Description This course is an introduction to the concepts and models within Phast software for. It will cover all areas of consequence modelling within the software, including: • Discharge • Dispersion • Pool formation and evaporation • Fires • Explosions and toxic effects You will be required to practice and apply your new knowledge of the software through extensive hands-on workshops. Learning objectives Upon completion of this course, you will understand and be able to use the theoretical and practical aspects of Phast. You will be able to create a range of scenarios from scratch, modelling the effects of releases of hazardous material from initial discharge, through dispersion to final flammable and toxic effects. You will also be able to review and understand results and view these in tabular and graphical form and on maps in order to assess the effects of hazardous events and mitigate their consequences. Target group Users who need to carry out consequence modelling calculations in the process industries including safety analysts, operators, process design engineers, regulators and legislators, insurance companies, engineering contractors and consultants, or those who need to understand the output of a consequence model performed with Phast.

Conclusion DNV RISK MANAGEMENT SOFTWARE • • • • • First 10 years has seen many developments PHAST continues to be the leading commercial tool We are preparing the release of the 11th version of PHAST This version uses state-of-the-art software technology DNV' strategy allows more cost effective maintenance. Download Camfrog Pro Untuk Pc Richards. The KFX suite of software tools, used globally for both design and operational analyses, is an advanced CFD code for flares, gas dispersion, fire and explosion simulation. It complements DNV GL's risk and consequence applications, such as Phast, Safeti, and Safeti Offshore. Download Arike Malayalam Movie Songs Mp3. “In the future, production has to.

Quantitative risk assessment (QRA) software and methodologies give estimates of risks, given the parameters defining them. They are used in the financial sector, the chemical process industry, and other areas. In financial terms, quantitative risk assessments include a calculation of the of monetary value of an asset. In the chemical process and petrochemical industries a QRA is primarily concerned with determining the potential loss of life (PLL) caused by undesired events. Specialist software can be used to model the effects of such an event, and to help calculate the potential loss of life. Some organisations use the risk outputs to assess the implied cost to avert a fatality (ICAF) which can be used to set quantified criteria for what is an unacceptable risk and what is tolerable. For the explosives industry, QRA can be used for many explosive risk applications.

It is especially useful for site risk analysis when reliance on quantity distance (QD) tables is not feasible.