Check Valve Installation - DFT® Inc

Author: Steve

Jul. 15, 2024

Check Valve Installation - DFT® Inc

Check Valve Installation

Check valves play a critical role in preventing backflow and protecting sensitive equipment, pipes, pumps, and compressors. However, check valves can&#;t function at their best if they aren&#;t installed properly. Mistakes in installation can manifest in valve leakage or failure, compromising the integrity of the entire piping system. 

If you want to learn more, please visit our website Disai.

Swing check valves, double-door check valve, or silent spring-assisted axial flow check valves, all control flow through a slightly different mechanism. Swing valves use a disc that swings in and out of the fluid stream while double-door valves use springs to close two &#;doors&#; to stop the flow. Spring-assisted axial flow valves use a disc and stem design and incorporate compression springs to close the valve before the fluid flow has reversed its flow direction. This is important because the quick closing nature of the axial flow design drastically reduces the possibility for water hammer&#;a dangerous malfunction where sudden pump shut down or an abruptly closing valve produces a hydraulic shock wave in the piping. In this guide, we&#;ll discuss ways to prevent water hammer and other common check valve problems. 

When a Check Valve Is Necessary

Industry insiders call check valves the &#;misunderstood valves.&#; Many professionals simply don&#;t know when or how to use check valves appropriately, so they think that the entire category is unnecessary or ineffective.

So when is a check valve necessary? Typically, we recommend a check valve when there is the potential for the media being transported in the pipe to backflow, which can damage the system. Condensate pooling can also lead to water hammer. Installing check valves in condensate recovery lines prevents serious malfunction by automatically preventing backflow. In this way, the right check valve not only prevents serious problems like water hammer but also safeguards the entire process as well as the equipment installed in the piping.

Check Valve Installation

To experience the full benefits of a check valve, it&#;s critical to adhere to installation best practices. A simple mistake in fitting the valve can reduce efficiency at best or cause substantial damage at worst. Some key points to keep in mind include:

  • Selection: Choosing the wrong valve for your piping&#;s size, material, pipe orientation, flow direction and flow rate will result in process inefficiencies or possible premature wear and valve component failure.
  • Positioning: Pay close attention to where in the piping you install the valve. Not all check valves will work in a vertical piping run.  It also includes ensuring that the valve is at least five pipe diameters away from elbows, tees, fittings or other valves which can cause turbulence
  • Orientation: Ensure that the valve is oriented properly by checking the flow arrow (often printed on a tag or permanently marked the valve itself). This arrow indicates the proper positioning relative to the pipe&#;s flow. 

Solutions to Your Check Valve Problems

Preventing check valve malfunctions like hammer pipe is critical to avoiding serious, costly damage to your pipes, valves or other expensive equipment. At DFT, we never want our clients to experience preventable system failure, which is why we&#;re sharing our expertise: in addition to this guide, we&#;ve put together a comprehensive webinar that expands on proper check valve installation and maintenance, providing expert guidance on piping design that works and lasts.

For specific questions about check valve selection for your application, contact our team. Whether you&#;re looking for a standard stock valve or a completely custom order, we&#;ll work with you to make sure you receive a functional, effective, and safe solution to your piping challenges. 

Axial Flow Check Valves 101 | THINKTANK

What is an Axial Flow in the Check Valve?

Axial flow in the check valve means the fluid or gas flowing parallel to the axis. It is an axial flow shuttle structure design, and the disc assembly with spring has cushioning and anti-vibration functions. When the medium flows downstream, it will push open the disc and the fluid through the body via axial flow channel circulation. And the spring here has a cushion effect to avoid the impact vibration between the disc and the body when a standard check valve opens. When the medium flows in the opposite direction, the disc closes very quickly, and the disc and the valve seat are tight fitted to cut off the fluid from the reverse flow direction.

axial check valve factory1

The axial flow check valves have a fast response and silent non-slam issue against pressure surge or damage from water hammer and are particularly designed for fast-reversing systems where backflow is a regular crisis.

What is Flow Check Valve?

An axial flow check valve is a kind of silent check valve. The check valve is driven by the medium itself and automatically opens and closes the valve disc. Generally, it is used to prevent the backflow of fluid or gases. A flow check valve can be called a one-way valve, non-return valve, backflow valve, backstop valve, and back pressure valve. An axial flow check valve has been a popular industrial valve since . This valve has the function of the general check valve and is designed with a shock-absorbing spring, combined metal seat, and soft seat structure, which is easy for end-user maintenance on site.

