JP2003320237A - Method for adjusting mixing ratio of high-viscousity fluid into low viscous fluid - Google Patents

Abstract

(57) [Summary] (Modifications) [PROBLEMS] The present invention relates to a method of mixing a high-viscosity fluid into a low-viscosity fluid, and particularly to a method of mixing coal tar into cleaning water used for cooling coke oven gas. However, high-viscosity coal tar has a problem in controllability, and in particular, it has been difficult to mix a small amount of coal tar into the washing water. SOLUTION: In a method of mixing a low-viscosity fluid with a high-viscosity fluid in a flow passage 3 provided in a mixing and adjusting nozzle and adjusting a mixing ratio of the high-viscosity fluid, the low-viscosity fluid is upstream of a mixing and adjusting nozzle. When the high-viscosity fluid is introduced from the downstream side through the flow path 3 and discharged from the downstream side, and the high-viscosity fluid is introduced into the flow path downstream from the low-viscosity fluid supply position at a constant pressure, the flow rate of the low-viscosity fluid is reduced. A method for adjusting a mixing ratio of a high-viscosity fluid to a low-viscosity fluid, wherein the introduction rate of the high-viscosity fluid to a flow passage is controlled by controlling the mixture.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a method of mixing a high-viscosity fluid with a low-viscosity fluid, and is particularly used for cooling a coke oven gas (hereinafter, referred to as COG) discharged from a dry main of a coke oven. The present invention relates to a method for adjusting and controlling the amount of coal tar (high-viscosity fluid) mixed in wash clean water (low-viscosity fluid).

[0002]

2. Description of the Related Art The conventional COG ammonia treatment will be described below as an example. The ammonia contained in the COG was absorbed and removed by countercurrent contact with ammonium hydroxide for cleaning with an ammonia scrubber. In this case, in a cooling tower, an absorption tower or the like that handles a relatively clean gas, a highly efficient packed tower system has been used because the possibility of blockage in the tower is small. However, in the case of dirty COG, the COG (temperature 8
(0-85 ° C) contains naphthalene, and when the gas is cooled by washing clean water, naphthalene precipitates and sludge and crystals deposit and adhere to the filler of the ammonia scrubber. The problem of blocking occurs, the pressure loss in the column increases, and the amount of passing gas decreases significantly, so the empty column type was adopted.

As described above, as a conventional ammonia scrubber, a method of spraying wash water with a spray nozzle has been used. Further, since coal tar has an action of absorbing and removing naphthalene, it is possible to improve the absorption and removal ratio of naphthalene by adding and mixing coal tar in the wash water. Therefore, there has been proposed a method for efficiently removing naphthalene from COG by diluting coal tar with washing clean water and using it as a mixed washing clean water. For example, in patent 2607810, COG adopting the above-mentioned operation
Cooling method is described.

[0004]

The naphthalene contained in COG varies depending on the operating conditions of the coke oven.
Therefore, in order to efficiently remove the naphthalene contained in the gas with the wash water, it is necessary to adjust the amount of coal tar mixed (added) into the wash water according to the operating conditions.

[0005] For example, in winter, the cooling efficiency of the ammonia scrubber increases, the COG temperature drops, and the absorption removal rate of naphthalene improves, so that it is possible to reduce the amount of spray cleaning wash water and reduce the amount of coal tar mixed. be able to. On the contrary, in summer, the cooling efficiency of the ammonia scrubber is lower than in winter, so CO
Since the G temperature rises and the naphthalene absorption and removal rate decreases, it is necessary to increase the circulation amount of the spray-cleaning ammonium hydroxide and increase the amount of coal tar mixed.

However, since coal tar has a high viscosity (viscosity 100 cp (at 40 ° C.)) due to the sludge mixed in the coal tar itself and the coal tar, the amount of coal tar mixed in the wash clean water is controlled. It was extremely difficult to do. As mentioned above, mixing coal tar in the wash water has a problem in controllability of the coal tar amount because the viscosity of the coal tar is high, and it is especially difficult to mix a small amount of coal tar in the wash water. , The solution of this problem was a big problem in operation.

