KR101466163B1 - Pharmaceutical waste water treatment unit - Google Patents

Abstract

The present invention relates to a wastewater treatment apparatus for a pharmaceutical company for efficiently treating wastewater produced from a pharmaceutical company, and specifically to a pharmaceutical wastewater treatment apparatus which can continuously treat wastewater every time the wastewater is produced, uses steam while minimizing heat loss by being formed in a double pipe structure, and includes a self purification unit to easily remove residue deposited inside the pipe. In other words, the wastewater treatment apparatus for a pharmaceutical company comprises a wastewater storage tank (2) for storing wastewater; a pipe (3) connected between the wastewater storage tank (2) and a wastewater disposal plant to discharge the wastewater from the wastewater storage tank (2) to the wastewater disposal plant; and a heat treatment unit (1) formed on the middle of the pipe (3) to sterilize wastewater with high temperature steam.

Description

Pharmaceutical waste water treatment unit

The present invention relates to a pharmaceutical company wastewater treatment apparatus for efficiently treating wastewater generated by a pharmaceutical company, and is capable of continuously treating wastewater every time the wastewater is generated, while minimizing heat loss by using steam, The present invention relates to a pharmaceutical wastewater treatment apparatus which is equipped with a self-cleaning facility and is capable of easily removing debris accumulated in piping.

Wastewater from the chemical and pharmaceutical industries typically contains residues of synthetic by-products, solvents, and intermediates that are not biodegradable and toxic to the general environment and the water system.

Results for the aquatic environment are reported to be related to inadequate pharmaceutical waste disposal and the limited efficiency of traditional wastewater treatment for these compounds.

If conventional biological wastewater treatments have limited degradation efficiencies, traditional and advanced chemical oxidation treatments such as advanced oxidation treatments will be of considerable benefit because they are known to partially degrade and oxidize many organic contaminants.

However, the advanced oxidation treatment process is only applied in a very limited field because of the high cost of the process, which is difficult to apply commercially.

In particular, pharmaceutical company wastewater generated in the process of producing antibiotics, vaccines and the like is susceptible to infectious or other harmful substances, so it must be completely sterilized and then discharged to the factory.

In the United States, a case of pharmaceutical company wastewater discharge and pollution of drinking water sources reported that 271 million pounds of drug-filled wastes were being thrown away by rivers and lakes by neighboring rivers and lakes, "He said.

Although most wastewater from pharmaceutical manufacturing companies contains a large amount of antibiotic seizure inhibitor, neurotrophic hormone, etc., most cities and water distribution companies are not strictly regulated,

According to scientists investigating water pollution, about 250 million pounds of unused medicines are being used each year in hospitals, and there are also people who take medicines left over to the toilet.

In recent years, there have been a lot of researches about sterilization treatment methods of pharmaceutical wastewater.

Methods for sterilization of wastewater include biological and chemical treatment methods and heat treatment methods. In order to sterilize wastewater from a pharmaceutical company, a heat treatment method that heats the microorganisms to a temperature at which the microorganisms die is mainly used.

The conventional heat treatment method has a plurality of reservoirs, and when the pharmaceutical wastewater is filled in the reservoir, heat is applied to the reservoir to sterilize the pharmaceutical company wastewater filled in the reservoir at a time. In such a method, The sterilization process is started after the wastewater is filled in the storage tank and the pharmaceutical company wastewater generated during the sterilization process is collected and transported by using another storage tank and the equipment is complicated and the operation is very troublesome There was a problem that the sterilization process was not performed continuously.

In order to solve these problems, there has been proposed a method of sterilizing the periphery of piping by supplying steam to the piping while supplying pharmaceutical waste water to the piping. However, there is a problem that the consumption of steam is too large to maintain the cost, Accumulation in the piping is likely to accumulate in the piping, and the accumulation of accumulated wastes causes a problem in continuous discharge of wastewater, and the cleaning work is not easy, shortening the service life of the system.

These problems are an inherent problem of the steam heat treatment apparatus according to the prior art. As long as this problem is not solved, the use by many consumers is inevitable.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems,

A steam heat treatment method in which pharmaceutical waste water is supplied to a pipe while steam is used to heat and sterilize the piping periphery is used so that the wastewater heated by steam can be used for primary preheating By constructing a double pipe structure, it is aimed at minimizing heat loss and drastically reducing system operation cost.

In addition, it is another object of the present invention to provide a self-cleaning facility that can easily remove debris accumulated in piping, thereby enabling continuous discharge of wastewater and facilitating cleaning work.

