Expansion tank

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An expansion tank or expansion vessel is a small tank used to protect closed water heating systems and domestic hot water systems from excessive pressure. The tank is partially filled with air, whose compressibility cushions shock caused by water hammer^{[citation needed]} and absorbs excess water pressure caused by thermal expansion.^[1]

Description

The modern vessel is a small container or tank divided in two by a rubber diaphragm. One side is connected to the pipe work of the heating system and therefore contains water. The other, the dry side, contains air under pressure, and normally a Schrader valve (car-tire type valve stem) for checking pressures and adding air when needed. When the heating system is empty or at the low end of the normal range of working pressure, the diaphragm is pushed against the water inlet; as the water pressure increases, the diaphragm moves, compressing the air on its other side.

An older style of expansion tank was larger, oriented horizontally, and had no rubber diaphragm separating the water from the air pocket. This now-obsolete style would gradually transfer air from the tank to the highest point in the system, due to air dissolving in the water, and then coming out of solution elsewhere in the system. This in turn required periodic draining of the expansion tank, as well as periodic bleeding of unwanted air from other sections of the system, to maintain its effectiveness.

The rubber diaphragm in modern expansion tanks prevents this undesired transfer of air, and helps maintain low levels of dissolved oxygen within the pipes, reducing corrosion in the system.

Domestic applications

When expansion tanks are used in

In the past, domestic plumbing systems often contained more air than they do currently^[citation needed], and the trapped air acted as a crude expansion buffer. In new and upgraded systems, expansion tanks are designed in and installed^[2] more frequently than in the past.

In the UK, prior to the use of sealed expansion tanks, "open" tanks were installed in the roof space to accommodate the water's expansion^[

sometimes unpredictable.

Domestic

hydronic

heating and cooling systems generally include an expansion tank to buffer pressure changes due to expansion and contraction of the water used for heat transfer.

A minimum pressure of 28–34 kPa; 0.28–0.34 bar (4–5 psi) at the top of a closed hydronic system is suggested.^[3]

In Europe the design and the construction of expansion tanks are ruled by EN 13831 according to Pressure Equipment Directive (PED) 97/23/EC.

Automotive applications

An expansion tank, also known as "overflow bottle", is also used in the cooling system of most internal combustion engines, to allow the coolant, such as antifreeze, and the air in the system to expand with rising temperature and pressure. The tank is also called a "coolant recovery tank", since it prevents venting and permanent loss of coolant, by allowing it to be sucked back into the cooling system as the engine cools.

Larger systems

Similar devices are used in large-scale pumping stations, where they may be called an expansion chamber^[4] or a hydrophore, to maintain an even pressure and to reduce the effects of water hammer.

See also

• Hydronics
• Hydraulic accumulator

References

1. ^ Boyle Schwartz, Donna (16 April 2014). "Expansion Tanks: What Are They and Why Are They Important?". bobvila.com. Retrieved 26 September 2022.
2. ^ S Miller, Joseph (March 27, 2023). "How to install expansion tank on water heater". Notankheaters. Retrieved October 16, 2023.
3. ^ ACHR News | Pressurization Of Closed Hydronic Systems
4. ISBN 9781856175135
   . Retrieved 7 January 2020.