2017년 5월 23일 화요일

5 Benefits of Nickel Alloy Pipes

Nickel 101Nickel_Tube-2

Nickel is a ductile, hard, silvery white material. You rarely find it alone, but you will find as an alloy in a wide variety of different materials. It’s used in the coins we pay with, the tools we build with and many other stainless steel items, including household objects like magnets, batteries and ceramics. It can even be added to things like guitar strings and glass. And, of course, you’ll find it a number of different nickel alloy pipes, which is our favorite application!

The Benefits of Nickel Alloys

Okay, so nickel alloy is fairly ubiquitous material. But why? Well, it has a number of different characteristics that make it useful in a variety of environments. Some of them include:

  • Resistance to Heat
    Certain nickel alloys can withstand extremely high temperatures. Nickel-chromium alloys comprised of over 15% chromium have been known to endure temperatures exceeding 760 celsius. And copper nickel pipe is no slouch either when it come to heat resistance. The ability of nickel alloy to endure high temperatures makes it a desirable pipe choice in machinery or other structures that create intense heat.
  • Resistance to corrosion
    Oxidation reactions occur when metal encounters oxygen. It’s these reactions that cause corrosion. However, nickel has a slower rate of oxidation than most metals. This allows nickel alloy pipes to resist corrosion longer, especially in highly corrosive conditions like marine environments.
  • Low Rate Of Expansion
    Many nickel-iron alloys display a very low rate of thermal expansion or an extremely predictable rate of expansion. This makes nickel alloy pipes desirable in environments where you need a uniform size and shape despite high temperatures. For example, during moderate temperature increases, Iron-36% nickel almost doesn’t expand at all. And when cobalt is combined with nickel and iron, the resulting material not only has great strength, but also a constant modulus of elasticity and a low coefficient of expansion.
  • Shape Memory
    Sometimes, your project requires a material that can revert to its previous shape after it encounters heat. This type of material, a shape memory alloy, is extremely rare. But some nickel alloys have this useful property. For example, nickel-titanium alloy is one of the most important shape memory alloys.
  • Magnetic Permeability
    Nickel-iron alloys have unique magnetic permeability qualities. Consequently, they have become an important part in designs for switchgear and direct current motors and generators.

As you can see, nickel alloys have many advantages that make them desirable in a host of applications. Do you think a nickel alloy pipe would be right for your next project? We carry many types, including copper nickel pipe. Contact us to learn more.

We manufactures various pipes and fittings. If you are interested in our company, please feel free to contact us.

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How does it work : Gate Valves

parallel-slide-gate-valves-1All valves are designed to stop, allow or throttle the flow of a process fluid. Gate valves, one of the original valve designs, are ideally suited for on/off, primarily liquid, service.

A gate valve functions by lifting a rectangular or circular gate out of the path of the fluid. When the valve is fully open, gate valves are full bore, meaning there is nothing to obstruct the flow because the gate and pipeline diameter have the same opening. This bore diameter also determines the valve size. An advantage of this full-bore design is very low friction loss, which saves energy and reduces total cost of ownership.

Gate & Segment

There are four primary designs for gate valves – a slab gate, an expanding gate, a wedge valve and a knife gate valve.

  • Slab gate valves are comprised of a single gate unit which raises and lowers between two seat rings and are primarily used for transporting crude oil and NGLs. The Cameron GROVE G4N fabricated gate valve and WKM Saf-T-Seal gate valve are ideal choices for this application.
  • Unlike a slab gate valve that only has one unit, an expanding gate valve includes two units – a gate and segment. The gate and segment units collapse against each other for travel, and separate when the valve is fully opened or fully closed, to affect a mechanical seal.
  • Wedge gate valves are comprised of a tapered gate that is metal-to-metal sealing. In contrast to a slab gate valve or an expanding gate valve, wedge gate valves are not piggable because of the void that is left in the bottom of the valve body when the valve is open. These valves do not have a bore through the gate itself – instead, the gate retracts into the valve body when open – which saves height space that is necessary for slab and expanding gate valves.
  • A knife gate valve is used to cut through extremely thick fluids and dry bulk solids. The design of this valve makes it inherently self-cleaning, as the knife is cleared of abrasives with each stroke as it passes the seat rings and skirts. The gate unit of this type of valve is thin compared to other gate valve types and is guided in place by the water-type body that sandwiches the gate.