To achieve the above object, in the present invention,

A waste water reservoir for storing wastewater, piping connected between the wastewater storage tank for discharging wastewater into the wastewater treatment plant, and a heat treatment part provided in the middle of the piping for sterilizing waste water with high temperature steam In a pharmaceutical company wastewater treatment apparatus,

A valve is provided in the lower part of the wastewater storage tank for controlling the opening and closing of the flow rate supply and a pump is provided in the pipe between the wastewater storage tank and the heat treatment unit so that the flow rate can be smoothly supplied,

The heat treatment section includes an inner tube (primary) and an inner tube (secondary) sequentially connected to the piping, and an inner tube (secondary), which is configured to surround the inner tube (Secondary) that is configured to discharge condensed water of steam at an end thereof, and a second-stage heat exchanger that is configured to surround the inner tube (primary), and at one end thereof, And an outer tube (secondary) 14 configured to be connected to a pipe connected to the wastewater treatment plant at the other end thereof.

In addition, in the state where the supply of the wastewater is stopped, the chemical solution diluted with water, acid, or alkali is supplied instead into the inside of the pipe, and at this time, the water or the chemical solution passes through the inner tube and the outer tube to remove the debris accumulated inside the pipe In order to do this,

Wherein the self-purification system comprises a water tank for supplying water into the pipe, a caustic soda liquid tank for supplying the caustic soda liquid, and a tank for supplying the acidic liquid, In order to make it possible to select whether to circulate continuously in the piping or to be discharged to the waste water reservoir when the debris accumulated in the pipe is removed while passing through the tube, the distance between the discharge end of the outer tube (primary) The pipe is connected to the waste water reservoir. Another pipe is branched and connected to the waste water reservoir. A valve is provided at a rear portion of the branch pipe to which the pipe is branched. Another pipe is branched between the pipe and the pipe on the inflow side. And a valve and a valve are respectively provided at a rear end of a branch point between the pipe and the pipe.

As described above, according to the present invention, the following effects can be obtained.

A steam heat treatment method in which pharmaceutical waste water is supplied to a pipe while steam is used to heat and sterilize the piping periphery is used so that the wastewater heated by steam can be used for primary preheating By constructing with a double pipe structure, it is possible to minimize the heat loss and greatly reduce the operating cost of the system.

In addition, since there is provided a self-cleaning facility to easily remove debris accumulated in the piping, there is a technical effect that the waste water can be discharged continuously and the cleaning operation can be easily performed.

1 is a schematic configuration diagram of a pharmaceutical company wastewater treatment apparatus according to the present invention,
FIG. 2 is an enlarged view of only the heat treatment section in FIG. 1,
FIG. 3 is an enlarged view of only the self-cleaning equipment in FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention and to fully disclose the scope of the invention to a person having ordinary skill in the art to which the present invention belongs. And the present invention is only defined by the scope of the claims.

Accordingly, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

Like reference numerals refer to like elements throughout the specification. And, the terms used (hereafter) used herein are intended to illustrate the embodiments and are not intended to limit the invention in any way. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. Also, components and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other components and operations.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

Hereinafter, the technical features of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a pharmaceutical company wastewater treatment apparatus according to the present invention,

Basically, the pharmaceutical company wastewater treatment apparatus according to the present invention comprises a wastewater storage tank 2 for storing wastewater, a pipe 3 connected between the wastewater storage tank 2 and the wastewater storage tank 2 for discharging the wastewater into the wastewater treatment plant, , And a heat treatment unit (1) provided in the middle of the pipe (3) for sterilizing the wastewater with high temperature steam,

A valve 4a for opening and closing the flow rate supply is provided in the lower part of the wastewater reservoir 2. A pipe between the wastewater reservoir 2 and the heat treatment unit 1 is supplied with a flow rate smoothly A pump 6 is provided.

Fig. 2 is an enlarged view of only the heat treatment section in Fig. 1,

The heat treatment section 1 includes an inner tube (primary) 11 and an inner tube (secondary) 12, which are sequentially connected to the pipe 3, and an inner tube An outer tube (secondary) 14 constituted so as to surround the inner tube (primary), one end of which is configured to receive steam and the other end to discharge condensed water of steam, And an outer tube (secondary) 14 which is configured such that heated wastewater discharged from the inner tube (secondary) flows and the other end is connected to a pipe connected to the wastewater treatment plant.

