Products

Valves are our thing!

Ball Valves

We offer a full range of ball valves in a variety of sizes, pressure ratings and materials, in wafer style, or screwed, welded or flanged connections
The restriction on size of ball valves is only one of exponentially increasing cost of production in larger sizes (from 8” upwards) but in small to medium sizes they offer good performance for a low cost.

A ball valve has a quarter turn spindle connected to a ball inside the valve. The ball has a hole, or port, through the middle so that when the port is in line with both ends of the valve, flow will occur. When the valve is closed, the hole is perpendicular to the ends of the valve, and flow is blocked. The handle position lets you see the valve’s position. On a floating ball type, the upstream pressure presses the ball against the seat, giving a tight shut off. On a trunnion mounted type, the ball is fixed; seat sealing action is achieved by the thrust of springs acting on the seat rings, as the pressure increases the fluid pressure pushes the seat rings against the ball.

Ball valves are durable and usually work to achieve perfect shutoff even after years of disuse. They are therefore an excellent choice for shutoff applications and are often preferred to globe and gate valves for this purpose, especially in smaller sizes. However, standard ball valves do not offer the fine control that may be necessary in throttling applications, but V ported ball variations are available for control purposes. The unrestricted bore in full bore ball valves make them ideal for hot tapping and pigging.
Being a quarter turn from fully open to fully closed, and having a relatively low operating torque, ball valves can be readily actuated for remote operation.

When selecting a ball valve, it is important to consider operating temperature and pressure, media properties, duty required and suitability for the environment

Call now to discuss your requirements.

Safety Relief Valves

We offer a full range of safety relief valves in a variety of sizes, pressure ratings and materials.

The safety relief valve and pressure reducing valve are types of valve used to control or limit the pressure in a system which can build up and cause equipment failure, or fire. On a safety relief valve, the pressure is relieved by allowing the pressurised fluid to flow from an auxiliary passage out of the system.

The relief valve is designed or set to open at a predetermined pressure to protect pressure vessels and other equipment from being subjected to pressures that exceed their design limits. When the pressure setting is exceeded, the relief valve becomes the “path of least resistance” as the valve is forced open and a portion of the fluid is diverted through the auxiliary route.

The diverted gas or liquid is usually routed through a piping system or released into the atmosphere. As the flow is diverted, the pressure inside the vessel will drop. Once it reaches the valve’s re-seating pressure, the valve will re-close.

Pressure reducing valves regulate the outgoing pressure at a constant preset level, even if the inlet pressure varies.

Call now to discuss your requirements

Check Valves

We offer a full range of check valves in a variety of types, sizes, pressure ratings and materials.

Also known as Non-Return Valves, A Check Valve allows fluid, liquid or gas to flow through it in only one direction. They are two-port valves, meaning they have two openings in the body, one for fluid to enter and the other for fluid to leave. Check valves work automatically and most are not controlled by a person or any external control; accordingly, most do not have any valve handle or stem. Although they are available in a wide range of sizes and designs, many check valves are small, simple, and low cost.

Some of the types of check valve we supply include:

A swing check valve is a check valve in which the disc, the movable part to block the flow, swings on a hinge or trunnion, either onto the seat to block reverse flow or off the seat to allow forward flow. This is the traditional design, and they are simple in operation. They are however, relatively large when compared to more modern designs like wafer checks. Swing checks are prone to wear at the hinge if flow is not constant (ie near a pump outlet)

A wafer check valve does not use a large body to allow the plate to swing through, but uses the pipeline itself. This significantly reduces weight and cost. The addition of springs make the valve close quicker and dampens movement in turbulent flow. Twin plate checks offer even quicker response, and do not protrude as far into the pipeline when open

A lift-check valve is a check valve in which the disc, sometimes called a lift, can be lifted up off its seat by higher pressure of inlet or upstream fluid to allow flow to the outlet or downstream side. A guide keeps motion of the disc on a vertical line, so the valve can later reseat properly. When the pressure is no longer higher, gravity or higher downstream pressure will cause the disc to lower onto its seat, shutting the valve to stop reverse flow.

A piston check is essentially a lift check valve. It has a dashpot consisting of a piston and cylinder that provides a damping effect during operation, and is therefore suitable for variable flow rates and directions.

