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What pipe holds the most pressure?

21 Oct.,2024

A Deeper Understanding to Pipe Sizes and Pressure Ratings

Identifying steel pipes by size is supposedly straightforward since it only involves three measurements &#; diameter, thickness, and length. Unfortunately, it has surprising technicalities that confuse many people, especially laymen.

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For instance, everyone is aware of pipe&#;s diameter as the length of an edge-to-edge straight line passing through the center of its circle. But when we say &#;edge&#;, is it the outer side of the pipe, the inner side of the pipe, or the middle of the pipe wall? Another thing is pipe thickness. Automatically, this dimension should be read in millimeters or inches, however, pipe gage or thickness is well known to be represented by &#;schedule&#;. But what does &#;schedule 20&#; or &#; schedule 40&#; stands for, and what specific thickness reading they corresponds to? These are the usual uncertainties, but more inconsistencies are actually expected to come across when dealing with multiple pipes from different sources in the market.

There is no trick in it, nor too much information to bear in mind. The key is to get familiar, first with terminologies, moreover with the underlying practices and patterns on how steel pipes in different industries are classified according to standards

TERMINOLOGIES

NPS - is an abbreviation for Nominal Pipe Size, which is the term used to identify the diameter or size of a pipe. For example, NPS 2 means a 2-inches pipe.
NB &#; stands for Nominal Bore. It is the same as NPS but commonly used in the USA to identify pipe size.
DN &#; is a short cut for Nominal Diameter which is the International and European metric system equivalent of NPS or NB. To convert NPS to DN, simply multiply NPS number or value by 25 (since 1 inch is approximately 25mm). So to convert NPS 2 into DN, 2 x 25 = 50. Therefore, DN 50 is the equivalent of NPS 2 or NB 2 in the metric system.
ID &#; means Inside Diameter. For process pipes, it is the circle that can be occupied by a medium &#; liquid or gas. It is obtained by taking the overall outside diameter of a pipe less twice the wall thickness (ID = OD &#; 2x thickness).

OD &#; means Outside Diameter or the measurement of the outside edges of a pipe passing through its center

MANUFACTURING STANDARDS

Pipes from NPS 1/8 (DN 6) to NPS 12 (DN 300) is based on fixed OD. While the wall thickness increases, the ID of the pipe decreases. So in this case, the NPS is somewhere in between the OD and ID. This means that for smaller pipe diameters, it is normal to obtain OD measurements which are larger than the NPS or size.

For pipes from NPS 14 (DN 350) and up, the OD is the same as the NPS. In this case, if the pipe is NPS 20, we expect an OD which is exactly 20 inches or 500mm.

WHAT IS PIPE SCHEDULE?

Schedule, abbreviated as SCH or SCHED, is a measurement that denotes wall thickness of a pipe. Remember, it has NO UNIT such as millimeter or inch as commonly misunderstood. It is a numbering system inspired by Barlow&#;s formula and introduced by the American Society of Mechanical Engineers (ASME) to simplify the identification of pipe thicknesses.

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By formula, Schedule Number = 1,000 x (P/S);

P = working stress or service pressure in (psi)

S = allowable stress in (psi)

According to ASME B63.10 and B63.19, standard pipe schedules are: 5, 10, 20, 30, 40, 60, 80, 100, 120, 140, 160, STD, XS, and XXS for carbon steel and wrought iron pipes; and 5s, 10s, 40s, and 80s for stainless steel pipes.

STD = standard thickness (same as SCH 40S, and 40S is identical to 40 for NPS 1/8 to NPS10,inclusive)
·XS = Extra Strong (same as SCH 80S, and 80S is identical to 80 for NPS 1/8 to NPS 8, inclusive)
XXS = Double Extra Strong (wall is thicker than schedule 160 from NPS 1/8 to NPS 6 inclusive, and schedule 160 is thicker than XXS wall for NPS 8 and larger)
Above NPS 10 STD has a wall thickness of 3/8 in. (9.53 mm)
Above NPS 8 XS has a wall thickness of ½ in. (12.5 mm)

To understand this better, we consider a piping situation where P = 300 psi and S = 10,000 psi.

Schedule Number = 1,000 x (300/10,000) = 30; this means that pipe schedule 30 is adequate for the design pressure or use schedule 40 for a conservative factor of safety.

KEY POINTS TO REMEMBER

Pipe schedule numbers are non-dimensional or has no unit. SCH 40 doesn&#;t mean the pipe is 40 millimeters or 40 inches in diameter.
SCH 40 stainless steel pipe has a smaller wall thickness than a SCH 40 carbon steel pipe due to different superiority of the two steel pipes.
Nominal pipe size only refers to the diameter of the pipe. A complete size specification should include the NPS, schedule or thickness, and length.
Increasing the wall thickness of the pipe increases the mechanical strength of the pipe, allowing it to handle higher pressure ratings.
For process pipes, internal diameter (ID) is given more importance because it is the parameter used for sizing calculations. The volume of liquid or gas passing through a process pipe depends on its internal diameter.
For structural applications, the ability of pipe to resist loads and stresses is the most critical consideration. This is characterized by its pressure-bearing capacity.
Schedule 40 is, of course, thicker than schedule 20; schedule 80 is thicker than schedule 40; and so on.
Pipe dimensions &#; diameter, thickness, and length, has allowable tolerances as per standards. This means having minor discrepancies in the measurements IS NOT a ground for rejection.