The piping used in the heat treatment unit 1 is composed of the inner tubes 11 and 12 and the outer tubes 13 and 14,

The steam of 120 to 180 ° C flows into the outer tube (secondary) 14 surrounding the inner tube (secondary) 12, so that the wastewater passing through the inner tube (secondary) 12 flows from 80 to 120 (1 st) (11), since the wastewater is not directly discharged to the wastewater treatment plant but is supplied to the outer tube (primary) 13 wrapping the inner tube (primary) ), The wastewater is preheated to 50-80 < 0 > C.

Therefore, since the wastewater preheated to 50 to 80 占 폚 is sterilized by steam in the inner tube (secondary) 12, the amount of steam used can be reduced and the heat loss can be minimized.

The steam introduced into one end of the outer tube (secondary) 14 has an initial temperature of 120 to 180 ° C. However, since the heat is transferred to the wastewater in the inner tube (secondary) 12 while passing through the inside thereof, And discharged to the other side of the outer tube (secondary) 14 as condensed water.

The temperature of the wastewater fed from the wastewater reservoir 2 to the inner tube (primary) 11 is 10 to 30 ° C., but the outer tube (primary) (primary) 13), it is heated to 50 to 80 ° C. when it is supplied to the inner tube (secondary) 12, and while being heated by the inner tube (secondary) 12, Is heated by the steam inside the outer tube (secondary) 14, so that when it is supplied to the outer tube (primary) 13, it is heated to 80 to 120 ° C. At this time, .

In the process of discharging the wastewater after the heat treatment, the valve 4a for controlling the supply of the fluid from the wastewater reservoir 2 is in the open state, and the pipe (secondary) 14 connected to the wastewater treatment plant The valve 4e located between the waste water storage tank 2 and the inner tube (primary) 11 will be in a running state.

Meanwhile, in the pharmaceutical company wastewater treatment apparatus according to the present invention, a self-purification facility 5 is separately provided so that the inside of the piping can be easily cleaned.

FIG. 3 is an enlarged view of only the self-cleaning equipment in FIG. 1, which will be described in detail as follows.

The self-purification equipment 5 supplies a chemical solution diluted with water, an acid, and an alkali to the inside of the pipe 3 while water or a chemical solution is supplied to the inner tubes 11 and 12, And the outer tubes 13 and 14 while removing the debris accumulated in the inside of the pipe.

That is, the self purification apparatus 5 includes a water tank 51 for supplying water into the pipe, a caustic soda liquid tank 52 for supplying caustic soda liquid, a tank 53 for supplying the acidic liquid, When water or a chemical liquid passes through the inner tubes 11 and 12 and the outer tubes 13 and 14 and the debris accumulated in the piping is removed, the water or the chemical liquid is continuously circulated in the piping, Another pipe 7 is branched in the pipe 3 'between the discharge end of the outer tube (primary) 13 and the wastewater treatment plant so as to be able to select whether to be discharged to the storage tank 2, And a valve 4d is provided at the rear of the branched pipe 7 and another pipe 8 is connected between the pipe 7 and the pipe 3 on the inflow side of the wastewater. And a valve 4b and a valve 4c are provided at the rear end of the branch point between the pipe 7 and the pipe 8, It is provided.

The self-cleaning equipment 5 is for cleaning the inside of the pipe. In the water tank 51, cold water or hot water is supplied. In the first step of cleaning the inside of the pipe,

In the caustic soda tanks 52, a caustic soda liquid having a concentration of about 2% is supplied, which is used in step 2 of cleaning the interior of the piping to remove organic waste in the piping.

In the acidic liquid tank 53, an acidic liquid (dilute hydrochloric acid aqueous solution, etc.) of about 2% concentration is supplied. In step 3 of cleaning the inside of the piping, it is used to remove inorganic impurities in the piping.

Since the wastewater supply and the heat treatment process must be stopped while the self purification apparatus 5 is operating, the valve 4a for controlling the opening and closing of the wastewater storage tank 2 is closed and the supply of steam in the heat treatment unit 1 is stopped The water tank 51 on the side of the self purification apparatus 5, the caustic soda liquor tank 52 and the acidic liquid tank 53 are sequentially opened in the pipe 3 so that water, caustic soda liquid, (12) and the outer tubes (13) and (14).

That is, in the water cleaning process which is the first step of the self-purification process, the opening / closing valve 4a is closed so that the wastewater from the waste water storage tank 2 is no longer supplied into the pipe,

The wastewater treatment-side valve 4e is closed and the wastewater storage-side valve 4b (4d) is opened so that the wastewater inside the pipe can be discharged to the wastewater storage tank 2 without being discharged to the wastewater treatment plant .