The axial flow check valve adopts a particular sealing structure. Whether the downstream pressure is high or low, the valve is permanently closed tightly and has excellent shutoff performance. It overcomes the disadvantage of the lack of shutoff performance of the general check valve at low back pressure. THINKTANK produced an axial flow check valve that has a unique axial flow shuttle structure. It has the advantages of small flow resistance, significant flow coefficient, compact design, etc. It is the best valve for oil and gas gathering and transmission pipeline systems, especially for the outlet of oil transmission pumps.

Typical Application

  1. Water hammer prevention system
  2. Pump discharge application
  3. Cooling water systems(Ethylene, LNG)
  4. Waterworks & transmission systems
  5. Potable & raw water
  6. Transmission pipeline compressor discharge
  7. LNG compressor train
  8. Multiphase pumping
  9. Subsea pump and flowline application

Introduction to Non-Slam Nozzle Check Valves

A nozzle check valve also is a kind of non-slam or silent check valve, which is designed as a self-actualizing device and responds in a piping system to either pressure or flow changes. The main purpose of a non-slam check valve is to restrict or shut off the flow in the reverse flow direction. The important thing is that the normal position of a nozzle check valve is a valve close position with silent and non-slam closing action.

Why Use Non-Slam Nozzle Check Valve?

The primary function of a non-slam nozzle check valve is to prevent the water hammer and closing rapidly without slamming. When flow is reversed in a pipeline, it will cause hydraulic shock waves to pass through the valve, it also called the water hammer phenomenon. The water hammer can cause damage to the equipment in the pipeline, so we must prevent this phenomenon. So selecting the right non-slam nozzle check valve is the best way to prevent damage from occurring and causing serious issues at the site when the valve is in a fully closed position during reverse flowing through.

The Working Principle of Axial Flow Check Valves

An axial flow check valve is a kind of non-slam check valve, when the valve closes it won&#;t have a slamming phenomenon, and there are no excess pressure spikes are generated. Aixa flow check valve is simply designed with spring-loaded and a single low-mass valve disc that enables fast response, and dynamic reaction to the reduction in flow. The working principle is easy to understand, when the disc of the axial flow check valve is opening, the force of the single disc and spring is balanced that resulting in uniform flow.

When the pressure difference between the upstream and downstream of the valve exceeds the crack pressure of the spring, the obturator moves and allows flow. With the venturi design that the flow area of the valve steadily decreases to the seat diameter, and the reduced flow area increases the dynamic pressure and reduces the static pressure, allowing the valve to open fully and quickly. The spring is selected to allow the disc to open fully and stabilize on its backstop under normal flow conditions.

When the flow rate is significantly reduced, the spring responds in advance to the force of the reduced flow.

Standards for Axial Flow Check Valves

Here is the list of standards for an axial flow check valve, it&#;s very important for your selection.

 StandardDescriptionSupplier of CertificateASME B16.34Applies to new construction and covers pressure-temperature ratings, dimensions, tolerances, materials, nondestructive examination requirements, testing and marking for the cast, forged, and fabricated flanged, threaded, and welding end and wafer or flangeless valves of steel, nickel-base alloys, and other alloys.  American Society of Mechanical Engineers (ASME)ASME B16.10Covers face-to-face and end-to-end dimensions of straightway valves and center-to-face and center-to-end dimensions of angle valves. ASMEAPI 598
EN -1, 2
Defines inspection, examination, supplementary examinations, and pressure test requirements for resilient-seated, nonmetallic-seated (e.g., ceramic), and metal-to-metal-seated valves of the gate, globe, plug, ball, check, and butterfly types.American Petroleum Institute (API)ISO Defines examinations and tests that a valve manufacturer needs to act upon in order to establish the integrity of the pressure boundary of an industrial metallic valve and to verify the degree of valve closure tightness and the structural adequacy of its closure mechanism.International Organization for Standardization API 6DAPI Specification 6D is an adoption of ISO : , Petroleum and Natural Gas Industries-Pipeline Transportation Systems-Pipeline Valves. This international standard specifies requirements and gives recommendations for the design, manufacturing, testing, and documentation of ball valves, check valves, gate valves, and plug valves for application in pipeline systems. API

Axial Flow Check Valve Manufacturers

Mokveld (Netherlands)

Mokveld is a Netherlands industrial valve brand, which has over 100 years of experience in the gas, oil, and water industry with expert knowledge, and it has advanced engineered valve systems for critical control and safety applications.

