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AY High-temperature Hot Oil Centrifugal Pump is a type of centrifugal pump specifically designed for transporting high-temperature hot oil. It is usually used in industrial production processes that require heating systems, such as petrochemical, plastic processing, rubber production, and other fields. In these systems, high-temperature hot oil needs to be transported from one place to another, and AY high-temperature hot oil centrifugal pumps play a crucial role.
The design of this pump considers stability and safety in high-temperature environments, and is usually made of high-temperature resistant materials such as stainless steel, alloy steel, etc. In addition, they usually have special sealing and cooling systems to ensure the normal operation of the pump under high temperature conditions and prevent damage to the internal components of the pump.
When selecting and installing AY high-temperature hot oil centrifugal pumps, many factors need to be considered, including the temperature of the conveying medium, flow demand, working pressure, etc. The correct selection and use of this pump can ensure the efficient operation and safety of the system.
| Material | Usually, high-temperature and corrosion- resistant metal materials are used, such as stainless steel, alloy steel, etc |
| Flow rate | 2.5~600m3/h |
| Head | 30~330m |
| Temperature | -45~+420 ℃ |
The structure of AY High-temperature Hot Oil Centrifugal Pump usually includes the following main components:
Pump body (casing): The pump body is the casing of a centrifugal pump, usually made of sturdy metal materials to withstand working conditions in high temperature and high pressure environments. The pump body usually contains various components of the pump, such as impellers, bearings, etc.
Impeller (rotor): The impeller is a rotating component in a centrifugal pump, responsible for suction of liquid from the inlet and pushing it to the outlet through rotational motion. In AY high-temperature hot oil centrifugal pumps, the impeller is usually made of high-temperature resistant materials to ensure stable operation in high-temperature environments.
Bearings: Bearings support the rotation of the impeller and help reduce friction losses. In high-temperature hot oil applications, bearings typically use special designs or high-temperature resistant materials to ensure their performance and lifespan in high-temperature environments.
Sealing device: The sealing device is used to prevent hot oil leakage inside the pump and prevent external substances from entering the pump. In high-temperature hot oil applications, sealing devices need to have characteristics of high temperature resistance and corrosion resistance to ensure the safe operation of the pump.
Cooling system: Due to the high temperature environment which can easily cause overheating of pump components, AY high-temperature hot oil centrifugal pumps are usually equipped with a cooling system to reduce the internal temperature of the pump and ensure its normal operation.
Drive device: The pump is usually driven by an electric motor, which transfers power to the impeller through the shaft, causing it to rotate and transport hot oil. The driving device needs to be able to adapt to high temperature environments and provide sufficient power to meet working requirements.
Feed: High temperature hot oil enters the pump body from the feed port of the pump. The inlet is usually located in the center of the pump.
Rotating motion: Once high-temperature hot oil enters the pump body, it will be rotated by the impeller. The impeller is usually a set of blades fixed on the shaft, and when the impeller rotates, the blades push the oil outward from the center.
Centrifugal force: Due to the rotation of the impeller, the high-temperature hot oil will be subjected to centrifugal force, forcing it to move towards the outlet direction of the pump.
Discharge: High temperature hot oil is pushed to the outlet of the pump by centrifugal force, and then transported through pipelines to the system that needs to be heated.
Circulation: Once the hot oil enters the system and completes the heating or other process, it will be transported back to the pump and continue to circulate.
Applicable scope
Mainly suitable for conveying clean, low or high temperature, neutral or corrosive liquids.
Mainly used in fields such as petroleum refining, petrochemicals, chemical industry, oil fields, and oil and gas transportation.
AY High-temperature Hot Oil Centrifugal Pump is a type of centrifugal pump specifically designed for transporting high-temperature hot oil. It is usually used in industrial production processes that require heating systems, such as petrochemical, plastic processing, rubber production, and other fields. In these systems, high-temperature hot oil needs to be transported from one place to another, and AY high-temperature hot oil centrifugal pumps play a crucial role.
The design of this pump considers stability and safety in high-temperature environments, and is usually made of high-temperature resistant materials such as stainless steel, alloy steel, etc. In addition, they usually have special sealing and cooling systems to ensure the normal operation of the pump under high temperature conditions and prevent damage to the internal components of the pump.
When selecting and installing AY high-temperature hot oil centrifugal pumps, many factors need to be considered, including the temperature of the conveying medium, flow demand, working pressure, etc. The correct selection and use of this pump can ensure the efficient operation and safety of the system.
| Material | Usually, high-temperature and corrosion- resistant metal materials are used, such as stainless steel, alloy steel, etc |
| Flow rate | 2.5~600m3/h |
| Head | 30~330m |
| Temperature | -45~+420 ℃ |
The structure of AY High-temperature Hot Oil Centrifugal Pump usually includes the following main components:
Pump body (casing): The pump body is the casing of a centrifugal pump, usually made of sturdy metal materials to withstand working conditions in high temperature and high pressure environments. The pump body usually contains various components of the pump, such as impellers, bearings, etc.
Impeller (rotor): The impeller is a rotating component in a centrifugal pump, responsible for suction of liquid from the inlet and pushing it to the outlet through rotational motion. In AY high-temperature hot oil centrifugal pumps, the impeller is usually made of high-temperature resistant materials to ensure stable operation in high-temperature environments.
Bearings: Bearings support the rotation of the impeller and help reduce friction losses. In high-temperature hot oil applications, bearings typically use special designs or high-temperature resistant materials to ensure their performance and lifespan in high-temperature environments.
Sealing device: The sealing device is used to prevent hot oil leakage inside the pump and prevent external substances from entering the pump. In high-temperature hot oil applications, sealing devices need to have characteristics of high temperature resistance and corrosion resistance to ensure the safe operation of the pump.
Cooling system: Due to the high temperature environment which can easily cause overheating of pump components, AY high-temperature hot oil centrifugal pumps are usually equipped with a cooling system to reduce the internal temperature of the pump and ensure its normal operation.
Drive device: The pump is usually driven by an electric motor, which transfers power to the impeller through the shaft, causing it to rotate and transport hot oil. The driving device needs to be able to adapt to high temperature environments and provide sufficient power to meet working requirements.
Feed: High temperature hot oil enters the pump body from the feed port of the pump. The inlet is usually located in the center of the pump.
Rotating motion: Once high-temperature hot oil enters the pump body, it will be rotated by the impeller. The impeller is usually a set of blades fixed on the shaft, and when the impeller rotates, the blades push the oil outward from the center.
Centrifugal force: Due to the rotation of the impeller, the high-temperature hot oil will be subjected to centrifugal force, forcing it to move towards the outlet direction of the pump.
Discharge: High temperature hot oil is pushed to the outlet of the pump by centrifugal force, and then transported through pipelines to the system that needs to be heated.
Circulation: Once the hot oil enters the system and completes the heating or other process, it will be transported back to the pump and continue to circulate.
Applicable scope
Mainly suitable for conveying clean, low or high temperature, neutral or corrosive liquids.
Mainly used in fields such as petroleum refining, petrochemicals, chemical industry, oil fields, and oil and gas transportation.