A double check valve is often used as a backflow prevention device to keep potentially contaminated water from siphoning back into water supply lines

It is important to consider many factors in the choice of a check valve; operating temperature and pressure, media properties, orientation, turbidity of flow, frequency of operation etc

Call now to discuss your requirements

Globe Valves

We offer a full range of globe valves in a variety of sizes, pressure ratings and materials.

Globe valves are linear motion valves with rounded bodies, from which their name is derived. When globe valves are open, the fluid flows through the space between the edge of the disc and the seat. These valves are widely used in industry as a fully open or fully closed on/off valve, but they may be used for throttling as long as fine adjustments are not required. Globe valves are therefore ideal to control the flow of gases such as steam. Modifications to the plug and seat profile will allow for more precise throttling, and in their most refined form are control valves.

Globe valves provide the following advantages: they offer positive shut off or throttling and control and have high pressure limits. They do not stick when closed for a period of time and do not suffer from jamming like some gate valves when subject to temperature fluctuation. Their main disadvantage is that their flow characteristics cause significant pressure drop.

Being a linear operation, and requiring a low operating force to open, globe valves can be readily actuated for remote operation.

Globe valves can be straight through, angle or oblique pattern. the oblique pattern increases the flow coefficient to reduce the pressure drop.

When selecting a globe valve, it is important to consider operating temperature and pressure, media properties, flow requirements,duty requirements, physical limitations and suitability for the environment. When installing it is vital to ensure that the valve is positioned so that the flow is from the bottom of the valve to the top.

Call now to discuss your requirements

Control Valves

We offer a full range of control valves in a variety of sizes, pressure ratings and materials.

A flow control valve regulates the flow of a fluid. Control valves normally respond to signals generated by independent devices such as flow meters or temperature gauges.

Control valves can also work with hydraulic actuators (also known as hydraulic pilots). These types of valves are also known as Automatic Control Valves. The hydraulic actuators will respond to changes of pressure or flow and will open/close the valve. Automatic Control Valves do not require an external power source, meaning that the fluid pressure is enough to open and close the valve. Automatic control valves include: pressure reducing valves, flow control valves, back-pressure sustaining valves, altitude valves, and relief valves.

An altitude valve controls the level of a tank. The altitude valve will remain open while the tank is not full and it will close when the tanks reaches its maximum level. The opening and closing of the valve requires no external power source (electric, pneumatic, or man power), it is done automatically, hence its name.

Call now to discuss your requirements

Miles Goggle Valves

T. Brighton Valve Services have been appointed sole distributors for the range of Miles Goggle valves; offering supply of new valves, repairs and refurbishment of existing valves and associated equipment

Hydraulic Ram Goggle Valves for all types and conditions of gases: –

1. Complete range up to 108″ bore.
2. Manual, motorised and remote controlled units.
3. Unrestricted bore
4. Positive shut-off.
5. Immediate and rapid operation
6. Self supporting
7. Built-in expansion joint for seat separation.
8. Entirely self-contained.
9. Low or high temperatures and pressures.

The MILES Goggle Valves is of fabricated and welded mild steel construction and has a fully balanced goggle plate, on a specially designed pivot, to enable free floating movement when the seats are separated. The valve is designed for gas mains where a positive shut-off is required. Built-in expansion bellows allow the valve seats to be separated in order to swing the goggle plate. The bellows are sealed against the ingress of dust.The valve seating rings are made of stainless steel and are renewable, being separately bolted to the valve. Seals within the goggle plate seating ring are of an appropriate material chosen to suit the individual operating conditions.Uniform seating pressure is assured by a number of matched helical springs placed equidistantly around the periphery of the valve. The springs are opposed by hydraulic rams, which are used only to separate the seats in order to free the goggle plate for swinging. These rams are capable of exerting sufficient pressure to overcome the springs and any adhesions from deposits at the valve seats.Swinging of the goggle plate from open to closed position or vice versa is easily and readily effected either manually by chain operation through a reduction gearbox or hydraulically through an actuator. If required, a motorised drive can be supplied for remote use.No special supports are required to carry the valve. The bore of the valve is completely unrestricted, thus there is no loss of pressure through the valve.All working parts are fully protected and readily accessible; for instance, the hydraulic rams can be removed without in any way affecting the clamping force. The springs can also be replaced one by one in the unlikely event of this being necessary.The complete valve is contained between the flanges; no parts projecting beyond the face of the flanges. During inoperative periods, the fluid in the hydraulic system is under a constant low pressure, which prevents air being drawn through the rams into the system and also ensures instant response when pumping commences.The valve can be adapted for operation in vertical or sloping mains.