Check Valve Installation - DFT® Inc

Check Valve Installation

Check valves play a critical role in preventing backflow and protecting sensitive equipment, pipes, pumps, and compressors. However, check valves can&#;t function at their best if they aren&#;t installed properly. Mistakes in installation can manifest in valve leakage or failure, compromising the integrity of the entire piping system. 

Swing check valves, double-door check valve, or silent spring-assisted axial flow check valves, all control flow through a slightly different mechanism. Swing valves use a disc that swings in and out of the fluid stream while double-door valves use springs to close two &#;doors&#; to stop the flow. Spring-assisted axial flow valves use a disc and stem design and incorporate compression springs to close the valve before the fluid flow has reversed its flow direction. This is important because the quick closing nature of the axial flow design drastically reduces the possibility for water hammer&#;a dangerous malfunction where sudden pump shut down or an abruptly closing valve produces a hydraulic shock wave in the piping. In this guide, we&#;ll discuss ways to prevent water hammer and other common check valve problems. 

When a Check Valve Is Necessary

Industry insiders call check valves the &#;misunderstood valves.&#; Many professionals simply don&#;t know when or how to use check valves appropriately, so they think that the entire category is unnecessary or ineffective.

So when is a check valve necessary? Typically, we recommend a check valve when there is the potential for the media being transported in the pipe to backflow, which can damage the system. Condensate pooling can also lead to water hammer. Installing check valves in condensate recovery lines prevents serious malfunction by automatically preventing backflow. In this way, the right check valve not only prevents serious problems like water hammer but also safeguards the entire process as well as the equipment installed in the piping.

Check Valve Installation

To experience the full benefits of a check valve, it&#;s critical to adhere to installation best practices. A simple mistake in fitting the valve can reduce efficiency at best or cause substantial damage at worst. Some key points to keep in mind include:

  • Selection: Choosing the wrong valve for your piping&#;s size, material, pipe orientation, flow direction and flow rate will result in process inefficiencies or possible premature wear and valve component failure.
  • Positioning: Pay close attention to where in the piping you install the valve. Not all check valves will work in a vertical piping run.  It also includes ensuring that the valve is at least five pipe diameters away from elbows, tees, fittings or other valves which can cause turbulence
  • Orientation: Ensure that the valve is oriented properly by checking the flow arrow (often printed on a tag or permanently marked the valve itself). This arrow indicates the proper positioning relative to the pipe&#;s flow. 

Solutions to Your Check Valve Problems

Preventing check valve malfunctions like hammer pipe is critical to avoiding serious, costly damage to your pipes, valves or other expensive equipment. At DFT, we never want our clients to experience preventable system failure, which is why we&#;re sharing our expertise: in addition to this guide, we&#;ve put together a comprehensive webinar that expands on proper check valve installation and maintenance, providing expert guidance on piping design that works and lasts.

For specific questions about check valve selection for your application, contact our team. Whether you&#;re looking for a standard stock valve or a completely custom order, we&#;ll work with you to make sure you receive a functional, effective, and safe solution to your piping challenges. 

Axial Flow Check Valves 101 | THINKTANK

What is an Axial Flow in the Check Valve?

Axial flow in the check valve means the fluid or gas flowing parallel to the axis. It is an axial flow shuttle structure design, and the disc assembly with spring has cushioning and anti-vibration functions. When the medium flows downstream, it will push open the disc and the fluid through the body via axial flow channel circulation. And the spring here has a cushion effect to avoid the impact vibration between the disc and the body when a standard check valve opens. When the medium flows in the opposite direction, the disc closes very quickly, and the disc and the valve seat are tight fitted to cut off the fluid from the reverse flow direction.

axial check valve factory1

The axial flow check valves have a fast response and silent non-slam issue against pressure surge or damage from water hammer and are particularly designed for fast-reversing systems where backflow is a regular crisis.

What is Flow Check Valve?

An axial flow check valve is a kind of silent check valve. The check valve is driven by the medium itself and automatically opens and closes the valve disc. Generally, it is used to prevent the backflow of fluid or gases. A flow check valve can be called a one-way valve, non-return valve, backflow valve, backstop valve, and back pressure valve. An axial flow check valve has been a popular industrial valve since . This valve has the function of the general check valve and is designed with a shock-absorbing spring, combined metal seat, and soft seat structure, which is easy for end-user maintenance on site.

