Emergency materials response framework for petrochemical enterprises based on multi-objective optimization

With the expansion of the scale of the petrochemical industry, the occurrence of safety production accidents has seriously affected people's livelihood and property. Many countries have developed emergency response systems for preventing and responding to kinds of accidents. In this paper, an emergency response framework whose mainly includes the configuration and management of emergency supplies is proposed by a multi-objective optimization method, considering pre-disaster and post-disaster stages. In the pre-accident stage, the configu-ration plan of emergency materials is obtained by solving the mathematical model according to the actual production of the enterprise. In the post-accident phase, based on the number of materials stored in the previous stage, third-party emergency forces are considered to optimize the delivery of materials by a multi-objective model. Finally, a petrochemical enterprise in Zhoushan, Zhejiang is taken as an example to illustrate the val-idity and practicability of the proposed framework. The framework can complete rescue work under the re-quirements of enterprise budget and rescue time, so as to reduce the safety and environmental impact caused by accidents, such as air pollution caused by fire accidents, marine pollution caused by leakage accidents, etc. In the analysis, all scheme in model can complete more than 80% of the commodity scheduling within half an hour, which is better than the actual situation of the enterprise. This study provides the way to reduce material uti-lization and promote cleaner production for sustainable supplies management in petrochemical enterprise.

Automated summary

With the expansion of the petrochemical industry, safety production accidents have had a serious impact on people's lives and property. This paper proposes an emergency response framework for configuring and managing emergency supplies, using a multi-objective optimization method. The framework considers the pre-disaster and post-disaster stages and provides solutions for material configuration and delivery optimization. The study demonstrates the validity and practicality of the framework using a petrochemical enterprise in Zhoushan, Zhejiang as an example. It shows that the framework can reduce the safety and environmental impact of accidents and improve commodity scheduling efficiency.