T Brighton Valve Services offer supply of new valves, refurbishment of existing valves and supply of spares and associated equipment. We also install and carry out repairs and inspections on site.

Call now to discuss your requirements

Butterfly Valves

We offer a full range of butterfly valves in a variety of sizes, pressure ratings and materials; in wafer style, lugged and tapped or fully flanged. The relatively low cost of production in medium to large sizes, and their low weight compared to gate valves makes butterfly valves a popular choice for shut off and throttling.

A butterfly valve is from the family of quarter turn valves. The “butterfly” is a metal disc mounted on a spindle. When the valve is closed, the disc is turned so that it completely blocks off the passageway. When the valve is open, the disc is rotated a quarter turn so that it allows unrestricted passage.

A wide range of body, disc and seat materials are available to cope with most applications, from ambient temperature water to high temperature, high pressure and corrosive products. They can also be designed for vacuum and cryogenic service.

The basic butterfly valve uses an elliptical disc to give a tight shut off; off setting this disc on the spindle gives lower operating torque, lower abrasion of the seat, and tight shut off even with metal seats. The disc may be double or triple offset, and these are known as high performance butterfly valves.

The restricted bore in butterfly valves make them unsuitable for hot tapping, but the disc design means that the valve has a relatively low CV when fully open, giving low pressure drop when compared to say a globe valve. The design lends itself to throttling, and with disc modifications, makes excellent control valves.

Being a quarter turn from fully open to fully closed, and having a low operating torque, butterfly valves can be readily actuated for remote operation.

When selecting a butterfly valve, it is important to consider operating temperature and pressure, media properties, duty required and suitability for the environment

Call now to discuss your requirements.

Gate Valves

We offer a full range of gate valves in a variety of types, sizes, pressure ratings and materials, with wafer type, screwed, welded or flanged connections. Gate valves are available from small to very large sizes.

Gate valves are so-named because the part that either stops or allows flow through the valve acts like a gate. The valve opens by lifting a round or rectangular wedge out of the path of the flow. Gate valves are designed to be fully opened or closed and are therefore not suitable for throttling purposes. When fully open, the typical gate valve has little or no obstruction in the flow path, resulting in very low pressure drop, and they are often suitable for hot tapping and pigging.

Gate valves are generally designed for use with the flow of liquids and gases but there are variations to cope with specific requirements. For example, one problem with wedge gate valves in steam service is that when the valve is closed and steam is brought into the system, the metal wedge expands and can get stuck, making opening the valve difficult or impossible.

Parallel slide valves are designed for use with steam, or other fluids at high temperature. A spring is fitted between the valve discs to keep them in contact with the body seat and thus allow expansion. In addition, the sliding action of the valve discs across the body seat during operation assists in removing any foreign matter such as scale that may have accumulated on the respective faces. In the closed position, positive shut off is achieved by the inlet pressure forcing the downstream disc firmly onto its respective seat. The maximum closing force therefore occurs when the isolated downstream section of the pipework is completely exhausted of pressure, i.e. when there is maximum differential pressure across the valve body. This pressure differential would typically need to be 3 or 4 bar to give satisfactory shut off.

Knife-gate valves are used when sediment may block a normal wedge gate. The gate is a narrow plate with a shaped edge to cut through solids. They are ideal for applications with a high suspension of solids or fibrous content such as powders, slurry, ash and pulp. Care should be taken when specifying knife gate valves to state whether flow is uni- or bi-directional.

Resilient seated gate valves incorporate a soft seat in the wedge to give a tighter shut off; some valves have an elastomer coated wedge to achieve this. These valves are particularly suited to gas service, provided the materials are chosen carefully.

Wedge gate valves, particularly in larger sizes, are difficult and expensive to actuate for remote operation, requiring a rotary motion to lift the gate, but parallel slides, with a lower gate mass offer less of a challenge. Knife gates can easily be pneumatically actuated, being a linear movement.

When selecting a gate valve, it is important to consider operating temperature and pressure, media properties, duty requirements, physical limitations and suitability for the environment.

Call now to discuss your requirements

Actuated Valves

We offer a full range of actuated valves in a variety of types, sizes, torque ratings and materials.

