CN212293624U - High temperature steel slag carbonization degree of depth stabilization processing apparatus - Google Patents

Abstract

The utility model relates to a high temperature steel slag carbonization degree of depth stabilization processing apparatus. The device comprises: a steel slag tank (1), an air hole (2), a stabilizing tank (3), a tank door (4), a tank seat (5), an air tank (6), an air pipe (7), a water spray nozzle (11), an exhaust valve (12), a safety valve (13), an explosion-proof valve (14) and a drain valve (1)5) By using CO₂The high-temperature steel slag is subjected to deep stabilization treatment, and free CaO in the high-temperature steel slag is subjected to digestion treatment by cooperating with water and other acid gases. The process flow is short, the equipment automation degree is high, the production efficiency of the treatment process is high, the stability of the treated steel slag is good, the sandstone material can be replaced in a large batch, and the resource utilization of the steel slag is facilitated.

Description

High temperature steel slag carbonization degree of depth stabilization processing apparatus

Technical Field

The utility model relates to a high-temperature steel slag carbonization depth stabilization processing device, in particular to a device for performing depth stabilization processing on high-temperature steel slag generated by steel making of steel enterprises.

Background

China is a big country for steel production, and in recent years, the steel yield exceeds 9 hundred million tons and accounts for more than half of the world. The steel slag is a necessary product in the steel-making process, 120-140 kg of steel slag is usually generated in each ton of steel smelting, and the total national annual output is more than 1 hundred million tons. The main chemical components of the steel slag comprise CaO and SiO₂、FeO、Fe₂O₃The content of CaO in the ordinary converter steel slag is about 40 percent, and the content of SiO in the ordinary converter steel slag is about 40 percent₂15-20%, iron oxide content is 20-25%, and in addition, residual steel and other substances are about 10%. In a word, the steel slag contains a large amount of calcium silicate materials and iron elements, and has great resource utilization value.

The residual steel in the steel slag can be partially recycled through crushing, screening and magnetic separation, the recycled waste steel and magnetic separation powder are returned to a smelting process, but the residual tailings with the content of nearly 80 percent cannot be utilized with high added value. The steel slag which cannot be utilized flows into the field of building materials such as cement and the like at a very low price, most of the steel slag still needs to be discarded or stockpiled, occupies land, pollutes soil and water systems, and seriously threatens the ecological environment and the life safety of residents. The large amount of steel slag cannot be effectively utilized and dumped, so that the environment is seriously polluted, and the resource is seriously wasted, and a new technology is urgently required to be developed to improve the resource utilization value and realize the full resource utilization.

The steel slag resource utilization mainly comprises two aspects of steel slag powder and steel slag mixture. The steel slag mixture is mainly used in the building fields of roads, brickmaking and the like and is used for replacing a sandstone mixture. The steel slag often contains 1-6% of free CaO, and the free CaO reacts with water to generate a volume expansion phenomenon, so that products such as building materials produced by the steel slag are cracked and damaged, and potential safety hazards are generated. Therefore, the steel slag with qualified stability after stabilizing treatment can be used in the fields of buildings, roads and the like.

Steel slag which is not stabilized can be stabilized after natural aging for years or even longer, but specific aging time cannot be given to determine whether the steel slag is completely stabilized or not due to different natural conditions and steel slag properties in various places, and a rapid and efficient steel slag deep stabilization process technology and equipment are lacked. The prior steel slag treatment adopts a hot-disintegration method to partially solve the problem of steel slag stability, but the problem of steel slag stability cannot be completely solved, so the prior steel slag mixture can only replace a small amount of sandstone and cannot be used as concrete.

