AIRPORT, RAILWAY AND INTERMODAL INFRASTRUCTURES

The ability to plan, design and manage transport engineering infrastructure.
The ability to analyse and interpret the regulation and impact of infrastructure and their repercussions for sustainable development, taking into account economic, environmental, social and cultural factors.
Knowledge of transport engineering and planning, transport types and functions, management of public transport services, demand, costs, logistics, and financing of transport infrastructure and services.
Students will acquire an understanding of the design and operation of modal interchange transport infrastructure, including airports, rail terminals and logistics centres.
Upon completion of the course, students will be able to:
Conduct studies of transport engineering and planning, transport types and functions, management of public services, demand, costs, logistics, and financing of transport infrastructure and services;
Analyse and interpret the regulation and impact of infrastructure and their repercussions for sustainable development, taking into account economic, environmental, social and cultural factors; Plan, design and manage transport engineering infrastructure.

A. Airport infrastructures

1. Aerodrome requirements: National and international legislation. Technical regulation. Air traffic. Classification of airports. Free Zones Obstacles.

2. Geometric design: Runway. Taxiway. Apron. Horizontal and vertical alignment. Cross sections.

3. Pavement design: Characteristics. Design criteria. Empirical design (FAA). Rational design (LEDFAA, APSDS). Structural interventions.

4. Operating conditions: Signaling systems. Stop devices. Runways instrumentation. Skid resistance control. Cleaning pavements. Levels of air pollution, water pollution, noise.

5. Pavement Maintenance: Utilization criteria. PCI and instrumental surveys. Pavement distress. Maintenance. Airport Management System

6. Safety: Accidents. Safety management system (SMS). Risk management.

7. Special infrastructures: Heliports. STOL ports. VERT ports

B. Rail infrastructures

1. Rail routes: Railway transport management. Railway Network. Technical Specifications for Interoperability. Levels of project.

2. Geometric design: Mechanics of locomotion. Levels of performance and performance. Horizontal and vertical alignment. Distance to obstacles. High speeds lines.

3. Track design: Ballasted Track (subgrade, ballast, organs and joints, rails). Not ballasted track. Design (loads, temperature). Track equipment.

4. Stations: Criteria of the station levels. Set of tracks. Relationships with users.

5. Management and diagnostics: Service and maintenance. Classification of defects. Track geometric parameters. Quality Binary. Diagnostic tools. Inspection, noise, vibration.

6. Safety: Accident. National Rail Safety Agency. Signaling systems. Risk management.

C. Intermodal Infrastructures

1. Intermodal transport: European and national framework. Technical Regulations. Development of logistics market. Terminology.

2. Intermodal loading units: Shipping containers and terrestrial. Swap bodies. Semitrailers. Train gauge. Containers and air pallets. Vehicles and handling equipment.

3. Design: Freight (European situation and national network, design of the individual areas, layout examples). Intermodal terminals (classification of terminals and related equipment, components, design examples). Environmental impact.

• A. Di Graziano – Lectures of airport, railway and intermodal infrastructures (slides).
• Standards and Technical Regulations
• C. Esveld – Moder Railway Track Ed. MRT productions