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Pressure seal Gate Valves

The high pressure gate valve, also called pressure seal gate valve, is designed and manufactured according to ASME B16.34, API600, and the valve has the characteristics of beautiful appearance, compact structure and reliable seal. It is suitable for various pipelines of Class900 to Class4500.

 

Operating principle pressure gate valve:
Before the high pressure gate valve is boosted, turn the tightening bolt to raise the bonnet, so that the initial formation between the bonnet, the segment ring, and valve body created sealing condition – preload pressure on the sealing surface. When the media pressure increases, the sealing pressure between the bonnet, segment, valve body increases gradually with the increase of medium pressure. In self-tight sealing, the working seal pressure on the sealing surface is synthesised by two parts: one is the pre-tight seal pressure, and the other is the pressure formed by the pressure of the medium. It should be emphasised that: the media pressure in a self-tightening seal always tends to increase the preload seal pressure to increase sealing performance. The higher the media pressure, the greater the operating seal pressure and the better the sealing performance.

 

The main features of the high pressure gate valve:
①    The self-sealing structure can make the connection between the valve body and bonnet of the high-pressure valve tightly structured, labor and material saving, safe and reliable.
②    The high pressure gate valve uses a combined structure at the bonnet pressure self-sealing, to achieve a linear seal, while its seal ring uses Austenitic stainless steel, anti-corrosion, extends the life of the use, thus ensuring that the valve seal is not leaking under high pressure difference.
③    When the high pressure gate valve is in the 2500LB and above, the inner cavity of the valve body and the contact area of the sealing ring are welded with stainless steel material to avoid the valve body sealing area being eroded by air and water under high pressure difference, which may cause pitting leakage, thus ensuring the safe and long-term operation of the valve.

 

Self-sealing structure of the high pressure gate valve:
The pressure seal gate valve uses a sealing structure combined with the packing outer seal and the internal pressure self-sealing at the stem seal to ensure that the medium does not leak. The outer seal of the stem is filled with polytetrafluorene or O-ring packing, which is pressed tightly with packing gland. Under the action of media pressure, the upward pressure is generated, the greater the pressure of the medium, the greater the sealing force, this structure is suitable for high media.

Gate Valves

 

Gate Valves – Pressure-seal

Size 3″ to 42″ (80 mm to 1050 mm)
ASME Class Class 600 to 2500
Design Standard ASME B 16.34, API 600

Beyond Standards:

  • Pressure-seal Gate Valve design conforms to ASME B 16.34.
  • The design was successfully validated by conducting in-house High Pressure High Temperature (HPHT) Gas Tests on ultra-high pressure valve prototypes.
  • Flow Interruption Test successfully conducted on 8″ Class 600 Pressure-seal Gate Valve suitable for Main Stream Isolation Valve (MSIV) service in nuclear power plants – at Areva, Germany.
  • Fugitive Emission – 14″ Class 2500 Pressure-seal Gate Valve (test pressure of 431 bar at ambient and 289 bar at 400 degree C) has been tested successfully as per ISO 15848-1, endurance Class CO2 and Tightness Class BH
  • CE Marking – Meets requirements of Pressure Equipment Directive 2014/68/EU, Annexure III, Module H
  • Atex – Meets requirements of Atex Directive 94/9/EC (ATEX), category 2 non-electrical equipment
  • SIL3 Safety Integrity Level for Automated Valves
  • Pressure-seal Gate Valves (up to Class 2500) used in Oil & Gas industry tested to ISO 15848-1 Class BH
  • Pressure-seal Gate Valves successfully tested to Shell Design Validation Test 77/300 and witnessed by Shell Inspectors

Features that Add Value:

  • Valves in intermediate classes reduce total cost of ownership
  • Pressure-Seal mechanism utilizes line pressure to enhance seal; ensures sealing integrity at higher operating pressures.
  • Higher hardfacing thickness (3 mm) to ensure consistent hot hardness
  • Disc guides hardfaced for longer life
  • Customised deposition process in F91/ C12A valves to avoid delamination of hardfaced surfaces
  • Live loading of bonnet bolts for F91/ C12A valves
  • Special high purity graphite packing (seven rings) provided for pressure rating > Class 2500 in Power applications
  • Live loading of bonnet bolts and gland bolts for all valves in F91/ C12A construction

