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Valves are mechanical or electro-mechanical devices commonly found in a myriad of industrial processes, manufacturing, and maintenance operations. These devices regulate the movement of fluids (liquid, air, gas, etc) via pipes and/or tubes, as well as from tanks or other containers. Moreover, these devices are primarily classified according to their function, design, and size.
Among all types of valves, the ball valve and globe valve are two of the most used valves in the industrial industry. In this article, we will learn about the advantages and disadvantages of both the ball valve and globe valve, as well as a comparison between the two types of valves.
The ball valve provides a quarter-turn operation to open or close. This conventional type of valve consists of a hollow rotary ball or disk, usually the size of the pipe, and a stem that connects it to the lever. The hollow ball and the lever of the valve rotate similarly and are parallel to each other, allowing the flow of fluids in the inlet and outlet in the valve body. Ball valves are used in any industrial applications that require fluid flow shut off.
Generally, ball valves operate with efficiency and a great deal of durability. As such, they tend to be cost-effective, low maintenance, and usually a durable choice for the savvy operator.
With the hollow rotary ball mechanism, the ball valve provides low-pressure drop and high flow capacity. Disturbances in the flow of fluids such as turbulence and resistance are minimal. Aside from that, ball valves also provide a bubble-tight seal with little torque and lack the need for routine lubrication.
Generally, ball valves provide high durability. They can provide ten-plus years of reliable use when fit to the right application. Moreover, materials selection in manufacturing ball valves enables them to withstand high pressure and lessens the wear due to environmental conditions such as corrosion and temperature.
Compared to the cost of ball valves vs a globe valves, it is extremely affordable. In addition, ball valves are a cost-effective option due to their lower maintenance requirements. This mainly derives from the quarter-turn mechanism of the ball valve. This mechanism makes it less prone to wear and tear. Another reason is that the use of a pivot concentrates all friction forces to one part of the valve, thus conserving the other parts. Moreover, ball valves typically weigh comparably little and take up a small footprint vs. globe valves.
The ball valves propensity to blockage, poor throttling capacity and space considerations are reasons that an engineer might wish to specify another valve.
It is not recommended to use ball valves on thick fluids such as slurries. Any thick fluid that passes through the ball valves may solidify, clog the flow and pile up in the cavities of the valve. This requires more maintenance and in the worst case scenario may render the valve inoperable and require replacement.
Ball valves should only be utilized in either a completely open or fully closed state and should not be used for long-term throttling. The partially exposed seat of the ball valve may be vulnerable to degradation and deformation in a throttling position due to high-velocity flows. For this reason, continuous throttling applications should never rely on a ball valve.
Since the mechanism involves a quarter-turn handle, engineers should consider available space prior to specifying a ball valve. An exposed handle in an area of egress or in the path of other equipment may create a hazard or operability issue.
The globe valve provides a multi-turn valve design starts, stops, and regulates the flow of fluids. The design is based on a disk, also called the plug, which lowers onto a seat, gradually restricting the flow as the valve closes. Globe valves are primarily used in industrial applications that require fluid throttling vs ball valves that are not generally recommended for throlling. One important feature is the valve seat orients parallel to the direction of flow.
Globe valves provide good shutoff capability, good throttling capability, high reliability, and a variety of flow configurations.
The globe valves plug or disc adjusts from fully open to fully closed to match the needed flow rate for a specific application, making them a great choice for precise regulation control. The flow restriction through the valve increases with the distance between the plug and the seat in the body.
Since globe valves find service in partially open configurations, they provide ideal throttling capabilities. Moreover, these valves are easy to maintain and resurface the seats and are specifically designed for throttling operation.
Globe valves travel a short distance during operation. Thus, fewer turns are required to fully open and close the plug or the disc. This saves time and wear on the valve parts. In a well-designed globe valve, high reliability ensues.
The glove valve provides three primary body designs (Tee, Angle, and Wye). Each body design provides a different flow path.
Tee is the most common type of globe valve. Angle globe valves can handle the slugging effect with its inlet and outlet at a 90° angle allowing fluid to flow in a single 90° turn. Wye valves have a 45° angle between the seat and stem providing a straighter flow path when fully open. This straight flow path translates into the lowest flow resistance among the three designs.
Some disadvantages that the engineers must consider when specifying a globe valve are the uni-directional requirement, high-pressure drop, and heavy weight.
The unidirectional requirement of globe valves means they can only start, stop and regulate the fluid flow in one direction.
Using globe valves in industry applications often results in high-pressure drops. Globe valves are specifically designed to change of direction of flowing fluid, thus increasing pressure drop. This pressure drops further increases during throttling applications.
Compared to other valve types, globe valves usually provide heavier weight and bulk. Subsequently, this requires greater force or a larger actuator to operate its mechanism.