The axial flow check valve adopts a particular sealing structure. Whether the downstream pressure is high or low, the valve is permanently closed tightly and has excellent shutoff performance. It overcomes the disadvantage of the lack of shutoff performance of the general check valve at low back pressure. THINKTANK produced an axial flow check valve that has a unique axial flow shuttle structure. It has the advantages of small flow resistance, significant flow coefficient, compact design, etc. It is the best valve for oil and gas gathering and transmission pipeline systems, especially for the outlet of oil transmission pumps.

Typical Application

  1. Water hammer prevention system
  2. Pump discharge application
  3. Cooling water systems(Ethylene, LNG)
  4. Waterworks & transmission systems
  5. Potable & raw water
  6. Transmission pipeline compressor discharge
  7. LNG compressor train
  8. Multiphase pumping
  9. Subsea pump and flowline application

Introduction to Non-Slam Nozzle Check Valves

A nozzle check valve also is a kind of non-slam or silent check valve, which is designed as a self-actualizing device and responds in a piping system to either pressure or flow changes. The main purpose of a non-slam check valve is to restrict or shut off the flow in the reverse flow direction. The important thing is that the normal position of a nozzle check valve is a valve close position with silent and non-slam closing action.

Why Use Non-Slam Nozzle Check Valve?

The primary function of a non-slam nozzle check valve is to prevent the water hammer and closing rapidly without slamming. When flow is reversed in a pipeline, it will cause hydraulic shock waves to pass through the valve, it also called the water hammer phenomenon. The water hammer can cause damage to the equipment in the pipeline, so we must prevent this phenomenon. So selecting the right non-slam nozzle check valve is the best way to prevent damage from occurring and causing serious issues at the site when the valve is in a fully closed position during reverse flowing through.

The Working Principle of Axial Flow Check Valves

An axial flow check valve is a kind of non-slam check valve, when the valve closes it won&#;t have a slamming phenomenon, and there are no excess pressure spikes are generated. Aixa flow check valve is simply designed with spring-loaded and a single low-mass valve disc that enables fast response, and dynamic reaction to the reduction in flow. The working principle is easy to understand, when the disc of the axial flow check valve is opening, the force of the single disc and spring is balanced that resulting in uniform flow.

When the pressure difference between the upstream and downstream of the valve exceeds the crack pressure of the spring, the obturator moves and allows flow. With the venturi design that the flow area of the valve steadily decreases to the seat diameter, and the reduced flow area increases the dynamic pressure and reduces the static pressure, allowing the valve to open fully and quickly. The spring is selected to allow the disc to open fully and stabilize on its backstop under normal flow conditions.

When the flow rate is significantly reduced, the spring responds in advance to the force of the reduced flow.

Standards for Axial Flow Check Valves

Here is the list of standards for an axial flow check valve, it&#;s very important for your selection.

 StandardDescriptionSupplier of CertificateASME B16.34Applies to new construction and covers pressure-temperature ratings, dimensions, tolerances, materials, nondestructive examination requirements, testing and marking for the cast, forged, and fabricated flanged, threaded, and welding end and wafer or flangeless valves of steel, nickel-base alloys, and other alloys.  American Society of Mechanical Engineers (ASME)ASME B16.10Covers face-to-face and end-to-end dimensions of straightway valves and center-to-face and center-to-end dimensions of angle valves. ASMEAPI 598
EN -1, 2
Defines inspection, examination, supplementary examinations, and pressure test requirements for resilient-seated, nonmetallic-seated (e.g., ceramic), and metal-to-metal-seated valves of the gate, globe, plug, ball, check, and butterfly types.American Petroleum Institute (API)ISO Defines examinations and tests that a valve manufacturer needs to act upon in order to establish the integrity of the pressure boundary of an industrial metallic valve and to verify the degree of valve closure tightness and the structural adequacy of its closure mechanism.International Organization for Standardization API 6DAPI Specification 6D is an adoption of ISO : , Petroleum and Natural Gas Industries-Pipeline Transportation Systems-Pipeline Valves. This international standard specifies requirements and gives recommendations for the design, manufacturing, testing, and documentation of ball valves, check valves, gate valves, and plug valves for application in pipeline systems. API

Axial Flow Check Valve Manufacturers

Mokveld (Netherlands)

Mokveld is a Netherlands industrial valve brand, which has over 100 years of experience in the gas, oil, and water industry with expert knowledge, and it has advanced engineered valve systems for critical control and safety applications.