Versatile Solutions:

  • Available in a cast and forged steels and exotic metallurgies for a wide variety of applications
  • By-pass arrangement provided for over-pressure protection based on customer requirement
  • Accessories: Heat Dissipation Bonnets, Dashpot Arrangement, Limit Switches, Extension Spindles and Position Indicator
  • STV Valve Technology Group Co., Ltd is a professional leader China 1500Lb cast steel Pressure Seal Gate valve,CAST STEEL GATE VALVE 1500Lb ,1500 lb Cast Steel Gate Valve Pressure Seal ,Flange Gate Valve,High Pressure Gate Valve,Pressure Seal Gate Valve Manufacturer with high quality and competitive price.
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What is a segment ball valve?

A segment ball valve is a type of ball valve with a V-notch contour segment in the ball. Segment ball valves are control valves that have good control, rangeability, and shutoff capability. This valve is capable of producing high capacity and non-clogging flow control. Segment ball valve manufacturers design the ball with special contours to enhance capacity and shutoff integrity and seal life. Segment ball valves are known to be economical and of high performance. These valves can be of a wide variety such as from small and lightweight valves to large heavyweight valves. The lightweight valves are easy to mount and handle. The heavy-weight segment ball valves are used in harsh environments to deliver optimized control and for on/off applications. Due to such features, segment ball valves find use in many industries such as paper and pulp industries, refinery, and petrochemical services among others. These valves are durable and reliable even when used in harsh environments.

Figure: Segment Ball Valve Torque

Figure: Segment Ball Valve Material

Components of segment ball valve

Some of the main components of segment ball valve are:

Valve housing 

This is the component that is used to house all internal components of the segment ball valve. This part is made using rigid and hard materials, thermoplastic lined metallic materials, or thermoplastics to protect components of the valve. This part also allows for the external components to access the controlling mechanism to rotate the ball thus opening or closing the flow.

Segment ball 

This is a V-shaped contoured ball. This segment ball has is used as the opening for the fluid to flow. The segment ball provides shear action to produce flow characteristics.

Shafts 

The shafts are used to connect the segment ball valve control mechanism to rotate the segmented ball. The shafts are made with packing rings and O-rings that help to seal the shaft as well as a bonnet to prevent leakage. The shaft can be operated manually, using a pneumatic or electric actuator.

Seat 

The seat is used to provide sealing between the segment ball valve body and segment ball.

Bearing seals

These seals protect metallic bearings from fluid ingress.

 

How does a segment ball valve work? 

A segment ball valve is a quarter-turn ball valve. It operates similarly to an eccentric plug valve. The valve has shafts that help to enlarge the center flow path. A driving shaft connects to one side of the ball and a follower shaft connects to the opposite side. When the driving shaft rotates, the segmented ball rotates exposing the flow path via the V-notch. The use of V-notch enhances a large range of fluid flow because of a small area of flow at low travel and maximum travel allows a large flow area. Segment ball valves can have two end connections for the body that is the flanged and flangeless connections.

 

Types of segment ball valves

Side entry segment ball valve 

The side entry segment ball valve is a valve of high performance. This valve is made based on the O type of ball valve. Side entry ball valve helps to convey solid-gas and solid-liquid two-phase medium. This means that this valve can control the flow of solids and liquids or gases and solids conveniently.

Features of side entry segment ball valves are:

  • Easy operation. This is because the segment ball valve can be moved away from its seat with no contact thus having small starting torque.
  • The side entry segment ball valve has a straight-through valve body which makes it keep the medium flow linear when it is fully opened. This helps to reduce energy loss compared to other valves.
  • The side entry segment ball valve has a double eccentric structure making the segment ball valve perfectly sealed and tightly closed.
  • When the side entry segment ball valve is closed, its shear force can remove foreign matter thus it is known for anti-scaling performance.