Further, in the caustic soda solution cleaning process, which is the second step of the self-purification process, the valve 4a is kept closed,

The waste water treatment side valve 4e is closed and the wastewater storage side valve 4b (4d) is opened so that caustic soda liquid in the piping can be discharged to the waste water storage tank 2 without being immediately discharged to the waste water treatment plant .

The wastewater storage side valve 4b is closed and the circulation side valve 4c is opened so that the caustic soda liquid can not be discharged to the wastewater storage tank 2 and circulated inside the piping can be repeated before cleaning As shown in FIG.

The valves 4a, 4b, 4c, 4d, and 4e are automatically controlled by the program in accordance with the wastewater heat treatment process and the self-purification process (water cleaning, caustic soda cleaning, acid cleaning).

The thus constituted pharmaceutical company wastewater treatment apparatus according to the present invention will operate in the following process.

First, when the wastewater storage tank 2 is filled with a certain amount of wastewater, the wastewater heat treatment process is started. When the valve 4a is opened and the pump 6 is operated, wastewater is supplied into the piping of the heat treatment unit 1 In addition,

The supplied wastewater flows to the wastewater treatment plant side via the inner tube (primary) 11, the inner tube (secondary) 12 and the outer tube (primary) 13,

The steam passing through the inner tube (secondary) 12 passes through the outer tube (secondary) 14 surrounding the inner tube (secondary) 12, so that the wastewater passing through the inner tube (secondary) And the wastewater discharged from the inner tube (secondary) 12 flows through the outer tube (primary) 13 surrounding the inner tube (primary) 11 During the passage, the wastewater in the inner tube (primary) 11 is preheated to 50 to 80 캜 and cooled to some extent and then exits to the wastewater treatment plant side pipe 3 '

At this time, since the wastewater storage tank side valve 4d is closed and the wastewater treatment side valve 4e is opened, the wastewater can be discharged to the wastewater treatment plant in a somewhat cooled state after being sterilized.

After the wastewater storage tank 2 is emptied to a certain extent through the heat treatment process of the wastewater, it is necessary to start the self-purification facility to remove the debris accumulated in the pipe,

The wastewater storage tank side valve 4a is closed to prevent the wastewater from being further supplied from the wastewater storage tank 2,

Water is supplied from the water tank 51 to the inside of the pipe 3 to wash the pipe while the wastewater treatment side valve 4e is closed and the wastewater storage side valves 4b and 4d are opened The wastewater inside the pipe is discharged to the wastewater storage tank 2 through the pipe 3 'and the pipe 7.

After the pipe is flushed, the caustic soda liquid is supplied from the caustic soda tank 52 to the inside of the pipe 3. At this time, the wastewater treatment-side valve 4e is closed and the valve 4d and the circulating valve The caustic soda solution passing through the inside of the pipe is not discharged to the wastewater treatment plant or the wastewater storage tank 2 but is circulated in the piping and is repeatedly cleaned since the wastewater storage tank side valve 4c is opened and the wastewater storage tank side valve 4b is closed .

When the inside of the pipe is sufficiently cleaned with the caustic soda liquid as described above, the circulating valve 4c is closed and the wastewater storage tank side valve 4b is opened, so that the contaminated caustic soda liquid is completely discharged into the waste water storage tank 2 Out.

After the pipe is cleaned with the caustic soda liquid as described above, the acidic liquid is supplied from the acidic liquid tank 53 to the inside of the pipe 3. At this time, the wastewater treatment side valve 4e is closed and the valve 4d and the circulation Side valve 4c is opened and the wastewater storage tank side valve 4b is in a closed state. Therefore, the acidic liquid passing through the inside of the pipe is not discharged to the wastewater treatment plant or the waste water storage tank 2, .

After the inside of the pipe is sufficiently cleaned with the acidic liquid as described above, the circulating valve 4c is closed and the waste water storage tank side valve 4b is opened, so that the contaminated acid liquid is discharged to the waste water storage tank 2 .

After the inside of the pipe is cleaned with water, caustic soda solution and acidic liquid, the waste water in the waste water storage tank (2) will be filled with the contaminated washing water to a certain extent. I repeat.

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 exemplary embodiments. As such, the present invention can be implemented by combining these. Accordingly, the invention is only defined by the scope of the claims set forth in the claims.

