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.
InSite-HF was last updated Jan 22nd 2019.
InSite-HF™ is our specialist software tool for setting up a microseismic hydraulic fracturing project and then guiding the user through to data acquisition and processing.
To request a quotation for InSite-HF please email us at [email protected]
DESIGN: Microseismic survey design tools to plan arrays and meet engineering objectives.ACQUISITION: Real-time data acquisition and processing with customizable triggering settings.PROCESSING: Manual and automated processing with efficient workflows. Complex velocity models and sophisticated algorithms for microseismic location.INTERPRETATION: Enhanced interpretation of microseismic clouds. Characterize hydraulic fracture geometry and the microseismic geomechanical response to an injection.UNDERSTANDING: Interpretation tools for postanalysis of completion objectives and stimulation effectiveness. Microseismic survey design tools to plan arrays and meet engineering objectives.
ACQUISITION: Real-time data acquisition and processing with customizable triggering settings.
PROCESSING: Manual and automated processing with efficient workflows. Complex velocity models and sophisticated algorithms for microseismic location.
INTERPRETATION: Enhanced interpretation of microseismic clouds. Characterize hydraulic fracture geometry and the microseismic geomechanical response to an injection.
UNDERSTANDING: Interpretation tools for postanalysis of completion objectives and stimulation effectiveness.
InSite-HF™ is ICL's specialist software product for setting up a microseismic hydraulic fracturing project and then guiding the user through data acquisition, processing and interpretation. Microseismic events can be located through simple and complex velocity models. Manual and automated waveform processing can be carried out with comprehensive import and export of raw and processed event data. Seismic events, field objects, geological structures and analysis objects can be visualized within a 3D volume.
InSite-HF™ provides tools for importing, processing and visualizing seismic data with a high-level of automation, making processing and reprocessing a simple work flow.
InSite-HF™ is developed in a version controlled environment within a quality management system. InSite™ has been available as a commercial product for two decades and has been used by leading companies for realtime monitoring, quality assurance, post-processing, reprocessing and advanced analysis.
Technical support is provided by geophysicists with experience in commercial projects in the oil & gas sector. We offer open software training courses from our Shrewsbury office and can provide bespoke training solutions for companies online or in person.