 

Figure: Segment Ball Valve Flow Rate

Top entry segment ball valve 

The top entry segment ball valve is a valve suitable for use in pharmaceutical, chemical, and food processing where excellent and fast cleaning is needed. This segment ball valve has certain advantages which make it preferred in industries that need clean products such as:

  • Easy and quick cleaning of the interior and piping parts without removing the valve.
  • Quick and easier replacement of worn out parts.
  • It does not have spare parts inside the body

 

Features of segment ball valves 

Integrated valve body 

Segment ball valve manufacturers design the valves in a one-piece body. This helps to provide greater rigidity against fluctuations in pipe loads. These valves have a side entry structure that enhances rigidity and makes it hard for leakage and deformation despite high stress due to fluid and closing torque.

Segment ball 

Segment ball valve manufacturers make the valve with a V-port segment ball. This helps to provide a wide range of abilities to control fluid flow. This makes the valve suitable for throttling applications with high consistency and syrup services. The segment is designed so that it can provide optimum flow and its hard-coated spherical face prevents galling.

Self-lubricated bearing 

A segment ball valve designs employ double bearings on the lower and upper valve stems to provide good stability. This makes the contact surface with stem bigger and enhances low coefficient of friction and high carrying capacity as well as reduce operating torque.

Soft and metal sealing seat 

Segment ball valve manufacturers make the valves with either PTFE or metallic seats. The material depends on the intended medium of flow. Metal seats sealing faces are overlaid with hard and strong alloy while the surface of the ball is hardened using hard chromium plated, plasma nitriding among others. This helps to enhance the service life of the sealing face as well as improve temperature resistance. Seats made of PTFE or RPTFE have excellent seal performance, have good resistance to corrosion, and are of wide applications.

Economical practicality 

Segment ball valves manufacturers aim to make these valves as lightweight as possible and of small stem torque. Such critical design parameters make the valve be installed with small electric or pneumatic actuators, and be cost-effective relative to small size or other class of regulating valves.

 

Selection of segment ball valves 

Type of operation 

This is the case where one is supposed to decide the type of mechanism to power the actuator. The actuator can be manual, pneumatic or electric. The actuator type depends on the power source available for example, electricity or compressed air as well as required torque. Pneumatic actuators provide high torque values while the electric actuators have a high initial cost but their operating cost is lower relative to pneumatic ones.

Housing material 

The segment ball valve should be such that the material used to make the housing is compatible with the media being controlled. Different materials have different properties such as:

Brass is suitable for non-corrosive and neutral media, durable, resists high temperatures, not suitable for salty water, acids and chlorides.

Stainless steel is resistant to chemicals, abrasion-resistant, resistant to high temperatures, but not good to chlorides, hydrochloric acids, bleach, and bromine.

PVC material is good for corrosive fluids like acids, salty water, bases, and organic solvents. However, it is not resistant to chlorinated and aromatic hydrocarbons. PVC temperature and pressure resistance are lower relative to that of brass and stainless steel.

Pressure rating 

The segment ball valve selected should be able to withstand maximum and minimum fluid pressure during operation. The pressure rating of the segment ball valve will be determined by the material used to make the housing. Strong materials like stainless steel can withstand high pressure compared to PVC material.

Working temperatures 

Different segment ball valve materials can withstand different levels of temperature from minimum to maximum values. The temperature range of the segment ball valve is determined by the seal and housing material. Brass material can withstand temperatures in the range 20°C to 60°C, stainless steel material can withstand temperatures in the range of -40°C to 220°C, while PVC segment ball valve can withstand temperatures between -10°C to 60°C.

Standards and approvals 

Depending on the use of the segment ball valve, the valve manufacturers may need to follow certain standards from regulatory bodies. This is often required for valves to be used in drinking water, food products, pharmaceuticals, or gas.

 

Segment ball valve actuators 

The segment ball valve can use different types of actuators to open and close. The types of actuators that can be used by these valves include manual, pneumatic actuators, and electric actuators.

Manual segment ball valve actuator 

This is a segment ball valve actuator that is powered by a human hand. This type of actuator has a handle where the operator applies torque to turn the handle and thus turn the valve mechanism to open or close the valve.

Rack and pinion pneumatic actuator 

Rack and pinion pneumatic actuators are actuators used in segment ball valves for opening, turning, and closing the valve as it may be needed. These actuators convert the energy of compressed air by using pneumatic cylinders to oscillating rotary motion. These actuators require dry, clean, and processes gas to provide by a central compressed air station.

