Gas Scrubber Design

BEST TO BE VIEWED IN 1080p. This animation demonstrates an easy and effective way of designing a Gas Scrubber with MySep, Process Engineering Software for Separation vessels. See also http://www.mysep.com.

Gas Scrubbers are often referred to as Compressor Suction Drums, Knock out Drums, Knock Out Pots or Vertical 2 Phase Separators.

The Gas Scrubber design starts with the inlet piping, which determines the flow regime, the mist fraction and droplet size distribution entering the separator. A wide range of inlet devices, agglomerators and demisters can be selected. For the demisters one can choose from meshpads, vanepacks and demisting cyclones.

MySep features “automatic vessel sizing”, which provides the user fully automatic sizing of the vessel based on selected equipment and other optional criteria. For each internal, performance predications are incorporated, which have been prepared and correlated from physical tests at various R&D labs and operational data. Once the design is prepared an overall liquid carry prediction is provided.

For the full MySep movie, we do refer to the movie “Introduction to MySep” on this MySep Youtube channel (https://www.youtube.com/watch?v=969APV60qWE).

We also refer to http://www.mysep.com and for more information email us at info@mysep.com in case you have any questions.
What is MySep?
MySep is process engineering software for the design, evaluation and simulation of separation vessels such as separators and knock out scrubbers. MySep enables the user to effectively determine vessel sizes, select internals and assess the associated overall performance of each vessel. Furthermore, MySep can also be used to evaluate an existing design and determine its theoretical performance based on actual or simulated operating data.

MySep can be used independently and in conjunction with process modelling software such as Aspen HYSYS®, UniSim® Design, Petro-SIM™, VMGSim™ and ScimSci™ PRO/II. Interfaces to these process simulations allows each vessel to be rapidly designed for process requirements or existing units can be simulated in detail and separator performance results can be returned directly to the process simulator.

What is the power of MySep?
MySep answers questions and increases efficiency for both the design engineer and his company. To name a few:
• Predict and assess the performance of new and existing separators. Be in the know.
• Reduce engineering hours and costs
• Avoid re-engineering
• Mitigate risk

How can I use MySep?
MySep is set up such that the user is effectively guided through the design steps in the most efficient manner. At the same time, all aspects of the design are accessible at any time.

The effects of user input on key aspects of the design (e.g. droplet sizes, performance, residence times, etc) are calculated immediately and shown to the user in real-time. This allows fast optimisation of the design. MySep has built-in correlations for prediction of mist fractions, droplet size distribution and separation efficiencies at the various separation stages within the vessel. Nonetheless, the user has the possibility to override these predictions. By entering overriding values and reviewing the effect on overall performance, the user obtains insight in the sensitivity of the design.

MySep Main Features
MySep software has a wealth of features, that provide engineers with tools and insights to design and evaluate 2 phase and 3 phase separation vessels, horizontal & vertical in a comprehensive and efficient manner.

Phase separation
•Gas - liquid separation
•Liquid - liquid separation
•Liquid - sand separation

Automatic vessel sizing
•Full automatic sizing of the vessel based on selected equipment and other optional criteria

Simulator communications
•Bi-directional communication with process simulators:
◦Aspen HYSYS®
◦Petro-SIM™
◦ScimSci™ PRO/II
◦UniSim® Design
◦VMGSim™
•Pull process data directly from process simulator into MySep
•MySep-RunTime geometry file generation

Vessel weight
•Calculation of shell and heads thickness
•Vessel, tank, drum weight calculation
•Selectable vessel codes: ASME VIII Div 1, ASME VIII Div 2, PD 5500

Inlet piping
•Droplet size distribution prediction
•Liquid entrainment fraction and flow rate prediction

Inlet section
•Nozzle size, velocity and momentum calculation
•Inlet device selection: no inlet device, half pipe, vane type, inlet cyclones

Liquid levels
•Direct input of liquid levels setpoints
•Auto-calculation of level setpoints from height, volume and time requirements input

Demisting section
•Demisting device selection & performance predictions: Mesh pad, vane pack and cyclones
•Detailed geometrical parameters of equipment used in performance calculations.

Datasheet & Report generation
•Full report / datasheet generation

Check out all the benefits for your design on http://www.mysep.com.

Видео Gas Scrubber Design канала MySep