The carbon dioxide has acidity, can react with alkaline substances such as calcium oxide, calcium hydroxide and magnesium oxide in the steel slag to generate stable substances such as calcium carbonate and the like, can realize the digestion of free CaO and MgO in the steel slag, and can react to generate CaCO₃、MgCO₃And the unstable factors in the steel slag are eliminated. The reaction also consumes CO₂The carbon storage function is realized, and the emission of greenhouse gases can be effectively reduced. In addition, in the process of treating the high-temperature steel slag, the metallic iron and FeO in the steel slag can generate hydrogen when meeting water, and the steel slag is deeply treated by adopting a carbonization methodThe stabilization treatment can reduce the hydrogen concentration and is beneficial to the safe and smooth production of the high-temperature steel slag treatment.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model adopts a carbonization mode to carry out deep stabilization treatment on the high-temperature steel slag, and can adopt water and CO₂And other acid gases are used for digesting free CaO in the high-temperature steel slag. The method has the advantages of short process flow, high equipment automation degree, environment-friendly treatment process, low production cost, no three-waste discharge and the like. The novel method for deep stabilization by carbonization greatly shortens the treatment time of the steel slag, improves the production efficiency of the steel slag, has good stability of the treated steel slag, can replace sandstone materials in large batches, and is beneficial to resource utilization of the steel slag.

The utility model relates to a high temperature steel slag carbonization degree of depth stabilization processing apparatus, high temperature steel slag carbonization degree of depth stabilization processing apparatus includes: the steel slag tank comprises a steel slag tank (1), an air hole (2), a stabilizing tank (3), a tank door (4), a tank seat (5), an air tank (6), an air pipe (7), a water spray nozzle (11), an exhaust valve (12), a safety valve (13), an explosion-proof valve (14) and a drain valve (15); the steel slag tank (1) is arranged on a tank seat (5) at the bottom of the stabilizing tank (3); the body of the steel slag pot (1) is provided with air holes (2); the gas tank (6) is connected with the stabilization tank (3) through a gas pipe (7) and is used for collecting CO in the gas tank (6)₂Gas is introduced from the bottom of the stabilization tank (3); the tank door (4) is arranged at the upper part of the opening of the stabilizing tank (3) and is used for sealing the stabilizing tank (3), and the water spray nozzle (11) is arranged inside the tank door (4) and is used for spraying water to the high-temperature steel slag in the steel slag tank (1); the exhaust valve (12), the safety valve (13) and the explosion-proof valve (14) are arranged outside the tank door (4); the drain valve (15) is arranged at the bottom of the stabilization tank (3).

The high-temperature steel slag carbonization depth stabilization treatment device further comprises a vent valve (8), wherein the vent valve (8) is arranged on the air pipe (7) and used for controlling the on-off of the air pipe (7).

The high-temperature steel slag carbonization depth stabilization treatment device further comprises a pressure gauge (9) and a temperature gauge (10), wherein the pressure gauge (9) and the temperature gauge (10) are installed at the upper part of the side surface of the stabilization tank (3).

Wherein, high temperature slag carbonization degree of depth stabilization processing apparatus still includes central control system (16), and pressure gauge (9) and thermometer (10) are connected in central control system (16) controllable for monitor pressure gauge (9) and thermometer (10) data through signal sensor, central control system (16) controllable connection tank door (4), breather valve (8), water jet (11), discharge valve (12) and drain valve (15), be used for opening and closing of remote operation control tank door (4), breather valve (8), water jet (11), discharge valve (12), drain valve (15).

Wherein the steel slag pot (1) is made of cast steel or cast iron, and the internal volume of the steel slag pot (1) is 10-30m³Air holes (2) are arranged on the periphery and the bottom of the tank body, the diameter of each air hole (2) is 3-30mm, and the distance between every two air holes is 50-200 mm.

Wherein the stabilizing tank (3) is a steel structure pressure vessel, the design pressure is 0.6-3MPa, and the thickness of the paint on the inner surface and the outer surface of the stabilizing tank (3) is not less than 120 mu m.

Wherein, a tooth-locked flange structure is adopted between the stabilizing tank (3) and the tank door (4) for locking, and a heat-resistant rubber sealing ring is adopted between the tank door (4) and the stabilizing tank (3) for sealing and keeping air tightness.

Wherein the gas tank (6) is a steel structure pressure vessel with the design pressure of 1-3MPa and the volume of 3-10m³The thickness of the surface paint is not less than 50 mu m.

Wherein, the air pipe (7) is a steel structure pressure pipeline, the design pressure is 1-3MPa, and the diameter of the pipeline is not less than 10-100 mm.

Wherein, the vent valve (8), the exhaust valve (12) and the drain valve (15) are all electrically operated valves, the aperture of the vent valve (8) is 20-100mm, the aperture of the exhaust valve (12) is 50-150mm, and the aperture of the drain valve (15) is 150-500 mm.