Electric actuator

These actuators are used in segment ball valves to control the closing and opening of the valve. These actuators can provide rotary or linear motion. As the name suggests, these actuators use electricity to enhance their work. The torque to open/close the valve is transmitted using a shaft to open or close the valve.

 

Applications of segment ball valves

  • Segment ball valves are used to control flow in paper and pulp industries.
  • These valves are used to control the flow of chemicals in chemical plants.
  • They are used in sewage treatment plants as they can work on solid particles.
  • They are used in power industries to control the flow of heating and cooling fluids.
  • They are used in petroleum industries as they can withstand flammable products.
  • Segment ball valves are used in pharmaceutical industries to regulate the flow of production compounds.
  • They are used in food industries because of their ease to clean and maintenance.

 

Advantages of segment ball valves 

  • Segment ball valves have high efficiency.
  • These valves are simple in design.
  • Segment ball valves design makes them of small weight and volume.
  • These valves are easy to disassemble and repair.
  • Segment ball valves design makes them have a perfect seal.
  • They can provide low-pressure drop and high flow rates.
  • The segment ball valve opens and closes quickly.
  • These valves are easy to clean.

 

Disadvantages of segment ball valves 

  • Cavities around the seat tend to cause blockage.
  • When used in solid particles it can get eroded and thus start leaking fluid and failing.

 

Troubleshooting segment ball valve 

Gland packing leakage 

  • Loose gland nuts. Tighten the loose gland nuts.
  • Worn out gland packing. Replace gland packing.
  • The stem is corroded or scored. Clean stem or replace it as well as gland packing.
  • The stuffing box is corroded. Clean it and replace gland packing. The segment ball valve can be replaced if it has excess corrosion.

Leakage on the bottom plate gasket 

  • Loose nuts. Tighten the nuts.
  • The gasket is damaged. Replace the gasket.
  • Corrosion/damage in the seal area. Clean corrosion or replace the plate and body depending on the level of damage.

Through bore leaking fluid 

  • The segment is not in the full closing position. Fix close limit travel in the actuator.
  • Misalignment between seat and segment. Loosen gland packing to center the segment. Make sure to tighten the gland packing again after alignment so it has enough torque.
  • Entrapped or solidified media. Clean seat spring and sealing surfaces.
  • Seal seat damaged. Replace the damaged seals.
  • The segment or seat is damaged. Replace as necessary.

High segment ball valve torque 

  • Over tightened gland nuts. Reduce the torque on the gland nuts to the levels recommended by the segment ball valve the manufacturer.
  • Operating segment in the reverse direction thus disengaging it from the seat. Make liner retainer lose to re-engage the seat and the segment in a closed position. Enhance the liner retainer torque after segment and seat are aligned.
  • Actuator/operator misaligned with the valve stem. Loosen fasteners and modify the mounting base to be parallel and ensure the operator is centered. Tighten the fasteners.
  • Damaged bearing. Replace it.
  • Damaged segment or seat. Replace as necessary.
  • Accumulated or solidified media. Remove the media from the valve cavity, seat, segment, and clean sealing surfaces.
  • The segment ball valve was installed in the wrong orientation. The valve needs to be installed according to the flow indicator tag.

Summary 

A segment ball valve is a ball valve that makes a quarter turn to open/close the fluid flow. This valve has a hollow spherical ball segment supported by bearing and shaft at the actuator side of the valve. The other end of this valve has a bearing and a post. The segmented ball rotates about a pivot to make a continuous single upstream seal in a closed position. The seal of this segment ball valve is obtained through a flexible elastomer or flexible seat ring that presses against the spherical segment. Segment ball valves body is made of strong materials mostly stainless steel with flangeless or flanged construction.

Segment ball valves can be classified as side entry segment ball valves and top entry segment ball valves. These valves employ a design and technology that helps them to work even in viscous fluids and slurries. These valves are used in many industries such as petrochemical, pharmaceutical, food processing, sewage treatment, chemical processing among others. The segmented ball valves have many applications due to their superb features such as ease of cleaning, ease of repair and maintenance, simple design, small size and weight, corrosion resistance, and high strength to stand slurries. Important parameters to consider when purchasing a segment ball valve are actuator type, pressure rating, working temperatures, housing materials, standards and approvals.