[0007]

The present invention has been made in order to solve the problems in the above-mentioned conventional method, and the gist of the invention lies in the following means. (1) In a method of mixing a low-viscosity fluid with a high-viscosity fluid in a flow passage provided in a mixing adjustment nozzle to adjust the mixing ratio of the high-viscosity fluid, the low-viscosity fluid is supplied from the upstream side of the mixing adjustment nozzle. Controlling the flow rate of the low-viscosity fluid when the high-viscosity fluid is supplied and discharged from the downstream side through the flow passage, and the high-viscosity fluid is introduced into the flow passage downstream from the low-viscosity fluid supply position at a constant pressure. A method of adjusting the mixing ratio of the high-viscosity fluid to the low-viscosity fluid, which adjusts the amount of the high-viscosity fluid introduced into the flow passage. (2) The high-viscosity fluid is introduced into the flow passage by an ejector by narrowing the flow passage below the position where the low-viscosity fluid is introduced and expanding the lower portion thereof to increase the flow velocity of the low-viscosity fluid in the throttle portion. (1) A method of adjusting the mixing ratio of a high-viscosity fluid to a low-viscosity fluid.

(3) An opening for introducing the high-viscosity fluid into the flow passage is provided in a slit shape in the peripheral wall of the flow passage, and the high-viscosity fluid is mixed from the periphery of the low-viscosity fluid (1) or (2). The method for adjusting the mixing ratio of the high-viscosity fluid to the low-viscosity fluid according to (4). (4) The method of adjusting the mixing ratio of the high-viscosity fluid to the low-viscosity fluid according to any one of (1) to (3), wherein the flow rate of the high-viscosity fluid is adjusted in a mixing adjustment nozzle. (5) The flow rate of the low-viscosity fluid is adjusted by a flow-rate control valve provided in a transport pipe that supplies the low-viscosity fluid to the mixing adjustment nozzle. (1) to (3) How to adjust the mixing ratio of high viscosity fluid.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION The present inventors have conducted various researches and studies on a method of mixing a high-viscosity fluid with a low-viscosity fluid, and as a result, rather than directly adjusting the high-viscosity fluid, The present invention was conceived based on the idea that if the flow rate of the high-viscosity fluid to be mixed can be controlled by adjusting the flow rate, the mixture amount of both fluids can be easily adjusted. It was

Hereinafter, an example will be described in which clean low-viscosity fluid (viscosity 0.9 cp (at 40 ° C.)) is used as the low-viscosity fluid and coal tar (viscosity 100 cp (at 40 ° C.)) is used as the high-viscosity fluid. As described above, in the ammonia scrubber for cooling the COG discharged from the dry main of the coke oven, coal tar is mixed in the cleaning ammonium water for removing ammonia sprayed by the scrubber. When mixing coal tar into the clean water for cleaning, a flow rate control valve for controlling the flow rate of the coal tar itself was used in the past, but it has the above-mentioned problems and causes problems. It was

Therefore, from the results of many experiments, the present inventors have found that in the present invention, the cleaning control is performed in the mixing control nozzle for mixing the ammonium hydroxide for cleaning and the coal tar without directly adjusting the flow rate of the coal tar. By adjusting the flow rate of cheap water, it is possible to control the flow rate of coal tar mixed in the wash safe water. That is, by controlling the valve opening of the mixing adjusting nozzle on the side of the low-water flow rate, the flow rate of low-cleansing water is adjusted to control the amount of coal tar to be mixed. In this case, a configuration is adopted in which an orifice having a constant inner diameter that allows only a predetermined flow rate to flow is installed below the mixing adjusting nozzle.

As a result, the amount of fluid passing through the orifice that flows through the orifice is inevitably the same as the amount of cleansing water + the amount of coal tar = constant, and if a large amount of coal tar is required, the amount of cleansing water must be reduced. Good luck,
On the contrary, if it is necessary to reduce the amount of coal tar, it is sufficient to increase the amount of safe wash water.

FIG. 1 shows an example of the relationship between the flow rate of wash cheap water and the amount of coal tar depending on the opening of a valve for adjusting the flow rate of wash clean water in the mixing adjusting nozzle. It has been shown that the coal tar flow rate changes depending on the valve opening operation. In order to control the flow rate of coal tar mixed in from this figure, it is possible to control the amount of coal tar mixed secondarily by changing the flow rate on the wash water side with good controllability. I know there is.