The utility model also provides a method for preferably adopting the device to carry out the stabilization treatment on the carbonization depth of the high-temperature steel slag, which comprises the following steps:

(1) placing high-temperature steel slag which is processed by pre-crushing to a certain granularity in a steel slag tank (1), opening a tank door (4) of a stabilizing tank (3), and hoisting the steel slag tank (1) to a tank seat (5) at the bottom of the stabilizing tank (3) by adopting a travelling crane;

(2) closing the tank door (4) of the stabilization tank (3), locking, starting the water spray opening (11) in the stabilization tank (3) and starting to beat for one timeWater generates water vapor, the exhaust valve (12) is opened to discharge air in the stabilization tank (3), the exhaust valve (12) is closed, the vent valve (8) is opened to discharge CO in the air tank (6)₂Gas is introduced from the bottom of the stabilization tank (3);

(3) the steel slag is carbonized and hydrated under the condition of pressure in the stabilization tank (3) to digest f-CaO until the time requirement of carbonization deep stabilization treatment is met, the vent valve (8) is closed to stop CO₂Introducing gas; when the gas pressure in the stabilization tank (3) exceeds the set pressure, the exhaust valve (12) is automatically opened to exhaust and reduce the pressure;

(4) and after the carbonization deep stabilization treatment is finished, carrying out secondary water cooling on the steel slag in the stabilization tank (3), simultaneously opening a drain valve (15) to drain water until the slag discharge requirement is met, opening a tank door (4) of the stabilization tank (3), hoisting the steel slag tank (1) from the stabilization tank (3) by adopting a travelling crane to carry out subsequent treatment, preferably carrying out processing treatments such as steel slag crushing, screening, magnetic separation and the like.

Wherein the granularity of the steel slag after the pre-crushing treatment is more than 80 percent and less than 300mm, and the surface temperature of the steel slag in the steel slag tank (1) is 300-. The one-time water-pumping flow of the stabilization tank (3) is 1-10m³/h；CO₂The gas flow is 30-1000m³H is used as the reference value. The working pressure of the carbonization deep stabilization treatment of the steel slag in the stabilization tank (3) is 0.2-3MPa, and the carbonization deep stabilization treatment time is 0.5-5 h. The steel slag in the stabilizing tank (3) is cooled and secondary water pumping flow is 10-50m³The cooling treatment time is 20-40 min. The slag tapping operation can be carried out only when the temperature of the gas in the stabilization tank (3) is lower than 70 ℃. Free calcium oxide f-CaO in steel slag after carbonization deep stabilization treatment<1 percent (the mass content of free calcium oxide f-CaO is less than 1 percent), and the water-soaking expansion rate of the steel slag<0.5 percent. The central control system (16) monitors data of the pressure gauge (9) and the thermometer (10) through the signal sensor, and remotely operates and controls the opening and closing of the tank door (4), the vent valve (8), the water spray opening (11), the exhaust valve (12) and the drain valve (15)

A method for deep stabilizing carbonization of high-temperature steel slag by using CO₂The high-temperature steel slag is subjected to deep stabilization treatment, and free CaO in the high-temperature steel slag is subjected to digestion treatment by cooperating with water and other acid gases. The method has short process flow and high automation degree of equipment,the treatment process has high production efficiency, and the treated steel slag has good stability, can replace sandstone materials in large batches, and is favorable for recycling the steel slag.

Preferably, the method for the carbonization deep stabilization treatment of the high-temperature steel slag comprises the following steps: (1) placing the high-temperature steel slag which is processed by pre-crushing to a certain granularity in a steel slag tank, opening a tank door of a stabilization tank, and hoisting the steel slag tank to a tank seat at the bottom of the stabilization tank by a crane; (2) closing a tank door of the stabilization tank, locking, starting a water spraying port in the stabilization tank, starting to pump water once to generate water vapor, opening an exhaust valve to discharge air in the stabilization tank, closing the exhaust valve, opening a vent valve to discharge CO in the gas tank₂Gas is introduced from the bottom of the ballast tank; (3) the steel slag is carbonized and hydrated under the pressure condition in the stabilization tank to digest f-CaO until the time requirement of carbonization depth stabilization treatment is met, the vent valve is closed to stop CO₂And introducing gas. When the gas pressure in the stabilization tank exceeds the set pressure, the exhaust valve is automatically opened to exhaust and reduce the pressure. (4) And after the carbonization deep stabilization treatment is finished, carrying out secondary water cooling on the steel slag in the stabilization tank, simultaneously opening a drain valve to drain water until the slag tapping requirement is met, opening a tank door of the stabilization tank, and hoisting the steel slag tank from the stabilization tank by a travelling crane to carry out processing treatments such as steel slag crushing, screening, magnetic separation and the like.