TYPES OF ACTUATORS

Manual Actuators
A manual actuator employs levers, gears or wheels to facilitate movement; while an automatic actuator has an external power source to provide the force and motion to operate a valve remotely or automatically. Power actuators are a necessity on valves in pipelines located in remote areas: they are also used on valves that are frequently operated or throttled. Valves that are particularly large may be impossible or impractical to operate manually simply by the sheer horsepower requirements.
Some valves may be located in extremely hostile or toxic environments, which preclude manual operation. Additionally, as a safety feature, certain types of power actuators may be required to operate quickly, shutting down a valve in case of emergency.

Hydraulic and Pneumatic Actuators
Hydraulic and pneumatic actuators are often simple devices with a minimum of mechanical parts, used on linear or quarter-turn valves. Sufficient air or fluid pressure acts on a piston to provide thrust in a linear motion for knife gate or globe valves. Alternatively, the thrust may be mechanically converted to rotary motion to operate a quarter-turn valve. Most types of fluid power actuators can be supplied with fail-safe features to close or open a valve under emergency circumstances.

Electric Actuators
Electric actuators have a motor drive that provides torque to operate a valve. Electric actuators are frequently used on multi-turn valves such as gate or globe valves. With the addition of a quarter-turn gearbox, they can be utilized on ball, plug, or other quarter-turn valves.

Why use valve actuation?

• The use of actuated valves will allow for greater productivity.
• Provide greater safety and convenience of operation for valves underground, overhead, in remote locations, or in hazardous environments.
• Aid in precision valve timing for critical operation of automated systems.

Call now to discuss your requirements

Safety Relief Valves

We offer a full range of safety relief valves in a variety of sizes, pressure ratings and materials.

Pressure reducing valves regulate the outgoing pressure at a constant preset level, even if the inlet pressure varies.

Call now to discuss your requirements

Other Valves

T. Brighton are experts in the field of industrial valves. As well as the types mentioned above, we can also supply any other type of valve you require including;

• Angle-Seat Valves:
Utilize an ultra-compact actuator to move a piston back and forth within the valve body. On/off control and continuous control designs are available for gases, steam, and liquids. The construction of the body allows extremely high flow rates, particularly in comparison to conventional globe valves.

• Diaphragm Valves / Pinch valves:
Use a flexible diaphragm to shut off flow. The centre of the diaphragm is pushed down onto a seat. Pinch valves use a screw to restrict the flow through a flexible section of pipe within the valve (rather like a mangle!). Use these valves for fluids that are dirty or have a high particulate content.

• Elliptic Valves:
Similar to ball valves except elliptic valves use an elliptic O-ring to seal the cylinder during rotation. The seal design makes these valves ideal for vacuum applications.

• Manifold Valves:
Have one common port to two or more additional ports. For mixing, use the common port as the outlet; for distributing, use the common port as the inlet.

• Metering Valves:
Multi-turn valves designed to regulate the flow of fluid. These valves generally have low flow rates and high pressure differentials.

• Needle Valves:
Feature the most accurate flow control among the valves we offer. They are an excellent choice for precise metering of liquids or gases.

• Plug Valves:
Used primarily for on/off service. Controls flow using a plug with a hole through it, and operate on a quarter turn. The plug is lubricated to facilitate easy movement and to maintain the seal. Plugs can be made of rigid materials such as Teflon¨, making them ideal for high-purity applications.

• Pressure Valves:
Designed to control or limit pressure not flow in a system. These self-actuating valves will either open a relief port or bypass the fluid when a preset limit is reached.

• Proportioning Valves:
Designed to produce variable flow rates. Valves open and close in proportion to the signal from your controller.

• Sample Valves:
Special three-way valve designed to tap off a portion of the main flow for sampling purposes.

• Sanitary Valves:
Feature Tri-Clamp connections and 316 stainless steel body construction for sanitary and high purity applications.

• Solenoid Valves (Direct Lift):
Use a plunger that is actuated to open or close the fluid path. These valves usually have low flow rates and high differential pressure drops. They generally have quicker response time than pilot-operated valves.

• Solenoid Valves (Pilot-Operated):
Utilize pressure created by air or liquids for actuation purposes. These valves are either piston or diaphragm types and require differential pressure to keep valve closed. Because they don’t have a plunger, they are usually available in larger orifice sizes than direct lift valves.

Call now to discuss your requirements