Advanced Road Design and Geometric Alignment

Posted in Engineering - Oil & Gas

Advanced Road Design and Geometric Alignment

πŸ“… Duration: 5 Days
🎯 Target Audience: Expert Road Engineers in Public Construction Authorities
πŸ‘· Skill Level: Advanced

Course Objectives:

By the end of this course, participants will be able to:
βœ” Master advanced principles of road alignment, including horizontal and vertical curves.
βœ” Optimize road layout for safety, efficiency, and sustainability.
βœ” Integrate terrain analysis, traffic flow considerations, and environmental constraints.
βœ” Design efficient intersections, roundabouts, and interchanges to improve traffic flow.
βœ” Utilize 3D modeling software to enhance geometric design accuracy.
βœ” Ensure compliance with international road design standards (AASHTO, IRC, Eurocodes, etc.).
βœ” Apply best practices for geometric design in urban and highway projects.

Course Outline:

🟒 Day 1: Fundamentals of Advanced Road Geometry

πŸ”Ή Principles of horizontal and vertical alignment in road design.
πŸ”Ή Design controls: speed, sight distance, and safety considerations.
πŸ”Ή Cross-sectional elements (lanes, shoulders, medians, clear zones).
πŸ”Ή Case study: Reviewing alignment of an expressway for safety improvements.

🟒 Day 2: Horizontal & Vertical Alignment Optimization

πŸ”Ή Advanced curve design: circular, spiral, and compound curves.
πŸ”Ή Superelevation calculation and application for safety.
πŸ”Ή Sight distance and stopping criteria for high-speed roads.
πŸ”Ή Practical software session using AutoCAD Civil 3D/OpenRoads.
πŸ”Ή Case study: Evaluating an existing road’s alignment for improvement.

🟒 Day 3: Intersection and Interchange Design

πŸ”Ή Advanced intersection types: at-grade, signalized, roundabouts.
πŸ”Ή Interchange types: diamond, cloverleaf, turbine, and SPUI designs.
πŸ”Ή Design considerations for urban vs. rural interchanges.
πŸ”Ή Pedestrian and cyclist considerations in geometric design.
πŸ”Ή Case study: Designing a high-traffic urban intersection.

🟒 Day 4: 3D Modeling and Geometric Design Software

πŸ”Ή Digital Terrain Modeling (DTM) and earthwork analysis.
πŸ”Ή Integration of topographic surveys into design.
πŸ”Ή 3D geometric road design using AutoCAD Civil 3D, OpenRoads, or InfraWorks.
πŸ”Ή Road widening techniques for safety and capacity expansion.
πŸ”Ή Case study: 3D modeling of a real-world road project.

🟒 Day 5: Case Study & Real-World Application

πŸ”Ή Hands-on case study: Evaluating a road design project.
πŸ”Ή Applying learned techniques to optimize an existing road.
πŸ”Ή Group discussions on best practices and common mistakes.
πŸ”Ή Presentation of recommendations and improvement plans.
πŸ”Ή Course assessment and feedback session.

πŸ›  Tools & Software Used:

βœ… AutoCAD Civil 3D / OpenRoads – For geometric alignment modeling.
βœ… InfraWorks / MicroStation – For 3D visualization of roads.
βœ… AASHTO Green Book & Local Design Codes – For compliance.

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