Sustainable Energy

Carbon Capture and Sequestration (CCS)

ProMax stands as the premier simulator for pre- or post- combustion capture processes, facilitating the efficient removal of CO2 from gas streams.

We can help you with modelling the following technologies used in CCS:

  • Amine Sweetening using generic amines, physical solvents, and proprietary solvents
  • CO2 Compression, dehydration, and injection
  • CO2 Liquefaction
  • Membrane separation
  • Low temperature distillation
  • SOx removal
  • Hot Potassium Carbonate process
  • And MORE!

Renewable Natural Gas

Model a variety of processes to upgrade biogas to a variety of qualities, including pipeline quality:

  • Pressurized Water Scrubbing
  • Membrane Separation
    • Fiber Film
  • Acid Gas Removal
    • Sulfur Removal
    • Amine Treating
    • DEPG
  • Cryogenic Processing
    • CO2 Freeze Out
    • Low Temperature Distillation

Renewable Diesel

Enhances to our AutoKinetic Reactors and thermodynamic predictions allows modeling of the complete Renewable Diesel Process!

  • A range of triglycerides and fatty acids
  • HDO reactor with multiple pathways
  • Isomerization Reactor
  • Recycle Gas Treating
  • Product Separation

Blue Hydrogen

ProMax 6.0 is a great choice for simulating the various Blue Hydrogen production options which often include Carbon Capture, Utilization, and Storage (CCUS).

Relevant reacting systems below can be modeled using ProMax:

  • Steam Methane Reforming with Flue Gas CO2 Capture
  • Autothermal Reforming
  • Pre-reforming
  • Tri-reforming

Green Hydrogen

With ProMax 6.0, BR&E introduces new process blocks for simulating water electrolysis to produce Green Hydrogen:

  • Polymer Electrolyte Membrane (PEM)
  • Alkaline Water Electrolysis (AWE)
  • Solid Oxide Electrolysis (SOE)

Many alternate combinations of properties available for solving the electrolyzer including:

  • Total Power Input
  • Hydrogen Production Target
  • Fraction Inlet H2O Conversion
  • Current Density
  • Area per Cell
  • Cells per Stack
  • Stacks per Facility