AFRY Intelligent Scenario Modelling is a powerful and flexible software tool for creating dynamic models and performing deterministic or probabilistic simulations. AFRY Modelling Software can be used for conducting risk assessments of complex dynamic systems evolving over time with any number of species.
Read more about AFRY Intelligent Scenario ModellingAFRY Intelligent Scenario Modelling can be installed for a one-month free evaluation period, with all toolboxes and functionality activated. Get started by registering or signing in to your account.
Download and Try AFRY Intelligent Scenario Modelling 30 daysAFRY Intelligent Scenario Modelling can be adapted and customised for any specific usage and needs in conducting risk assessments of complex dynamic systems.
AFRY Intelligent Scenario Modelling primary use has been in conducting safety and risk assessments in the Nuclear Sector, including safety assessments of nuclear facilities, medical, industrial and research facilities that make peaceful uses of radioisotopes, nuclear legacy sites and radioactive waste management facilities.
AFRY Intelligent Scenario Modelling has been applied to the mining sector when it comes to activities to be implemented at uranium (and other elements) mining and legacy sites. We offer support to clients for implementation of own models specific to the actions of a mine and its remediation.
The contaminated land market can benefit from models including assessment of impacts of chemical or other hazards to the environment. Such models can be developed and included in the AFRY Intelligent Scenario Modelling model library, for instance, for chemical transfer in connection to traditional waste management (landfills, etc.).
AFRY Intelligent Scenario Modelling is a software tool for development of mathematical models of dynamic systems and processes and performing deterministic and probabilistic simulations with the models. The models can consist of analytical expressions, systems of Ordinary Differential Equations (ODE) or a combination of the two. AFRY Intelligent Scenario Modelling includes state-of-the-art numerical solvers for numerical solution of the systems of ODEs. It incorporates an engine for performing probabilistic propagation of parameter uncertainty through the models using Monte Carlo and Latin Hypercube sampling, which can be used for performing uncertainty and sensitivity analyses.
AFRY Intelligent Scenario Modelling is well-established in the international market with customers throughout the world. The following are a few of the projects references to which AFRY Intelligent Scenario Modelling has been applied:
The AFRY Intelligent Scenario Modelling software includes optional specialized toolboxes. We also provide the AFRY Intelligent Scenario Modelling Player, free software that allows the user to browse the model, inspect equations, and re-run simulations.
AFRY Intelligent Scenario Modelling Team provides the following paid services related to the AFRY Intelligent Scenario Modelling.
We offer technical assistance in the fields of environmental risk assessments, simulation modelling, safety assessments in radioactive waste management and radiation protection.
Clients may have specific uses of AFRY Intelligent Scenario Modelling which require an adaptation or special modification to the software. Contracts can be arranged with clients to perform these specific adaptations to meet specific customer demands.
Read more about our ServicesIndividual and group training on AFRY Intelligent Scenario Modelling and use of specific models are offered at a fee. This training offering is in addition to the free online training offered as part of the licensing package. Such training is organized according to specific client requests and can take place at AF offices or at client premises.
Explore our library of models for particular applications.
This is a simple model to illustrate the capability of AFRY Intelligent Scenario Modelling to be used to perform water balance calculations for the mining industry.
The ‘Sources’ library includes modules for calculation of radionuclides releases to air, surface waters and groundwater from the contaminated object (source-term) such as uranium mill tailings or radioactively contaminated land.
The ‘Cover Layers’ library includes modules for simulating soil covers over the source in order to calculate resulting radon exhalation rate and concentration in air, as well as the external dose rate above the cover.
The ‘Transports’ library includes modules for calculation of the atmospheric, groundwater or surface runoff transport of radionuclides from the contamination source to different receptors.
The ‘Receptors’ library includes modules for calculation of radionuclide transfer and redistribution process in different types of receptor environments.
A set of modules for calculation of doses to humans based on the radionuclide concentrations in different environmental media simulated using the receptor modules.