ANNOUNCEMENT

DEPARTMENT OF CIVIL ENGINEERING


Value Added Programs

Sl. No Program Title’s Company’s Name Report Link
1 Hands on training on ETabs Future Ed Link
2 Revit and green studio Medini Link
3 Hands on training on Q-GIS RDPR Link
4 Hands on training on 3DAuto Cad Medini Link
5 Sustainable construction practices ACC Ltd Link

Value Added Course Content

Hands on training on ETabs

Course Hands on training on ETabs Associate Company Future Ed
Course Coordinator Prof Sharath Babu Khedagi Course Duration/Total Hours 9 days
Course Objectives:
  1. Understand the basics of structural analysis and its importance in Engineering.
  2. Familiarize with the purpose and capabilities of the ETABS software in structural analysis and design
  3. Explore various analysis methods, including static and dynamic analysis.
Module-1 Introduction to Etabs:
Introduction to ETABS, Load Types and Load Combinations Analysis Methods, static analysis, dynamic analysis, and nonlinear analysis Design Codes and Standards, Gravity Analysis and Design		 14 Hrs
Module-2 Different types of analysis in Etabs:
Lateral Load Analysis and Design Response Spectrum Analysis Pushover Analysis Concrete Design, Steel Design Composite Beam Design		 13 Hrs
Module-3 P-Delta Analysis :
P-Delta Analysis		 13 Hrs
Module-4 Nonlinear Analysis Post-Tensioning Performance-Based Design Case Studies
Nonlinear Analysis Post-Tensioning Performance-Based Design Case Studies		 13 Hrs
Course Outcome:
  1. Develop the ability to efficiently navigate and manipulate the software to create, modify and analyze structural models
  2. Gain a thorough knowledge of the ETABS software interface, including its menus, toolbars and various functions.
  3. Become proficient in applying various types of loads (dead loads, live loads, wind loads, seismic loads) to structural models. Understand on static and dynamic analysis.

Revit and Green Studio

Course Revit and Green Studio Associate Company Medini
Course Coordinator Prof Preethi Blessy Course Duration/Total Hours 30 Hrs
Course Objectives:
  1. The basics of Autodesk Revit
  2. The fundamental concepts and principles of sustainable design using REVIT and Green Studio
  3. Energy Efficiency Analysis and carbon footprint reduction
Module-1 Introduction to Revit and green studio
Integration of Revit and Green Studio for Sustainable Building Design, Energy Analysis and Simulation in Revit with Green Studio. Parametric Design for Energy Efficiency using Revit and Green Studio, Case Studies of Sustainable Building Projects using Revit and Green Studio by M/S Medini. Daylight and Thermal Comfort Analysis in Revit and Green Studio, Material Selection for Sustainability in Revit and Green Studio		 10 Hrs
Module-2 HVAC and LCA
HVAC System Optimization in Revit and Green Studio, Life Cycle Assessment (LCA) with Revit and Green Studio. Net-Zero Energy Building Design using Revit and Green Studio		 10 Hrs
Module-3 Energy Efficiency and Carbon Footprint:
Energy Efficiency Analysis with Revit and Green Studio Carbon Footprint Reduction using Revit and Green Studio Case Studies of Sustainable Building Projects with Revit and Green Studio		 10 Hrs
Course Outcome:
  1. Understand the principles of REVIT and Green studio
  2. Evaluate the environmental and economic impacts of sustainable building projects using REVIT and Green studio
  3. Optimize energy efficiency in various contexts. Analyze and mitigate the carbon footprint associated with water-related processes and systems.

