ProSim SA
Immeuble Stratège A
51, rue Ampère
F-31670 Labège

Tel. :+33 (0)5 62 88 24 30
Fax :+33 (0)5 62 88 24 39

ProSim Inc
325 Chestnut Street
Suite 800
Philadelphia, PA 19106

Tel. :+1 215 600 3760
Fax :

  • We make sure to deliver a Premium Support and knowledge for you to realize the full potential and functionalities of your software. Our customers are our Priority!

Release note December 2017


The latest version of the software are available to our customers now for download from the Support web site: access your Support area 

If you are not yet a ProSim's customer, contact us for more information about our software and services.
ProSimPlus 3.6.2
  • More flexibility to describe the fuels:  added inert elements for the description of the fuels or the material to be degraded. Are concerned the following unit operations: combustion, boiler, fuel engine, fuel turbine and methanization reactor.
  • Taking into account the SOx: this option is in addition to the NOx and CO processing options already implemented in these unit operations: combustion, boiler, fuel engine and fuel turbine. It allows users to have a more detailed representation of the combustion products.
  • The new ProSimPlus features above are also available.
  • New "Dryer" unit operation: the dryer (DRY) unit operation allows to simulate the single-belt drying system by conveying a stack of particles. The principle of the drying process by conveying consists in drying a wet and solid product by direct contact with hot air or combustion fumes. In this unit operation, the gas flows perpendicular to the belt. The gas which enters the dryer is hot and with a low relative humidity.
  • New "GIBBS reactor" unit operation: addition of a unit operation to represent a chemical equilibrium using the method of minimizing Gibbs free energy.
  • New "Plate oxido-absorption column” and "Oxidation plate" unit operations: extension of the functionalities of "plate oxido-absorption column” and "absorption plate" unit operations, and addition of "oxidation plate" unit operation. The user can now connect external material streams identified as utility streams (maximum 3) for the cooling of the trays.
  • Implementation of a new management system for electrolytic models: integration of a system, open to the user, for the management of reactive thermodynamic models, including electrolytic models.
  • Addition of a COSMO model: integration of a model based on COSMO developed with the company Roquette and Clermont-Auvergne University (UCA) for biological and food mixture.
  • Addition of new electrolytic models: eNRTL and Pitzer. 
BatchColumn 1.4.20
  • Addition of the management of a vapor tank connected to the condenser. The user can now distinguish the production of vapor from the production of liquid.