Manifolds valve are used extensively throughout the gas and oil industry for the distribution of fluids and gases. They are designed to converge different junctions into a one channel or diverge a single channel into different junctions. Easy manifold valve systems generally check our site used to divided one supply input to different output, with more hard systems incorporate integral valves or an electronic network interface. The specific specs of a manifold will largely be determined by a specific application it is to be used in.
In the gas and oil sector, manifold systems are used within development, exploration and production phases, particularly in wells using surface testing equipment. They can do any number of work, including:
- Divert gas or oil to surge or gauge tanks for measurement or storage
- Direct flow to a manufacture line, or from the separator to crude oil burner for disposal.
- Maintain flow when testing needs that certain tools be pulled out of service.
Picking the best manifold valve
When picking a manifold valve system, there are a number of considerations to take into account some of these contain:
Pressure – Pressure is exerted by the gas or oil as it flows via the system. Most compressed gases, for example, are unlikely to surpass three-thousand psig, anyway, there are conditions that can raise gas forces to as much as six-thousand psig. It is essential that the weakest part of the manifold system can manage forces bigger than the force exerted. Further, regular maintenance is needed to make sure that wear and cyclic fatigue has not compromised the manifold capability to manage its designed highest pressure.
Temperature range of manifold valve equipment should be based on careful assessment of both present and future uses and applications. For example, a manifold may be designed to manage gases or liquids of a specific temperature, anyway, a production progresses, the PVT (volume, pressure, temperature) features of the raw product may change. Ensuring that manifold valve are designed to manage such changes is vital to stopping mechanical damage and preserving full safety.
Manifold material selection
Manifolds can be produced from a number of materials. Picking the best material will ultimately be dictated by the operation the manifold will be used in. For example, the corrosion and lightweight resistance nature of aluminum matches applications dealing very corrosive fluids and excessive wear. On the other hand, steel provides high physical strength and can be coated for bigger corrosion resistance. Stainless steel is perfect for very corrosive applications. Ductile iron is used when both mchinability and resistance are vital. Thermosetting or thermoplastic polymers, of differing molecular grade and weight, can be used to provided security again specific kinds corrosion and chemical hit.
The bottom line
In gas and oil, as well as other industrial sectors, manifold systems are very important parts for the distribution of gases and liquids. They are important junctions and safeguards in a big range of processes.