Geo - Technical Engineering
Overview
This program aims to produce knowledgeable professionals, having a sound foundation of Geotechnical Engineering, including Geotechnical Site Investigation, Selection of suitable type of materials for various projects, Soil Properties Modification, Transportation Geotechnics, Geo environmental Engineering, Soil-Foundation Interaction under Static and Dynamic loading conditions, Groundwater Extraction and Recharge, and Pre-and-Post Construction Forensic Investigations related to geotechnical Challenges. The program covers all aspects of Civil Engineering including, buildings, Roads, Dams, River training, environmental impact assessment etc
Objectives
i. Develop graduates with solid Geotechnical knowledge and skills who are composed to address the local and global challenges.
ii. Capability to work in a challenging environment
iii. Ability to predict, propose and address various Geotechnical challenges for various Civil Engineering Projects
iv. Respond to Geotechnical Challenges of various natures.
Compulsory Courses
Elective Courses
Principles and methods of altering engineering properties of soils. Mechanisms of soil stabilization. Mechanical, electrical and thermal stabilization. Specifications, construction and control methods. Types of compaction equipment. Optimum utilization of compaction equipments. Use of geo‑textile fabrics for stability of soft & compressible soils.
Rock as Material, Rock Formation and Structure, Folding, Faulting and Joints. Analysis of Stress and Infinitesimal strain. Friction, Linear Elasticity. Strength of Rock and Cemented granular materials. Crack Phenomena and the Mechanism of Fracture. Fluid Pressure and Flow in Rocks. Brittle and Creep Behaviour, Determination of Static and Dynamic Mechanical properties of Rock in laboratory and field, Mining and other Civil Engineering Applications. Rock Slope Engineering.
Hydromechanics of confined and unconfined flow of water through soils, potential theory, conformal mapping transient flow. Applications to design of earth dams.
Introduction: Groundwater and hydrologic cycle, Groundwater as a Resource, Groundwater as geotechnical problem
Physical Properties and Principles: Basic principles of fluid flow in saturated and unsaturated materials Hydraulic Head and Fluid Potential, Darcy’s Law, Hydraulic Conductivity and Permeability, Transmissivity and storativity, Aquifers and Aquitards, Steady State and Transient Flow Equations of Groundwater Flow; Infiltration and Groundwater Recharge.
Groundwater Resource Evaluation: Development of Groundwater Resources, Exploration, Evaluation and exploitation, Well, Aquifer and Basin Yields, Exploration for Aquifers; Geological and Geophysical Methods, Drilling, Installation of Wells and Piezometers, Pumping Tests, Groundwater Quality, Well head Protection. Groundwater monitoring, Groundwater models—analytical and numerical models
Groundwater and Geotechnical Problems/Applications: Artificial Recharge, Seawater Intrusion, Drainage and Dewatering, Pore Pressure, Land Subsidence, Landslides and Slope Stability.
Pressure on Retaining Walls. Basic Concepts and Earth Pressure Theories. Design criteria and Pressure Analysis of Rigid Walls with and without surcharge Loads. Effect of seepage and Drainage on Walls. Pile‑supported Retaining Wall. Behaviour of Flexible Earth‑Retaining structures. Design Criteria and Pressure Analysis of Anchored Bulk Heads, Braced Out and Tie‑Back Bracing system, Design criteria for cellular cofferdams. Behaviour of Retaining Walls during earthquakes.
Numerical solutions of partial differential equations, Finite difference Approximation solutions to two‑dimensional flow field and one‑dimensional consolidation Soil Layer. Finite Element Method application to stress analysis of Linearly elastic systems of Geotechnical Engineering problems. Soil‑foundation Dynamics Interaction problems.
Introduction: Emergence of Geoenvironmental Engineering, Types of Geoenvironmental
Problems.Chemical Background And Geochemistry: Toxic Chemicals, Inorganic Chemistry, Organic Chemistry, Nuclear Chemistry,Chemical Analysis Methods. Contaminant Transport Mechanism: Introduction, Sources of Contamination, Types of Contaminants, Transport Processes, Chemical Mass Transfer Processes , Biological Process (Biodegradation), Contaminant Transport and Fate Modeling, Applications. Contaminated Site Characterization And Risk Assessment: Preliminary Site Assessment, Exploratory Site Investigation, Detailed Site Investigation, Risk Assessment Procedures, Remedial Strategy. Waste Management And Landfill Design: Sources of Wastes, Classification of Wastes, Waste Characterization, Environmental Concerns with Wastes, Waste Management Strategies, Landfill Configurations, Waste containment liner systems, Containment System Liner Design, Leachate collection and removal system, Final cover systems, Gas generation and management, End uses of closed landfills..
Properties of geomaterials for design and construction of highways, airfield and port pavements. Embankments for highways and high-speed trains, Behavior of compacted geomaterials using stabilization technique. Geosynthetics and reinforcement of constructed layers and interlayers. Compaction technology, compaction management, maintenance technology. Underwater geotechnics for construction of breakwater, jetties, wharves and other coastal infrastructure purposes. Modeling of multi-layered structures and supporting ground under dynamic and repeated loads. Case studies.
Introduction to Forensic Engineering; Competencies and Qualifications of Forensic Engineers: qualifications, attributes competencies, technical skills, legal knowledge, detective skills, communication skills, personality characteristics etc. The Standard of Care: expert testimony, methods, validity, reliability, Delphi process of expert consensus; Civil Engineering Investigations: activities in investigation, site investigation, sampling and collection of evidence, preliminary findings, equipment and its selection, recording observations, photography, sample removal, eyewitness account, field tests, document collection and review, theoretical analysis, laboratory tests and investigation, office investigations determination of procedural responsibilities, reports; Ethics of Forensic Engineering: code of ethics, solicitation of work, contract process, testimony ethics, damage caused by unethical conduct, ethical standards for publication, interaction with media; The Legal Forum: role of forensic engineer as a witness in mediation and litigation, admissibility of testimony by forensic engineers, rules of evidence and testimony, testimony in courts and at deposition (preparation, demeanor, speech, direct examination, cross examination etc.), codes and guidelines (local and international) for professionals engaged as experts; The Business of Forensic Engineering: readiness, marketing, decisions, liability, insurance individual and group practice; National and International Case Studies.