1: heat treatment part 2: waste water storage tank
3: piping 4a, 4b, 4c, 4d, 4e, 4f: valve
5: Self-cleaning equipment 6: Pump
51: water tank 52: caustic soda tank
53: Acid tank

Claims (7)

A waste water storage tank 2 for storing wastewater; a pipe 3 connected between the waste water storage tank 2 and the waste water storage tank 2 for discharging the wastewater to the wastewater treatment plant; And a heat treatment section (1) provided in the middle of the heating section (3)
A valve 4a for opening and closing the flow rate supply is provided in the lower part of the wastewater storage tank 2. A pipe between the waste water storage tank 2 and the heat treatment unit 1 is connected to a pump (6)
The heat treatment section 1 includes an inner tube (primary) 11 and an inner tube (secondary) 12, which are sequentially connected to the pipe 3, and an inner tube An outer tube (secondary) 14 constituted so as to surround the inner tube (primary), one end of which is configured to receive steam and the other end to discharge condensed water of steam, And an outer tube (secondary) 14 which is configured so that the heated wastewater discharged from the inner tube (secondary) flows in and the other end is connected to a pipe connected to the wastewater treatment plant,
The steam introduced into one end of the outer tube (secondary) 14 has an initial temperature of 120 to 180 ° C. However, since the heat is transferred to the wastewater in the inner tube (secondary) 12 while passing through the inside thereof, (Secondary) 14, and is discharged as condensed water,
The temperature of the wastewater fed from the wastewater reservoir 2 to the inner tube (primary) 11 is 10 to 30 ° C., but the outer tube (primary) (primary) 13), it is heated to 50 to 80 ° C. when it is supplied to the inner tube (secondary) 12, and while being heated by the inner tube (secondary) 12, Is heated by steam inside the outer tube (secondary) 14, so that it is heated to 80 to 120 ° C. when supplied to the outer tube (primary) 13. Processing device.
delete The method according to claim 1,
Water or a chemical solution diluted with an acid or alkali is supplied into the pipe 3 while water or a chemical solution is supplied to the inner tube 11 and the outer tube 13 Wherein a self-purification facility (5) is separately provided so that debris accumulated in the piping can be removed while passing through the piping (14).
The method of claim 3,
The self-purification unit 5 includes a water tank 51 for supplying water into the pipe, a caustic soda liquor tank 52 for supplying caustic soda liquid, and a tank 53 for supplying an acidic liquid When the water or the chemical liquid passes through the inner tubes 11 and 12 and the outer tubes 13 and 14 so as to remove the debris accumulated in the piping, the water or the chemical liquid is circulated continuously in the pipe, Another pipe 7 is branched in the pipe 3 'between the discharge end of the outer tube (primary) 13 and the wastewater treatment plant so as to be able to select whether the waste water is to be discharged to the waste water storage tank 2, And a valve 4d is provided at the rear of the branched pipe 7 and another pipe 8 is connected between the pipe 7 and the pipe 3 on the inflow side of the wastewater And a valve 4b and a valve 4c are connected to the downstream end of the branch point between the pipe 7 and the pipe 8 Pharmaceutical waste water treatment apparatus, characterized in that each been provided.
5. The method of claim 4,
Since the wastewater supply and the heat treatment process must be stopped while the self purification apparatus 5 is operating, the valve 4a for controlling the opening and closing of the wastewater storage tank 2 is closed and the supply of steam in the heat treatment unit 1 is stopped The water tank 51 on the side of the self purification apparatus 5, the caustic soda liquor tank 52 and the acidic liquid tank 53 are sequentially opened in the pipe 3 so that water, caustic soda liquid, (12) and the outer tubes (13) (14), wherein the inner tube (11), the inner tube (12) and the outer tube (13)
6. The method of claim 5,
In the water cleaning process as the first step of the self purification process and the caustic soda solution and the acid solution cleaning process as the second and third steps, the opening / closing control valve 4a is closed so that the wastewater from the waste water storage tank 2 is no longer supplied into the pipe ,
The wastewater treatment-side valve 4e is closed and the wastewater storage-side valve 4b (4d) is opened so that the wastewater inside the pipe can be discharged to the wastewater storage tank 2 without being discharged to the wastewater treatment plant Wherein the waste water treatment apparatus is a pharmaceutical waste water treatment apparatus.
The method according to claim 6,
In the caustic soda solution and the acid solution cleaning step 2 or 3 of the self-purification process,
The waste water storage tank side valve 4b is closed and the circulation side valve 4c is opened before the caustic soda liquid is discharged to the waste water storage tank 2 and can be circulated repeatedly while circulating inside the pipe Wherein the pharmaceutical wastewater treatment device comprises:

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