As an example of the mixing adjusting nozzle of the present invention, the overall structure is as shown in FIG. 2 (side sectional view), and it is about 7 k from the cleaning water supply part 2 of the mixing adjusting nozzle A.
Cleaning sewage having a pressure of g / cm ² is fed into the mixing control nozzle A, and the convex piston valve 1 is moved up and down by a cylinder (not shown), so that the squeezing part of the cleaning sewage flow passage 3 is narrowed. Adjust the opening (gap) of 3a by enlarging or reducing it. Therefore, the flow rate of flushing clean water changes according to the opening degree.

The flush water flow passage 3 has a structure that widens downward (in the direction in which flush flush water flows), and is designed so as to obtain a so-called ejector effect. It is supplied to the inside of the mixing control nozzle A via 2, and the flow passage 3 is narrowed in the lower part thereof, so that the speed of the wash water is increased. On the other hand, coal tar is supplied from the coal tar transport line 5 to the ring-shaped space 4 below the mixing control nozzle A at a pressure of about 2 kg / cm ² . For this reason, the coal tar is drawn from the slit-shaped opening 6 provided around the ring-shaped space 4 in the mixing adjusting nozzle A by the cleaning annunciated water whose flow velocity is accelerated, and is mixed into the cleaning annunciated water.

[0016] Here, it is necessary to maintain the relationship of wash cheap water> coal tar between the wash clean water and the pressure of coal tar. This is a condition necessary for allowing the coal tar to flow smoothly into the wash tar and has the purpose of preventing the wash tar from flowing back to the coal tar side.

In this way, the two fluids are mixed in the mixing section, the coal tar is diluted by the cleaning annulus water, passes through the orifice 7 provided at the lower portion, and is supplied to the circulating cleaning ananus water transport pipe 8. . At this time, the coal tar that has been suction-mixed with the wash water is diffused into the water and has a low concentration, so that the viscosity is lowered and the orifice 7 is not blocked. Needless to say, the orifice 7 must be provided downstream of the confluence (coal tar mixed part) of the wash water and coal tar. Further, the inner diameter of the orifice 7 is a value determined by the scale of the equipment, and if the capacity of the ammonia scrubber changes, only the orifice 7 is changed according to the change of the capacity of the ammonia scrubber. Can be easily adjusted.

FIG. 3 is a COG ammonia scrubber AS.
2 shows an example of the outline of the circulation system of the cleansing water for washing. When the COG is supplied to the lower part of the ammonia scrubber AS and rises, the COG is cooled by being countercurrently contacted with the washing clean water sprayed from the upper part and flowing down.
Is discharged from the top. As mentioned above, C
Coal tar is mixed to absorb and remove naphthalene in OG, and the naphthalene contained in COG is absorbed and removed by the coal tar in the sprayed wash water, and is washed with the wash water to the decanter D. It is taken out.

On the other hand, a part of the cleaning sewage is discharged from the lower portion of the ammonia scrubber AS to the circulation cleaning sewage transport pipe 8 as circulation cleaning sewage, and a mixing adjustment is provided at an appropriate position on the transport pipe 8 in the middle thereof. After mixing the coal tar due to the nozzle A, it is supplied to the upper part of the ammonia scrubber AS for cooling COG and absorbing naphthalene. Also,
The washed ammonium hydroxide is extracted to the ammonium hydroxide decanter D, and then coal tar is removed. Further, makeup water is supplied to the circulation cleaning low-water transport pipe 8 to maintain the overall balance of the cleaning low-water amount.
In the figure, P indicates a pump. Also, the mixing adjustment nozzle A
Although the cleansing anhydrite supplied to the above may be of a different system, it is preferable to use the one pumped up by the pump P.

In the above description, the flow rate of the low-viscosity fluid is adjusted in the mixing adjustment nozzle A, but the present invention is not limited to this, and the flow rate of the low-viscosity fluid can be adjusted by the low-viscosity fluid. Since the same effect can be obtained even by using the flow rate control valve 9 provided in the transport pipe for supplying the gas, it can be appropriately selected and implemented according to the equipment such as the arrangement of the device.