After extensively discussing the advantages and disadvantages of using Ball and Globe valves in industrial processes, lets consider these factors and visit the table that compares key selection parameters.
ParameterBall ValveGlobe ValveMain FunctionDesigned primarily for shut-off and commodity-type flow applications.Designed for throttling action, such as regulating the flow of fluid.Operating MechanismBidirectional. The stem connects to a lever which is easier to operate with its 90° quarter-turn mechanism.Unidirectional. The stem connects to an external handwheel which moves the plug for fluid flow regulation.Visual DetectionThe position of the lever allows for the visual detection of the open or closed condition. The hollow ball and lever move in a parallel fashion.Despite being unidirectional, it is tough to detect the flow regulation and its open and closed state.DurabilityBall valves are generally more durable and less susceptible to damage.Globe valves are generally less durable and more prone to leakage and cavitation.CostWith its basic mechanism, it is typically less expensive than a globe valve.With its body design and bulkiness, it is usually more expensive than a ball valve.Common Industrial ApplicationsPotable water systems, Oil and gas, Flow regulation, Manufacturing processesCooling water systems, Fuel oil systems, Feedwater, Chemical feed systems, Steam vents and drainsBall Valve vs. Globe Valve OverviewA ball valve and a globe valve both control fluid flow, but their distinct designs suit various uses. Ball valves are simple to operate and inexpensive, and they provide an easy way to identify the valves opening status. Despite its excellent shut-off mechanism, it regulates flow poorly.
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On the other hand, globe valves may precisely control the flow and have great flow regulation capabilities yet are less convenient to use than other types of valves.
Which is best? Theres no right answer to this question. The answer to the ball valve vs. globe valve debate depends on its intended use. It is crucial to select the most suitable type of valve for the application to optimize performance and reliability.
Globe valves are linear motion valves that are widely employed to stop, start and throttle flow. In this blog, BM Engineering Supplies explains the function, advantages and disadvantages, and common applications of globe valves.
Globe valves are designed with a stem that moves up and down to regulate flow inside the valve, a disc (ball, composition, or plug) and seat, which is generally screwed into the valve body. Seats are designed in plane parallel or inclined to the line of the flow. These types of modulating valves are most commonly used to valve throttle, open or close flow in a system. The three basic globe valve body designs are Wye, Tee and Angle.
Advantages:
Good shutoff capability.
Moderate to good
valve throttlingcapability.
Shorter stroke (compared to a gate valve).
Easy to machine or resurface the seats.
Can be used as a stop-check valve.
Disadvantages:
Higher pressure drop (compared to a gate valve).
Requires greater force or a larger actuator to seat the valve.
The following are some of the typical applications of globe valves:
Cooling water systems.
Fuel oil systems.
Feedwater or chemical feed systems.
Boiler and main steam vents and drains.
Turbine lube oil system and others.
Bürkerts Type pneumatically operated 2/2-way globe valve fulfils tough criteria for process environments. Unrivalled cycle life and sealing integrity is guaranteed by the proven self adjusting spindle packing with V-seals. The design enables easy integration of automation modules whether they are electrical/optical position feedback, pneumatic control units, an integrated fieldbus interface. The fully integrated system has a compact and smooth design, integrated pneumatic lines, IP65/67 protection class, stainless steel housing (with threaded, clamp or weld connection) and superior chemical resistance. Suitable for 10 bar(g) steam, an explosion-proof version is also available.
Valsteam ADCAs PV25 On-Off valves are single seated, two-way body constructed with in-line straight connections. The PA pneumatic actuator features a rubber diaphragm and multi-springs, and its action can be DA-direct action (air to close) or RA-reverse action (air to open). Their wide application range allows these valves to be used with the most common process fluids, including water, superheated water, steam, air, gas and other non-corrosive fluids. Choose from either a single seated, two-way, direct or reverse action valve. The valves top flange is permanently attached to the body, meaning removal is unnecessary for replacing the actuator. Soft sealing comes as standard.
Bürkerts Type 2/2way Globe Valve consists of a pneumatically operated piston actuator and a 2/2way valve body. The actuator is made of PA or, for special operating conditions, PPS. The reliable selfadjusting packing gland provides high sealing integrity. These maintenancefree and robust valves can be fitted with a comprehensive range of accessories for position indication, stroke limitation or manual override. The Type features bubbletight shut off, ISA S75.03 FacetoFace dimensions and a stainless steel 316L valve body. Available with flow direction below and above the seat, three and four-inch tube weld ends are available, as is a compact globe valve version.
If youre in any doubt about which type of globe valve to opt for, or would simply like more information and guidance, BM Engineering would be only too happy to chat through your options with you. We stock globe valves up to 6 in size and can supply many variants on size and material from our partners on a next-day basis. Speak to a BM Engineering Supplies adviser today about our complete range of Globe Valves by calling 762 or .