BAUER high-pressure storage systems – The essential components of your system

B 50 – 420 bar high-pressure storage system
B 50 – 420 bar high-pressure storage system
2 x B 80 – 330 bar high-pressure storage
2 x B 80 – 330 bar high-pressure storage
B 50 – 350 bar high-pressure storage system
B 50 – 350 bar high-pressure storage system
B 2000 – 330 bar high-pressure storage system
B 2000 – 330 bar high-pressure storage system

Modular system structure: The ideal way to expand your compressor system

Storage systems for a wide range of pressure stages: dimensioned for 330, 350 and 420 bar

Suitable for many media: air, nitrogen, inert gases and nitrox

A correctly dimensioned (storage) vessel is one of the most important components of the entire system. It will reduce pressure fluctuations when large amounts of air are consumed and minimise the number of compressor on/off cycles by providing the correct storage capacity.

At the same time, a carefully selected storage module optimises compressor distribution during runtime and also serves as a pulsation damper.

The storage systems are available in pressure stages of 330, 350 and 420 bar. They can be expanded as required by adding 50 or 80 l storage cyliniders.

All the information you need at your fingertips!

Storage cylinder with console
Storage cylinder with console

Storage cylinder with console
A module consists of a storage cylinder that is already piped and ready for connection to a console for floor or wall mounting. Based on 50 l or 80 l storage cylinders, these storage systems can be expanded as required.

Pressure vessel conforming to PED
Pressure vessel conforming to PED

Pressure vessels
The storage bottles conform to the European Pressure Equipment Directive (PED) 2014/68/EU and are designed for stationary applications.

Manual condensate drain
Manual condensate drain

Condensate drain
Condensate can accumulate even in high-pressure storage systems as a consequence of application conditions or due to inadequate air or gas treatment. Therefore, all standard storage vessels by BAUER KOMPRESSOREN have a manual condensate drain.

Safety valve and pressure gauge
Safety valve and pressure gauge

Safety valve and pressure gauge
Safety valve and pressure gauge are mounted on the console of the first module. This is essential if no other means of preventing the maximum permissible storage pressure from being exceeded is in place, e.g. approved safety valves on the compressor or in the supply line.

Other rules and regulations
Other rules and regulations

Rules and regulations
BAUER KOMPRESSOREN for specific applications or jobs can also be provided with approvals according to other rules and regulations (ASME or China Stamp, for example).

Scope of delivery, basic version
Scope of delivery, basic version

Scope of delivery, basic version
Standard module, storage module horizontal (B 800 … B 3360). Read more

How do I select the size of the storage system correctly to limit the number of start/stop cycles and load cycles?

The following information answers this important question and will help you to find the right storage system for your requirements.

A correctly dimensioned (storage) vessel is one of the most important components of the entire system. It will reduce pressure fluctuations when large amounts of air are consumed and minimise the number of compressor on/off cycles by providing the correct storage capacity.

For high-pressure compressors, remember that the final separator in the compressor and the storage vessel are only dimensioned for a certain number of load cycles, i.e.: the fewer compressor switching cycles, the longer the service life of these components.

To optimise the performance of the unit and maximise the service life of the final separator based on the number of permissible load cycles, the operation of the compressor should be regulated so that there are no more than 2 - 4 ON cycles every hour.

For your safety, cycle counters are installed in BAUER industrial compressors as standard to record the number of cycles actually completed.

The size of the storage system is determined by:

  • Free air delivery (l/min) of the compressor
  • Air consumption of the application concerned
  • Pressure difference between start and stop (hysteresis)

Simplified formula for the configuration of a high-pressure storage system based on 4 load cycles/hour:

V(l)

=

Vk × 4
---------
Δp

Vk (l/min) = Delivery rate of the compressor in litres per minute
V(l) = Storage volume in litres (water volume)
Δ p (bar) = Start/stop pressure difference (hysteresis) in bar

We recommend a pressure difference Δ up to max. 60 bar. Up to this difference, stationary HP storage bottles are generally permitted for use in continuous operation. Above this level, the vessels are limited with regard to the number of filling cycles. Please refer to the information in the documentation supplied with the respective pressure vessel.

High-pressure storage systems – for air, nitrogen, rare gases and nitrox
Storage system Operating pressure Volume geometric Number of vessels
  330 bar 350 bar 420 bar  Liter
B 50

 

 

50 1
B 50 (Nitrox)

 

50 1
B 80

 

80 1
High-pressure storage battery – horiziontal – for air, nitrogen and rare gases
Storage system Number of cylinders Total volume geometric Operating pressure Design
    Litres bar 1-rack 2-rack 3-rack
B 800 10 800 330

 

 

 

B 960 12 960 330

 

 

 

B 1920 24 1920 330

 

 

 

B 2400 30 2400 330

 

 

 

B 3360 42 3360 330

 

 

 

Downloads for the high-pressure storage systems and compressor accessories

BAUER Accessory Systems – The ideal enhancement to your compressor