Sizes: 2&#; &#; 84&#;

Rating class: ASME 150 &#;

mokveld axial check valve

DFT (USA)

DFT is a famous brand of nozzle check valves, and it is formerly known as Durable Fluid Technology. DFT has been making in-line check valves and severe service control valves for over 70 years. It started with a customer&#;s need for a small metal-seated check valve that could be installed in any position while providing a tight shut-off. 

CRANE (USA)

Crane is a USA brand that is focused on chemPharma & Energy designs and manufactures highly industrial valves, such as check valves, plug valves, ball valves, butterfly valves, and so on. For nozzle type and non-slam check valve, it is called brand NOZ-CHEK, this nozzle check valve is specially designed for fast reversing systems where backflow is a constant concern. Typical applications include gas transmission, power generation, petro-chemical / chemical processing, hydrocarbon processing, and water transmission.

Sizes: 2&#; &#; 84&#;

Rating class: Class 150 &#;

high-performance nozzle type non-slam check valve

NOREVA GmbH (Germany)

Size range: 1&#; &#; 10&#; (DN 25 &#; DN 250)

Pressure Class: ASME 150 &#; ASME

noreva gmbh germany

THINKTANK is a new brand compared with the above international brands, but its advantage is cost-effective and reliable quality, which means the end-users, engineering&contractor don&#;t have to pay high costs for axial non-slam check valves but still have a stable performance. 

c check valves (1) no slam check valve bronze no slam check valve

Axial Check Valve Installation

The components of the piping system include pumps, valves, compressors, elbows, bends, and reducers, and it will cause turbulence in the flow stream. In case to improve the service time of an axial flow check valve, you need to install it in accordance with best industrial practice, which means we need to keep enough distance from the turbulence source that makes the valve is in fully developed flow. The following figures are the best practice installation for nozzle non-slam axial flow check valves.

Horizontal Flow Installation

horizontal flow

Vertical Flow Installation

vertical flow

Non-slam axial flow checks are also suitable for vertical flow up and down. But it requires more process conditions for selection and sizing, so if your application needs vertical flow installation, please feel free to contact THINKTANK&#;s representative for consulting. 

Sufficient Distance for Axial Flow Check Valve

sufficient distance for axial flow check valvesufficient distance for axial flow check valve2sufficient distance for axial flow check valve

To ensure turbulence is minimized, the axial flow check valve needs to be at least 4 diameters distance to downstream of a reducer or expander, so that to make sure flow at the valve is fully developed.

To avoid causing choked flow that makes the valve only partially open, we should install an axial check valve at least 2 diameters distance to upstream of a reducer or bend.

sufficient distance for axial flow check valve4sufficient distance for axial flow check valve5

If the axial flow check valve is installed close to a throttling valve, we should be installed at least 3 diameters downstream, or 2 times of diameters upstream.

If you are looking for a details introduction to the axial flow check valve, here is the catalogue you can free download.

Typical Applications for Axial Check Valves

Although axial non-slam check valves can be used for a variety of applications, in a growing number of niche industries, these valves are used primarily in the following areas:

Chemical & Pharmaceutical Industry

  • Chlorine gas
  • Phosphine
  • Aromatics
  • Polymers
  • Acids
  • Air separation
  • Corrosive substances
axial check valve factory4

Power Plant

  • Steam
  • Condensate
  • Boiler feed pumps
  • Cooling tower
  • Service water recirculator
  • River Water Intake
  • Renewable energy

Refining & Petrochemical

  • Hydrogen
  • Cracking
  • Steam
  • Crude oil
  • Ethylene
  • Propylene
  • Steam
axial check valve factory5

Oil & Gas

  • Regasification
  • Liquefaction
  • Centrifugal compressor discharge
  • Firewater piping
  • Oil/steam separation
  • Steam and CO&#; Injection
  • Oil and gas gathering systems

In Conclusion

Non-slam silence nozzle check valves are widespread in many industrial processes. THINKTANK manufactures a large diameter axial flow check valve with a floating valve disc design that can automatically compensate for errors caused by installation and wear in use to ensure that the sealing surface fits tight and improve the shutoff performance. Please do not hesitate to contact us if you have any questions or comments.

