In the present study, the stability of the slope located in the Modesto Apolo Ramírez Avenue, is analyzed. The avenue is located prior to the access to the Cerro San Eduardo tunnel, which has had habitual problems of falling blocks to the roadway. For the study, empirical methodology was applied, including the data mapping based on geomechanical classifications such as Rock Mass Rating (RMR), Slope Mass Rating (SMR) and Q-Slope index, which assign a defined score, obtaining the quality of the rocky mass, and with this, the degree of stability of the slope. In addition, through the application of RocFall software, the empirical methodology has been compared with the analysis of rockfall trajectory, making a retrospective study of behavior and simulating the constant falling of blocks on the roadway.
As a consequence of the exploration, it was evident that the geomechanical classifications -in this particular case- are not completely effective to determine the degree of stability of the massif. This is due to the fact that, even though the slopes are globally stable, these classifications do not seem to adequately determine a level of risk against rockfalls, as can be seen from visu. Therefore, it can be seen that the slope does not have a risk of collapse, but instead presents a high danger of landslides that could cause considerable economic and human lives losses. The study recommends geometric solutions for impact mitigation to prevent future damage.
Given the population growth of the city of Guayaquil, there is a need for roads that communicate certain populated areas, which is the case of the Modesto Apolo Ramírez Avenue. The avenue has a slope located on the right side, prior the entrance of the tunnel San Eduardo in the north-south direction, where the hill of the same name is located. This hill has an exposed slope of considerable height, with a limestone - diaclastic lithology and presence of fragments of clay and silty rocks, which leads to constant slides of exposed blocks. This generates a situation of risk for the users of the road and urges the present stability analysis.