Dr. Aglawe is a mining engineer with experience in rock mechanics (hard and soft rock) and in application of advanced numerical modeling for mining and civil projects. He has been involved in the development of models for tunnels, caverns and dams in hydroelectric projects.
FLAC3D TMis a numerical modeling code for advanced geotechnical analysis of soil, rock, and structural support in three dimensions. FLAC3D is used in analysis, testing, and design by geotechnical, civil, and mining engineers.
This FLAC3D V7.0 training course accommodates new and experienced users. It will be based on examples that attendees will develop and run by themselves to better grasp the mechanics of using FLAC3D V7.0, the key underlying calculation principles and the spectrum of available features. Attendees are encouraged to bring one of their specific cases that may be discussed.
The Fifth International Itasca Symposium will be held at the University of Vienna (Austria). The Symposium will features the application of Itasca software for solving engineering and scientific challenges in geomechanics, hydrogeology, microseismicity, and more.
Itasca provides third party reviews aimed at providing an independent and critical review of geomechanical, hydrogeological, and microseismic analyses performed by practitioners and other consultants. Reviews typically consist of three phases.
Itasca engineers review all existing and relevant technical documentation, which should include site plans, lithology of the surrounding soil and rock mass and some information on geomechanical properties (including stiffness and strength), soil and rock mass classification (including both natural fracturing and any blasting-induced fractures), and previous reports regarding stability analyses. Itasca engineers next visit the site and discuss any questions resulting from the information review. A brief site report is issued following the site visit, focused on a “green/red flag” high-level summary of the critical findings.
Itasca will collect, organize, and review the existing site data, including previous assessments by client staff and consultants. As needed, this review includes interviews of operations staff, subcontractors, and consultants. Critical information considered includes dewatering and depressurization plans, observed and anticipated modes of ground failure as a function of season, and the factors of safety for the various modes and site sectors. Hydrogeology can be a key factor affecting ground stability. And because groundwater conditions in the slope may be affected by the regional groundwater flow condition, Itasca will, as necessary, review the regional geologic conditions based on the available data, such as precipitations, surface recharges, regional structures, and groundwater extraction.
Based on the review, Itasca may conduct an independent assessment of the hydrogeology and rock mechanics of the site. The rock mechanics assessment focuses on stability assessments based on the pore water pressures, soil and rock mass characteristics, and small- and large-scale discontinuities. Stability assessments will incorporate statics-based kinematics and deformation-based methods. The hydrogeological assessment will consider the future pore pressure distribution for the site. The phreatic surface will be constructed based on a combination of observed groundwater levels, analytical solutions, groundwater flow models, and Itasca’s experience.
Itasca has extensive experience in providing independent due diligent review of mining projects for financial institutes and banks throughout the world. Itasca also provides expert support on litigation cases in mining, civil, and environmental projects.