| In order to ensure the successful completion of the construction projects and reduce the probability of accidents and property loss,safety management in plays an important role in process of construction.Blast furnace construction is a complex process.The furnace is fixed with construction conditions changing.Workforce and construction equipment are mobilized frequently.All sub-projects are working simultaneously at site.Special and temporary facilitiesare set up with staff crowded which may become a potential danger cause.For sub-projects and units with speedy progress and dangerous works,safety management for projects shall be prioritized to the top.Accomplishment of safety management will assure the progress,quality and cost target.If there is no safety assurance,other targets can not be accomplished smoothly let alone security of project personnel and project team's assets.Through reasonable and scientific development of safety measures and management program,accidents could be further avoided and ensure safe production,product quality and targeted progress.This paper focuses on research on identification and recognition of hazards during the erection of blast furnace,and the use of fuzzy evaluation method to identify the main factors among many,which overcome subjectivity caused by the use of safety inspection checklist,combine the safety information in a quantitative and qualitative presentation for a more accurate assessment results and ensure that the targeted safety management and develop specific safety measures.In the construction process,with applying related theories of project safety management and combining the characteristics of the erection,this paper discusses about identification of dangerous sources,generation,execution and check of plans in blast furnace erection process with examples.Through the safety management methods and technical means this paper discussed, Management will be executed in a highly effective,safe and scientific way.The occurrence of accidents and property losses will be reduced during erection. |