Potable Expansion Vessels

2L expansion vessel designed for heating and cooling systems. Manufactured from durable carbon steel and features a synthetic rubber bladder. Operates at a maximum working pr...

19L capacity suitable for potable water applications. Constructed from 304 stainless steel for corrosion resistance and durability. Maximum working pressure of 10...

Capacity: 24 liters, suitable for various applications including potable water. Built from 304 stainless steel for corrosion resistance and durability. Pre-charge...

Meets PED 97/23/EC Directive and BS EN 13831:2007 standards Capacity: 8L with a maximum working pressure of 10 bar Constructed from durable 304 stainless steel fo...

Capacity: 12 liters, suitable for diverse heating and cooling applications. Material: Constructed from high-quality 304 stainless steel for durability. Max Workin...

Designed for integration into heating systems with essential pressure management. Complies with PED 97/23/EC Directive and BS EN 13831:2007 standards for durability....

Capacity of 50L for effective thermal expansion management. Dimensions of 605 x 409mm for versatile and straightforward installation. Pre-set pressure of 4.0 bar; withs...

Designed for heating systems and potable water applications. Capacity of 80L with dimensions of 730 mm height and 480 mm diameter. Pre-set pressure of 4.0 bar; ma...

Designed for heating systems and potable water applications Meets PED 97/23/EC Directive and BS EN 13831:2007 standards 100L capacity; dimensions 835 x 480mm (H x Dia) Pre-se...

Optimises heating systems and potable water use. Constructed from high-quality materials for enhanced durability. 150L capacity with compact dimensions of 1015 x 480mm. Pre-s...

Designed for heating and potable water applications. Manufactured to PED 97/23/EC and BS EN 13831:2007 standards. 200L capacity suitable for large heating systems. Dimensions...

Capacity: 300L, ideal for large heating systems. Dimensions: 1270 x 634mm for efficient installation. Pre-set pressure of 4.0 bar for system stability. Maximum workin...