Quantitative consequence analysis for accidents in chemical process plants is typically performed using:

• A. Quantitative analysis of chemical releases can not be performed.
• B. Actuarial tables of previous incidents
• C. Computer models that account for release conditions and chemical properties
• D. Catalogs from SIS equipment vendors

Answer: (C)

Quantitative consequence analysis is a critical practice in assessing the risks associated with accidents in chemical process plants. It involves evaluating the potential impacts of chemical releases, which can pose significant safety and environmental hazards. The correct approach for conducting this type of analysis is through the use of computer models specifically designed to simulate various release conditions and consider the unique properties of the chemicals involved.

Using computer models allows for a comprehensive evaluation of factors such as the nature of the chemicals, their physical behavior upon release (e.g., dispersion, vaporization, and thermal effects), and the environmental conditions present at the time of a potential incident (e.g., wind speed, temperature). These models can provide detailed predictions about the spread and concentration of toxic substances, thereby enabling safety professionals to make informed decisions regarding risk management and mitigation strategies.

Other options, while they may touch upon aspects of risk or historical incidents, do not provide the necessary depth of analysis required for quantitative consequence analysis. Therefore, relying on computer models is the most effective and scientifically rigorous method for accurately assessing the consequences of chemical releases in complex industrial environments.