Search DRG

Search Results for:

Pulsation Suppression Devices (PSDs) are commonly used in gas compression systems to reduce the pressure pulsations due to reciprocating equipment. While BOSpulse has enabled one to build accurate models of PSDs, this has been a manual process involving the detailed specification of all elements making up a PSD. BOSpulse 5.1 simplifies this process significantly by providing a new, dedicated PSD Editor.

BOSpulse 5.1: Improved support for modeling PSDs

Pulsation Suppression Devices (PSDs) are commonly used in gas compression systems to reduce the pressure pulsations due to reciprocating equipment. While BOSpulse has enabled one to build accurate models of PSDs, this has been a manual process involving the detailed specification of all elements making up a PSD. BOSpulse 5.1 simplifies this process significantly by providing a new, dedicated PSD Editor.

Read More »
Dynaflow EFRC Conference Zagreb compressor #energytransition BOSpulse

13th EFRC Conference 2023

Next month Dynaflow Research Group will be one of the exhibitors at the 13th EFRC Conference in Zagreb. The EFRC is an institution promoting the interests of compressor users and compressor industry. #energytransition

Read More »

Standards and Codes

Standards and Codes ISO14692 committee DRG is a founding member of the ISO14692 committee, the DNV Committee for certification of fiberglass craftsmanship and is (co-)author

Read More »
The release of BOSpulse 5.1 brings improved support for modeling gases. The addition of a new Custom Gas type, for instance, enables you to specify a complete equation of state in the form of a table listing all relevant gas properties as a function of both the temperature and pressure.

BOSpulse 5.1: Improved support for modeling gases

The release of BOSpulse 5.1 brings improved support for modeling gases. The addition of a new Custom Gas type, for instance, enables you to specify a complete equation of state in the form of a table listing all relevant gas properties as a function of both the temperature and pressure.

Read More »