Sizes: 2&#; &#; 84&#;

Rating class: ASME 150 &#;

mokveld axial check valve

DFT (USA)

DFT is a famous brand of nozzle check valves, and it is formerly known as Durable Fluid Technology. DFT has been making in-line check valves and severe service control valves for over 70 years. It started with a customer&#;s need for a small metal-seated check valve that could be installed in any position while providing a tight shut-off. 

CRANE (USA)

Crane is a USA brand that is focused on chemPharma & Energy designs and manufactures highly industrial valves, such as check valves, plug valves, ball valves, butterfly valves, and so on. For nozzle type and non-slam check valve, it is called brand NOZ-CHEK, this nozzle check valve is specially designed for fast reversing systems where backflow is a constant concern. Typical applications include gas transmission, power generation, petro-chemical / chemical processing, hydrocarbon processing, and water transmission.

Sizes: 2&#; &#; 84&#;

Rating class: Class 150 &#;

high-performance nozzle type non-slam check valve

NOREVA GmbH (Germany)

Size range: 1&#; &#; 10&#; (DN 25 &#; DN 250)

Pressure Class: ASME 150 &#; ASME

noreva gmbh germany

THINKTANK is a new brand compared with the above international brands, but its advantage is cost-effective and reliable quality, which means the end-users, engineering&contractor don&#;t have to pay high costs for axial non-slam check valves but still have a stable performance. 

c check valves (1) no slam check valve bronze no slam check valve

Axial Check Valve Installation

The components of the piping system include pumps, valves, compressors, elbows, bends, and reducers, and it will cause turbulence in the flow stream. In case to improve the service time of an axial flow check valve, you need to install it in accordance with best industrial practice, which means we need to keep enough distance from the turbulence source that makes the valve is in fully developed flow. The following figures are the best practice installation for nozzle non-slam axial flow check valves.

Horizontal Flow Installation

horizontal flow

Vertical Flow Installation

vertical flow

Non-slam axial flow checks are also suitable for vertical flow up and down. But it requires more process conditions for selection and sizing, so if your application needs vertical flow installation, please feel free to contact THINKTANK&#;s representative for consulting. 

Sufficient Distance for Axial Flow Check Valve

sufficient distance for axial flow check valvesufficient distance for axial flow check valve2sufficient distance for axial flow check valve

To ensure turbulence is minimized, the axial flow check valve needs to be at least 4 diameters distance to downstream of a reducer or expander, so that to make sure flow at the valve is fully developed.

To avoid causing choked flow that makes the valve only partially open, we should install an axial check valve at least 2 diameters distance to upstream of a reducer or bend.

sufficient distance for axial flow check valve4sufficient distance for axial flow check valve5

If the axial flow check valve is installed close to a throttling valve, we should be installed at least 3 diameters downstream, or 2 times of diameters upstream.

If you are looking for a details introduction to the axial flow check valve, here is the catalogue you can free download.

Typical Applications for Axial Check Valves

Although axial non-slam check valves can be used for a variety of applications, in a growing number of niche industries, these valves are used primarily in the following areas:

Chemical & Pharmaceutical Industry

  • Chlorine gas
  • Phosphine
  • Aromatics
  • Polymers
  • Acids
  • Air separation
  • Corrosive substances
axial check valve factory4

Power Plant

  • Steam
  • Condensate
  • Boiler feed pumps
  • Cooling tower
  • Service water recirculator
  • River Water Intake
  • Renewable energy

Refining & Petrochemical

  • Hydrogen
  • Cracking
  • Steam
  • Crude oil
  • Ethylene
  • Propylene
  • Steam
axial check valve factory5

Oil & Gas

  • Regasification
  • Liquefaction
  • Centrifugal compressor discharge
  • Firewater piping
  • Oil/steam separation
  • Steam and CO&#; Injection
  • Oil and gas gathering systems

In Conclusion

Non-slam silence nozzle check valves are widespread in many industrial processes. THINKTANK manufactures a large diameter axial flow check valve with a floating valve disc design that can automatically compensate for errors caused by installation and wear in use to ensure that the sealing surface fits tight and improve the shutoff performance. Please do not hesitate to contact us if you have any questions or comments.

Are you interested in learning more about check valve leaking? Contact us today to secure an expert consultation!

axial check valve factory2

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