The utility model discloses the advantage is realizing high temperature slag carbonization degree of depth stabilizing treatment on the device and the method, and production equipment is simple, and the short efficient of processing procedure flow has promoted the quick clear up of unstable composition f-CaO through carbonizing the slag under the high temperature pressure condition, has improved the stability index of slag by a wide margin, can satisfy the slag as grit for fields such as building, road, improves the resource utilization value of slag, has apparent economy and social.

Drawings

FIG. 1 is a schematic view of a high-temperature steel slag carbonization depth stabilizing treatment apparatus

Detailed Description

As shown in FIG. 1, a high-temperature steel slag carbonization depth stabilizing treatment apparatus includes: steel slag pot 1, gasThe device comprises a hole 2, a stabilizing tank 3, a tank door 4, a tank seat 5, a gas tank 6, a gas pipe 7, a vent valve 8, a pressure gauge 9, a thermometer 10, a water spray opening 11, an exhaust valve 12, a safety valve 13, an explosion-proof valve 14, a water discharge valve 15 and a central control system 16. The steel slag tank 1 is placed on a tank seat 5 at the bottom of the stabilizing tank 3; the tank body of the steel slag tank 1 is provided with air holes 2; the gas tank 6 is connected with the stabilization tank 3 through a gas pipe 7 and used for collecting CO in the gas tank 6₂Gas is introduced from the bottom of the stabilization tank 3; the tank door 4 is arranged at the upper part of the opening of the stabilizing tank 3 and is used for sealing the stabilizing tank 3, and the water spray nozzle 11 is arranged inside the tank door 4 and is used for spraying water to the high-temperature steel slag in the steel slag tank 1; the exhaust valve 12, the safety valve 13 and the explosion-proof valve 14 are arranged outside the tank door 4; the drain valve 15 is provided at the bottom of the ballast tank 3. The vent valve 8 is arranged on the air pipe 7 and used for controlling the on-off of the air pipe 7. A pressure gauge 9 and a thermometer 10 are installed at upper positions on the side surface of the stabilization tank 3. The central control system 16 is controllably connected with the pressure gauge 9 and the thermometer 10 and used for monitoring data of the pressure gauge 9 and the thermometer 10 through the signal sensor, and the central control system 16 is controllably connected with the tank door 4, the vent valve 8, the water spray opening 11, the exhaust valve 12 and the drain valve 15 and used for remotely controlling the opening and closing of the tank door 4, the vent valve 8, the water spray opening 11, the exhaust valve 12 and the drain valve 15. Preferably, the ventilation valve 8 is arranged in the middle of the air pipe 7. The steel slag tank 1 is made of cast steel or cast iron, and the internal volume of the steel slag tank 1 is 10-30m³The periphery and the bottom of the tank body are provided with air holes 2, and the diameter of each air hole 2 is 3-30 mm. The stabilizing tank 3 is a steel structure pressure container, the design pressure level is 0.6-3MPa, and the thickness of the paint on the inner surface and the outer surface of the stabilizing tank 3 is not less than 120 μm. The tank door 4 on the upper part of the stabilization tank 3 is locked by adopting a tooth-meshed flange structure, and the middle parts of the tank door 4 and the stabilization tank 3 are sealed by adopting a heat-resistant rubber sealing ring to keep air tightness. The gas tank 6 is a steel structure pressure container, the design pressure is 1-3MPa, and the volume is 3-10m³The thickness of the surface paint is not less than 50 mu m. The air pipe 7 is a steel structure pressure pipeline, the design pressure is 1-3MPa, and the diameter of the pipeline is not less than 10-100 mm. The vent valve 8, the exhaust valve 12 and the drain valve 15 are all electric valves, the caliber of the vent valve 8 is 20-100mm, the caliber of the exhaust valve 12 is 50-150mm, and the caliber of the drain valve 15 is 150-500 mm.