Stem

Gate valves can have either a rising or non-rising stem design. Rising stems are attached directly to the gate and provide a visual indicator of the valve position. Non-rising stems are generally threaded into the upper part of the gate and have a pointer threaded onto the top to indicate position. Non-rising stem designs are ideally suited for applications where vertical space is limited, in well applications and where scraping/pigging is not required.

Gate valves are designed with a sealing unit to provide a tight seal around the stem. Our unique Single Loaded Spring (SLS) stem seal design, used exclusively on WKM Saf-T-Seal and Pow-R-Seal gate valves, provides superior leak protection and a self-adjusting seal designed to reduce maintenance.

Bonnets

Gate valves generally have one of four types of bonnets, which provide closure from leaks for the body of the valve. Screw-in bonnets are simple, durable sealing units that use pressure to affect a seal. Union bonnets provide easy access to the valve body for applications that may require frequent maintenance or inspection. Bolted bonnets are generally used for larger valves in higher pressure applications. Finally, pressure seal bonnets are designed for services with high pressure in excess of 15MPa (2250 psi).

Applications

Because of the diversity of construction materials, trim offerings, and design combinations available with gate valves, they are appropriate for use in a wide variety of applications. From high-temperature coking units to food and pharmaceutical services, gate valves can be trusted to reliably perform.

The protected seat face design of double expanding and slab gate valves eliminates degradation of the seat face caused by debris in the process fluid, which makes them ideal for liquid service. When additional protection is needed at points in pipeline applications where operational integrity is vital and the consequences of environmental exposure are higher, such as near waterways and municipalities, double- expanding gate valves are a particularly wise choice.

Our smaller 2” to 4” non-rising stem version of the WKM Pow-R-Seal Model M is commonly utilized in wellhead manifold systems because of its reliable mechanical seal and high pressure capability.

Certain gate valves also can be designed easily into drilling manifold systems, like the Cameron DEMCO DM series, with space saving and versatile mounting designs.

In the power industry, NEWCO and DOUGLAS CHERO gate valves are ideal for standard and critical applications, such as steam distribution in power plants. By replacing the body and bonnet flanges with a welded connection, the design of this valve eliminates a leak path, reduces weight and simplifies the application of exterior insulation. This, in concert with the forged steel body, provides the highest integrity sealing available.

For the challenging subsea environment where pressures are extremely high, temperatures are low and operation is difficult, subsea manifolds that integrate valves and interface panels are used for critical isolation. The simple design of the Cameron RING-O slab gate valve is ideally suited for integration into these systems and can be manually, ROV or hydraulically actuated for ease of operation.

We made a variety of valves. If you are interested in these parts, you can feel free to contact us.

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Types of Valves – Multi-turn valve & Quarter-turn valve

The operative of the valve closure member

The kind of closure member movement defines both the geometry and operative of the valve.

Multi-turn valve (linear motion valve): globe-valve-motion

The closure member has a linear displacement generally by turning its threaded stem several times.

This operation is slow, but it gives accuracy and stability to position the closure member, which is necessary in some control valves.

Types of valves: Gate valveGlobe valve, Fixed cone valve, Needle valve and Pinch valve.

Quarter-turn valve (rotary valve): butterfly-valve-motion

The closure member as well its shaft turn 0º-90º; from the fully-open position to the fully-closed position.

They are quick opening/closure valves.

Types of valves: Ball valve, Butterfly valve, Plug valve, Spherical valve.

The functionality of the valve

  • Control: pressure / flow rate regulation.
  • Closure at over-speed flow. (i.e. immediate closure if downstream pipeline is broken by accident).
  • Overpressure protection.
  • Back flow prevention (check valve).
  • On/Off service.

The nature and physical conditions of the flow

  • Low/High temperatures.
  • Low/High pressures.
  • Cavitation risk.
  • Corrosive or erosive properties of the flow.
  • Viscosity: Gas, liquid, solid.
  • Hygiene requirements (for the food or pharmacy industry…).
  • Explosion and risk of inflammability (chemical, petrochemical industry).

Other forms of valve classification

  • Admissible leakage level.
  • Connection to the pipe.
  • An unique direction of the flow or bidirectional flow.
  • Number of ports: most of the valves have two port, named inlet and outlet port. But for same applications there are multi-port configured valves. They can be three-way and four-way valves.
  • Angle between the inlet and outlet port of the valve.

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Shipping Preparation

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Fall Workshop in 2016 (2/2)

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Fall Workshop in 2016 (1/2)

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