PROFESSIONAL ASSISTANCE

Using LSAW, SSAW, and ERW pipe manufacturing processes, ESC can supply steel pipes from 21mm to 4,267mm in diameter at thicknesses from 2.1mm to 100mm, at a wide range of steel grades. ESC has been providing thousands of tons of steel pipes all around the world, especially for the construction and marine industries.

Please contact us at www.escglobalgroup.com for your steel pipe requirements. We design, produce, and deliver!

CPVC Can Handle the Pressure: A Comparison of ...

Domestic water plumbing systems are one of the highest liability systems in a home or building. Water damage from a failed plumbing can result in significant claims and in a domestic plumbing system, not only are you routing water throughout a building &#; those water pipes are held under constant pressure.

Water pressure can wreak havoc in a plumbing system in two ways:

Excessive pressure resulting in a burst pipe
Special pressure limitations to reduce the risk of corrosion or degradation

While burst pressure is the most frequently considered pressure concern, degradation related pressure limits are increasingly becoming a factor in building using PEX plumbing systems.

Burst Pressures: Safety Factor Considerations

The plumbing codes require that all domestic water plumbing systems be pressure rated at 100psi at 180°F, this means that the system must be capable of handling at least 100psi of pressure at 180°F without ballooning or bursting. The codes, however, do not specify a minimum pressure rating at lower temperatures.

At room temperature, FlowGuard Gold® CPVC is pressure rated to 400psi and at all normal operating temperatures (up to 140°F) FlowGuard Gold CPVC is pressure rated above 200psi. That means you will never have to worry about an over-pressure situation in a FlowGuard Gold potable water system.

Unfortunately, PEX plumbing systems are pressure rated at as much as 60% lower than a FlowGuard Gold plumbing system. With a maximum pressure rating of 160psi, it is entirely possible for system pressures in a multifamily or commercial building to exceed the rated pressure for a PEX system.

Chlorine Related Pressure Limitations

FlowGuard Gold Plumbing Systems can handle the pressure regardless of local water conditions, however with a PEX plumbing system the presence of chlorine can significantly reduce the pressure capacity of the pipe.

Per the chlorine resistance test standard ASTM F and Plastics Pipe Institute Technical Note-53, in chlorinated water PEX is not intended for use at pressures over 80psi. This limitation is not because the pipe will burst above 80psi, but because the pipe becomes significantly more vulnerable to the influence of chlorine degradation at higher pressures.

When a PEX plumbing system handling chlorinated water operates at pressures above 80psi, there a significant increase in the risk of chlorine-induced degradation, pin-hole PEX leaks and failures.

Chlorine degradation on PEX piping taken from a home in Washington

How Pressure Limits Can Be Exceeded

Water pressure in a building is typically under 80psi, but the pressure limitation on PEX can easily be exceeded under many circumstances.

Elevated street pressures &#; street pressures of 80-130psi are fairly common, especially in municipal water systems with significant elevation changes or booster pumps. While these pressures may not be seen during the day, when many homes are drawing off a system, but overnight when system demand drops pressures can spike
Mid-rise and high-rise construction &#; In taller buildings, plumbing systems can be designed with either gravity fed pressure, relying on water stored at or near the top of the building, or on booster pumps to ensure adequate system pressure at the higher floors. Both of these system designs run the risk of pressures in excess of 80psi.
Failed, unbalanced or non-existent expansion tanks &#; As water gets hot, it expands, as the water expands in a piping system it has nowhere to go, so the pressure in the pipes will increase. To address this, in many new homes, expansion tanks are added. These expansion tanks are mechanical in nature and typically rely on a balanced air pressure diaphragm to absorb the pressure spikes. If the air pressure is not properly balanced to the system water pressure, the tank can fail to absorb the pressure. If the tank fails, becomes unbalanced, or was never installed, the pressure spikes associated with hot water can easily exceed 80psi.
Failed or non-existent pressure regulating valves (PRVs) &#; In structures where high water pressure may be anticipated, builders often specify the inclusion of pressure regulating valves (also known as pressure reducing valves or PRVs for short). Similar to an expansion tank, a PRV is a mechanical component that typically features a spring-loaded diaphragm which restricts the water flow to reduce the pressure on the outlet side of the valve. Over time, the mechanical components in a PRV often seize up or fail, leaving the PRV inoperable. When this happens, pressure in the system can easily exceed the 80psi limit in a PEX system.

FlowGuard Gold CPVC Can Handle the Pressure

Water pressure can have a significant impact on plumbing system performance. Whether you&#;re looking for an extra safety factor in a larger building or in a residential building where pressures may exceed 80psi &#; a FlowGuard Gold CPVC plumbing system can handle the pressures that PEX systems simply cannot.

While mechanical systems like expansion tanks and PRVs can be added to reduce the risk, mechanical pressure regulating systems are prone to failure and should not be relied on to prevent a piping system from exceeding its pressure limitations.

With a pressure rating of 400psi at room temperature and at least 200psi up to 140°F you can trust FlowGuard Gold CPVC to provide peace of mind that your plumbing pipes can stand up to the pressure found in your projects. If you&#;re still using a PEX plumbing system, it's time to make the switch. To speak to a representative about how FlowGuard Gold can help you build better homes, contact us now.

Are you interested in learning more about Heavy duty pipe supports? Contact us today to secure an expert consultation!

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