The safety valve is a special valve, wherein the opening and closing part is in a normally closed state under the action of external force, and when the pressure of a medium in equipment or a pipeline rises to exceed a specified value, the medium is discharged to the outside of the system to prevent the pressure of the medium in the pipeline or the equipment from exceeding the specified value. The safety valve is mainly used for boiler, pressure container and pipeline, and its control pressure is not greater than specified value, so that it can play important role in protecting personal safety and equipment operation. The injection and safety valve must be pressure tested before it can be used. The explosion-proof valve is used in a system containing combustible gas or combustible substances and can be used as a pressure relief device of an explosive pipeline or equipment. The diaphragm of the explosion-proof valve is usually calculated according to the operating pressure of the dust removal system and the content of combustible substances, and then materials and thickness scratches are selected, so that the normal operation of the system cannot be influenced due to improper selection. The safety valve is necessary for the pressure container, and the explosion-proof valve is used because certain combustible gas exists in the high-temperature steel slag treatment process.

The function of the air holes 2 ensures that water sprayed to the high-temperature steel slag can be discharged through the steel slag tank, and meanwhile, the penetration of gas and the full contact of the steel slag can be ensured. The certain interval should be kept to the gas pocket, and the interval undersize can influence the intensity of the equipment jar body, and the interval is too big ventilative effect poor that permeates water, therefore the interval is 50 ~ 200 mm.

A method for carrying out carbonization deep stabilization treatment on high-temperature steel slag comprises the following steps: (1) placing high-temperature steel slag which is processed by pre-crushing to a certain granularity in a steel slag tank 1, opening a tank door 4 of a stabilizing tank 3, and hoisting the steel slag tank 1 to a tank seat 5 at the bottom of the stabilizing tank 3 by a crane; (2) closing a tank door 4 of the stabilization tank 3, locking, starting a water spraying port 11 in the stabilization tank 3, starting to spray water once to generate water vapor, opening an exhaust valve 12 to discharge air in the stabilization tank 3, closing the exhaust valve 12, opening a vent valve 8 to discharge CO in a gas tank 6₂Gas is introduced from the bottom of the stabilization tank 3; (3) the steel slag is carbonized and hydrated under the condition of pressure in the stabilization tank 3 to digest f-CaO until the time requirement of carbonization deep stabilization treatment is met, the vent valve 8 is closed to stop CO₂And introducing gas. When the gas pressure in the stabilization tank 3 exceeds the set pressure, the exhaust valve 12 is automatically opened to exhaust and reduce the pressure. (4) After the carbonization depth stabilization treatment is finished, the steel slag in the stabilization tank 3 is subjected to secondary water cooling, and meanwhile, a drain valve 15 is opened to drain water,and (3) opening a tank door 4 of the stabilization tank 3 until the slag tapping requirement is met, and hoisting the steel slag tank 1 from the stabilization tank 3 by a travelling crane to perform processing treatments such as steel slag crushing, screening, magnetic separation and the like.

Wherein the granularity of the steel slag subjected to the pre-crushing treatment is more than 80% and less than 300mm, and the surface temperature of the steel slag in the steel slag tank 1 is 300-600 ℃. The flow rate of the primary water of the stabilization tank 3 is 1-10m³/h。CO₂The gas flow is 30-1000m³H is used as the reference value. The working pressure of the deep carbonization and stabilization treatment of the steel slag in the stabilization tank 3 is 0.2 to 3MPa, and the time of the deep carbonization and stabilization treatment is 0.5 to 5 hours. The steel slag in the stabilizing tank 3 is cooled and secondary water pumping is performed at a flow rate of 10-50m³And h, the cooling treatment time is 20-40 min. The slag tapping operation can be carried out only when the temperature of the gas in the stabilization tank 3 is lower than 70 ℃. Free calcium oxide f-CaO in steel slag after carbonization deep stabilization treatment<1% of steel slag water-soaking expansion rate<0.5 percent. The central control system 16 monitors data of the pressure gauge 9 and the temperature gauge 10 through signal sensors, and remotely controls the opening and closing of the tank door 4, the vent valve 8, the water spray opening 11, the exhaust valve 12 and the drain valve 15.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (10)