[0021]

EXAMPLES The present invention will now be described with reference to a dry coke oven of an actual machine.
The effect will be explained by an example applied to an ammonia scrubber for removing ammonia from COG that leaves the main.
The specifications of the mixing control nozzle are the inflow washing and depressurizing water pressure of 7 kg / cm.
² , flow rate 140 m ³ / h (maximum), coal tar pressure 2
The orifice diameter of the lower part of the mixing adjusting nozzle was 6 mmφ at kg / cm ² and the mixing amount of 1000 kg / h (maximum). Table 1 shows the results of mixing coal tar so that the target of the mixing ratio of coal tar was 1.4% by mass in the wash water using this mixing control nozzle. Further, in the conventional example, when only coal tar is supplied to the circulation cleaning ammonium hydroxide transport pipe, the opening amount of the mixing control valve provided in the coal tar transport line is controlled to directly regulate the amount of coal tar.

[0022]

[Table 1]

As a result of carrying out the present invention, the amount of coal tar can be adjusted more accurately than the conventional method in which coal tar is mixed into cleansing water.

[0024]

According to the present invention, high-viscosity coal tar containing sludge is sucked in by using an ejector of low-viscosity wash low-water stream to adjust the wash low-water amount with good controllability. It is possible to control the amount of coal tar mixed secondarily. By changing the conventional control of the amount of coal tar to the control of the amount of wash water, it is possible to suppress wear of the flow control valve due to coal tar and to extend the life of the control valve.

[Brief description of drawings]

FIG. 1 is a diagram showing the relationship between the flow amount of wash clean water and the amount of coal tar by adjusting the opening degree on the flow side of wash clean water in a mixing adjustment nozzle.

FIG. 2 is a side sectional view showing an example of a mixing adjusting nozzle used in the present invention.

FIG. 3 is a diagram showing an example of an outline of a circulation system of cleaning ammonium hydroxide of the present invention in an ammonia scrubber.

[Explanation of symbols]

1 piston valve 2 Wash water supply section 3 flow passages 3a throttle part 4 Ring-shaped void 5 coal tar transportation line 6 slit-shaped opening 7 orifice 8 Washing safe water transportation pipe 9 Flow control valve A mixing control nozzle D Ansui Decanter P pump AS Ammonia scrubber

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) C10B 41/08 C10B 41/08 F term (reference) 4G035 AB37 AC22 AE01 AE13 4G037 BA01 BB06 EA01 4G068 AA02 AB13 AC09 AC13 AD16 AD37 AE01 AF20

Claims (5)

[Claims] 1. A method of mixing a low-viscosity fluid with a high-viscosity fluid in a flow passage provided in a mixing adjustment nozzle to adjust the mixing ratio of the high-viscosity fluid, wherein the low-viscosity fluid is upstream of the mixing adjustment nozzle. Side, discharges from the downstream side through the flow passage, and controls the flow rate of the low viscosity fluid when the high viscosity fluid is introduced at a constant pressure into the flow passage downstream from the low viscosity fluid supply position. By adjusting the amount of the high-viscosity fluid introduced into the flow passage, the method for adjusting the mixing ratio of the high-viscosity fluid to the low-viscosity fluid is characterized. 2. The high-viscosity fluid is introduced into the flow passage by an ejector by narrowing the flow passage below the position where the low-viscosity fluid is introduced and expanding the lower portion thereof to increase the flow velocity of the low-viscosity fluid in the throttle portion. The method for adjusting the mixing ratio of a high-viscosity fluid to a low-viscosity fluid according to claim 1, which is introduced. 3. An opening for introducing the high-viscosity fluid into the flow passage is provided in a slit shape in the peripheral wall of the flow passage, and the high-viscosity fluid is mixed from the periphery of the low-viscosity fluid. The method for adjusting the mixing ratio of a high-viscosity fluid to a low-viscosity fluid according to 1 or 2. 4. The method for adjusting a mixing ratio of a high viscosity fluid to a low viscosity fluid according to claim 1, wherein the flow rate of the high viscosity fluid is adjusted in a mixing adjustment nozzle. 5. A flow control valve provided in a transport pipe for supplying the low-viscosity fluid to a mixing adjustment nozzle for adjusting the flow rate of the low-viscosity fluid. A method for adjusting the mixing ratio of high-viscosity fluid to low-viscosity fluid.