Hands on training on QGIS

Course Training on QGIS Associate Company RDPR
Course Coordinator Prof. Shobha N V Course Duration/Total Hours 30 Hrs
Course Objectives:
  1. The principles, techniques, and applications of Geographic Information Systems (GIS) in civil and environmental engineering.
  2. Students will learn how to use GIS tools to analyze, manage, and visualize geospatial data for various engineering projects and environmental assessments
  3. Learn how to do time Series Analysis and Spatial Data Infrastructure
Module-1 Introduction to Q-GIS
Introduction to Q-GIS, Working with Spatial Data Map Creation and Layout Spatial Analysis: Geo processing. Digitizing and Editing, Coordinate Reference Systems (CRS)		 10 Hrs
Module-2 Web mapping
Web Mapping, 3D Visualization, Data Analysis with QGIS Processing Toolbox. Spatial Querying, Plugins and Extensions		 10 Hrs
Module-3 TSA and SDI
Time Series Analysis, Remote Sensing Data Processing Network Analysis, Spatial Data Infrastructure (SDI) Case Study		 10 Hrs
Course Outcome:
  1. Understand the Q-GIS Fundamentals.
  2. Proficiency in Web Mapping
  3. Understand time series analysis and remote sensing data processing

Hands on training on 3D AutoCad

Course 3D Auto Cad Associate Company Medini
Course Coordinator Prof PREETHI BLESSY Course Duration/Total Hours 2 weeks
Course Objectives:
  1. Equip students with the necessary skills to effectively utilize software tools
  2. Make student get familiarization on linear and nonlinear analysis of building
  3. Gain proficiency in Understanding BIM principles and Seismic Design
Module-1 Introduction to Auto CAD:
Introduction to AutoCAD, Advanced AutoCAD Techniques AutoCAD Customization, Drawing Standards and Best Practices		 20 Hrs
Module-2 Introduction to ETABS Design ,linear and Non linear analysis:
Introduction to ETABS, Modeling and Analysis of Buildings, Loading and Load Combinations Design of Reinforced Concrete Structures and Nonlinear Analysis Response Spectrum Analysis Dynamic Analysis Model Verification and Result Interpretation		 22 Hrs
Module-3 BIM Principles, Project management, troubleshooting and error handling:
Understanding BIM principles and Seismic Design and Code Compliance Integration of AutoCAD and ETABS Real-World Projects Project Management and Collaboration Troubleshooting and Error Handling Certification and Career Development		 22 Hrs
Course Outcome:
  1. Prepare, read and Interpret the auto cad drawings in a professional setup
  2. Know the procedures of linear and non linear analysis of building structures and interpret the results
  3. Gains knowledge on BIM principle and seismic design

Sustainable Construction Practices

Course Sustainable Construction Practices Associate Company ACC Ltd
Course Coordinator Prof. Geena George
Prof. Barnali Ghosh		 Course Duration/Total Hours 30 hours
Course Objectives:
  1. Understand the principles of green building , sustainability and their relevance to the construction industry.
  2. Define the triple bottom line (environmental, social, economic) concept in construction
  3. Familiarize with the case studies on sustainable construction practices
Module-1 Introduction to Green building:
Green Building Certifications and Standards, Life Cycle Assessment in Construction, Energy-Efficient Building Design Renewable Energy Integration in Buildings, Green Materials Selection, Water Management in Construction Waste Reduction and Recycling in Construction Biophilic Design in Sustainable Construction, Net-Zero Energy Buildings		 10 Hrs
Module-2 Smart building technologies:
Green Roof and Vertical Gardens, Sustainable Construction Materials Innovations Smart Building Technologies for Sustainability Urban Planning for Sustainable Communities		 10 Hrs
Module-3 Climate change and BIM
Adaptation to Climate Change in Construction Community Engagement in Sustainable Construction, Sustainable Construction in Developing Countries, Building Information Modeling (BIM) for Sustainability Lessons from Sustainable Construction Case Studies		 10 Hrs
Course Outcome:
  1. Understand the concepts of green building, Certifications and Standards, LCA procedures
  2. To plan the smart building with alternate building materials and technologies.
  3. Gains knowledge in sustainable construction practices by considering the climate changes

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