe 111 and into which the wastewater heated from the first heat exchange unit 110 flows; A first gas-liquid separation tank 114 into which water vapor of the wastewater generated in an upper portion of the first concentration tank 113 flows; The at least one second wastewater pipe 121 and the second wastewater pipe 121 are formed to be provided in the lower portion of the first concentration tank 113 and the first gas-liquid separation tank 114 and elongate in the vertical direction. A second heat exchange unit (120) having a second steam pipe (122) for receiving the waste water vapor from the first gas-liquid separation tank (114) and heating the second waste water pipe (121); A second concentration tank 123 coupled to a lower end of the second waste water pipe 121 and into which waste water heated from the second heat exchange unit 120 flows; And a second gas-liquid separation tank 124 for introducing the steam of the wastewater generated in the upper portion of the second concentration tank 123 and supplying the introduced steam to the first condenser 210. Part of the steam and the vacuum pressure in the first steam pipe 112 is connected to the supply line 115 to be supplied to the second steam pipe 122, Wastewater treatment apparatus having a multi-stage condenser is connected between the second steam pipe (122) and the steam supplier 150, the second supply line 117 is supplied with the steam of the steam supplier (150). delete delete According to claim 1, wherein the first steam pipe 112 and the first condensed water storage tank 230 is connected to the discharge line 116, the steam pressure in the first steam pipe 112 is greater than the set pressure and steam When condensate is generated, the steam and steam condensed water of the first steam pipe 112 are discharged to the first condensed water storage tank 230 through the discharge line 116. The steam of the first condensed water storage tank 230 is supplied to the first condenser 210 to condense again, wastewater treatment apparatus having a multi-stage condenser. The wastewater treatment apparatus of claim 1, wherein the non-condensed steam in the condensate stored in the second condensate storage tank 250 is supplied to the second condenser 220 to be condensed again. .

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