The thesis refers to the design of a production steel hall located in the urban area of Ljubljana, R. Slovenia. The floor plan of the steel structure is rectangular with dimensions of 80 m × 90 m. The steel hall project includes the conceptual design of the structure, the analysis of loads and load combinations, the design of the main structure, some significant joints in accordance with Eurocode standards and detailed construction drawings. The analysis and design is carried out using the commercial computer programme Dlubal RFEM5, which works according to the finite element method. The numerical calculation model represents a spatial model consisting of linear finite elements. The design is carried out both on the basis of a global static analysis, taking into account the second-order theory and global imperfections, as well as on the basis of a seismic analysis, carried out as a modal analysis with a design response spectrum. For the method of designing an earthquake-resistant structure, the method with a medium level of energy dissipation (DCM) is chosen. The main focus of this thesis is on a detailed analysis of the equivalent stabilizing forces. For this purpose, we have analysed three different approaches of global imperfection modelling. The first two methods are based on the approaches included in the Eurocode standard, the third method is taken from the literature. The analysis shows how the three different approaches affect the magnitude of the internal forces. The largest deviations occur with the second type of imperfection modelling, where global imperfections are modelled in the form of equivalent stabilizing forces on the frame and in the form of uniform distribution of equivalent stabilizing forces on the lateral bracing system. The main conclusion is, that in the analysed model, method 2 is quite conservativeThe last part of the thesis deals with the design of joints.