1. The utility model provides a high temperature steel slag carbonization degree of depth stabilizing processing apparatus which characterized in that, high temperature steel slag carbonization degree of depth stabilizing processing apparatus includes: the steel slag tank comprises a steel slag tank (1), an air hole (2), a stabilizing tank (3), a tank door (4), a tank seat (5), an air tank (6), an air pipe (7), a water spray nozzle (11), an exhaust valve (12), a safety valve (13), an explosion-proof valve (14) and a drain valve (15); the steel slag tank (1) is arranged on a tank seat (5) at the bottom of the stabilizing tank (3); the body of the steel slag pot (1) is provided with air holes (2); the gas tank (6) is connected with the stabilization tank (3) through a gas pipe (7) and is used for collecting CO in the gas tank (6)₂Gas is introduced from the bottom of the stabilization tank (3); the tank door (4) is arranged at the upper part of the opening of the stabilizing tank (3) and is used for sealing the stabilizing tankThe water spray nozzle (11) is arranged inside the tank door (4) and is used for spraying water to the high-temperature steel slag in the steel slag tank (1); the exhaust valve (12), the safety valve (13) and the explosion-proof valve (14) are arranged outside the tank door (4); the drain valve (15) is arranged on the stabilization tank (3).

2. The high-temperature steel slag carbonization depth stabilizing treatment device according to claim 1, further comprising a ventilation valve (8), wherein the ventilation valve (8) is arranged on the air pipe (7) and is used for controlling the on-off of the air pipe (7).

3. The apparatus as claimed in claim 2, further comprising a pressure gauge (9) and a temperature gauge (10), wherein the pressure gauge (9) and the temperature gauge (10) are installed at an upper position of the side surface of the stabilization tank (3).

4. The high-temperature steel slag carbonization depth stabilizing treatment device as claimed in claim 3, further comprising a central control system (16), wherein the central control system (16) is controllably connected with the pressure gauge (9) and the thermometer (10) and used for monitoring data of the pressure gauge (9) and the thermometer (10) through signal sensors, and the central control system (16) is controllably connected with the tank door (4), the vent valve (8), the water spout (11), the exhaust valve (12) and the drain valve (15) and used for remotely controlling the opening and closing of the tank door (4), the vent valve (8), the water spout (11), the exhaust valve (12) and the drain valve (15).

5. A high temperature steel slag carbonization depth stabilization treatment device according to any one of claims 1 to 4, wherein the steel slag tank (1) is made of cast steel or cast iron, and the internal volume of the steel slag tank (1) is 10-30m³Air holes (2) are arranged on the periphery and the bottom of the tank body, the diameter of each air hole (2) is 3-30mm, and the distance between every two air holes is 50-200 mm.

6. A high temperature steel slag carbonization depth stabilization treatment apparatus according to one of claims 1 to 4, wherein the stabilization tank (3) is a steel structure pressure vessel, the design pressure is 0.6-3MPa, and the thickness of the paint on the inner and outer surfaces of the stabilization tank (3) is not less than 120 μm.

7. A high temperature steel slag carbonization depth stabilization treatment device according to one of claims 1 to 4, characterized in that the stabilization tank (3) and the tank door (4) are locked by a tooth-engaging flange structure, and a heat-resistant rubber seal ring is used between the tank door (4) and the stabilization tank (3) to seal and maintain airtightness.

8. The apparatus as claimed in any one of claims 1 to 4, wherein the gas tank (6) is a steel pressure vessel with a design pressure of 1-3MPa and a volume of 3-10m³The thickness of the surface paint is not less than 50 mu m.

9. A high temperature steel slag carbonization depth stabilization treatment device according to one of claims 1 to 4, wherein the air pipe (7) is a steel structure pressure pipe, the design pressure is 1 to 3MPa, and the diameter of the pipe is not less than 10 to 100 mm.

10. The high-temperature steel slag carbonization depth stabilization device as claimed in claim 2, wherein the vent valve (8), the exhaust valve (12) and the drain valve (15) are electrically operated valves, the aperture of the vent valve (8) is 20-100mm, the aperture of the exhaust valve (12) is 50-150mm, and the aperture of the drain valve (15) is 150-500 mm.

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