The importance of salt in many human activities has accompanied the main phases of civilization. Strategic and innovative applications in salt rocks are planned until the present day, such as geological barriers for well abandonment and storage caverns for new energy sources or decarbonization. This thesis focuses on the geomechanical behavior of salt with special regards to creep, dilation, thermal effects and their impact on the hydraulic behavior. Models have supported the development of methodologies to assess integrity and tightness conditions of strategic projects in the context of energy. These include Pre-salt well abandonment, salt caverns and salt as caprock of carbonate reservoirs. Advanced numerical simulations using the framework GeMA have investigated representative scenarios of each project. To this end, creep constitutive models, customized boundary conditions and specific output variables have been implemented. Among the creep models, the EDMT has been developed in the context of this doctoral research, focusing on Brazilian salt. The case studies have led to important findings. A Pre-salt well can close completely by creep after casing removal. Pressure reduction and well heating have accelerated closure significantly. In the most critical scenario, the final permeability was slightly higher than 100 times the initial value. A salt cavern can mechanically support pressure cycles caused by a contingency hydrocarbon supply scheme; however, a final permeability of 6.5 times the initial value has been noticed. In reservoir geomechanics, the caprock creep contribution in the subsidence is small and irreversible even if the reservoir pressure is recovered. Permeability changes have been subtle despite the creep contribution and the reservoir pressure variation. The literature review, the creep models, the analysis methodologies, the capabilities incorporated into the framework and the discussions motivated by the case studies represent the added value of the thesis to the scientific community and industry regarding the strategic use of salt rocks.