TY - JOUR PY - 2006// TI - An Improved γ-Analysis Method for Process Security Analysis JO - Process safety and environmental protection A1 - Uygun, K. A1 - Huang, Y. A1 - Lou, H.H. SP - 92 EP - 100 VL - 84 IS - 2 N2 - Process security is a newly pronounced issue facing the chemical process industry in the post 11 September era. Traditional safety is no longer sufficient for a chemical plant; it must also be secure. However, systematic and effective quantitative methodologies for process security analysis are necessary. To address this issue, the γ-analysis method was introduced very recently by Uygun et al. (2003) as a process security analysis framework. By that method, a process security problem need be formulated as a minimum-time (to reach disaster) control problem. The method combines Pontryagin's minimum principle (with some modifications) with a discretization scheme to transform the security problem from a single dynamic-optimization problem to multiple static optimization problems, hence solving the process security problem without extensive system simulations. In this work, an improved γ-analysis method is introduced, which is featured by its first-order approximation to the time derivative function of a system model, as compared to the zero-order approximation during model discretization in the original implementation. This improvement can significantly reduce the number of optimization problems needed, thereby reducing computational requirements in on-line application. A reaction runaway example is studied to demonstrate the efficacy of the improved method, demonstrating that a 10-fold reduction in computational load can be achieved.

LA - SN - 0957-5820 UR - http://dx.doi.org/10.1205/psep.04075 ID - ref1 ER -