|
| Course
Title : |
Airport Planning |
| Course
Duration : |
2
weeks |
| Course
Aim : |
This course is designed to
primarily to present the components and associated
analysis as well as methodology of Airport Planning
from the International Standards Perspective.
|
|
Course Content |
- Rationale of airport planning
- Aviation Forecast
- Airport Site Evaluation &
Selection
- Geometric design of movement
areas
- Terminal planning
- Obstacle limitation sufaces
(O.L.S)
- Land use planning
- Airport marking
- Indicators and signaling
devices
- Lights
- Markers
|
|
Who Should Attend |
- Aerodrome /Arabic Engineers
- Airport Operations Managers
- Consultants working in areas
related to Airport Planning and Design.
|
| Language
: |
Arabic/English |
<<Back
| Course
Title : |
Airport Maintenance Management |
| Course
Duration : |
One Week |
| Course
Aim : |
The aim of this course is to establish maintenance
management program and organization for maintenance
operation and control system . |
|
Course Content |
-
philosophy of maintenance management
-
organization for maintenance operation
-
job planning and scheduling
-
maintenance work measurement and standard
-
preventive maintenance
-
computerized
maintenance management information system
|
|
Target Population |
Airport maintenance personnel
|
| Language
: |
Arabic/English |
|
Course Title
: |
Airport Management
|
|
Course
Duration
: |
2 weeks |
|
Course Focus
: |
The course aims at acquainting
participants with the up-to-date aviation management concepts,
and at enhancing their skills, Knowledge and capabilities in
airport planning, resource management and operational
efficiency to increase revenues, reduce costs and improve
productivity .
|
|
Course
Objective : |
- To develop the participant’s
professional skills .
- To increase the knowledge of
modern airport management techniques .
- To enhance their performance and
prepare them for more senior managerial responsibilities
|
|
Course
Topics |
- Airport Operations .
- Airport Planning .
- Airport Safety .
- Airport Security .
- Airport Financing and Marketing .
- International law and Regulation .
- Environment management .
|
|
The Location
|
The course will be held at the queen Noor Civil Aviation
Technical College, Amman Marka Airport . |
|
Language : |
English |
| Course
Title : |
Airport Certification |
| Course
Duration : |
Two Weeks |
| Course
Aim : |
The aim of this course is presenting Airport
certification rational , and the components of airport
certification program |
|
Course Content |
-
Certification
Regulatory Framework
-
Aerodrome
Certification
-
Operator’s
Role and Responsibilities
-
Wildlife
Management
-
Emergency
response Planning
-
Aerodrome
Inspection
-
Safety
Management System
-
Aerodrome
Manual
- Aerodrome
Manual Evaluation
|
|
Target Population |
-
Aerodrome /
Airport Engineers.
-
Airport Operations Managers
|
| Language
: |
Arabic/English |
| Course
Title : |
Airfield Signs |
| Course
Duration : |
One Week |
| Course
Aim : |
Is to present the components of airfield Sings
according to Annex 14 and FAA Advisory Circular
related |
|
Course Content |
-
Overview of
airport categorization.
-
Review of Annex 14
-
Airfield Geometric
Design
-
Related Material
-
Aerodrome Design
Manual Part 4 – Visual aids Chapter 11
-
CAA AC 150/139-211
-
Annex 14 Chapter 5
Visual aids part 5.4
-
Site visit
|
|
Target Population |
-
Civil and
Pavement Engineers
-
Airport Operation
Personnel
-
Airport Consultant Engineers
|
| Language
: |
Arabic/English |
|
Course Title : |
Architectural Acoustics |
|
Course Duration : |
1 week. |
|
Course Aim : |
The
course aims to provide the participants with the fundamental
concepts of sound and the major topics of architectural
acoustics, with special consideration on practical aspects of
designing spaces that meets the hearing needs.
|
|
Course Contents: |
Basic
theory of sound: frequency, wavelength, spectrum, velocity,
and frequency ranges of audible sounds, Doppler effect,
reflection, transmission and diffraction of sound. The concept
of decibel:
Addition and subtraction of decibels, sound intensity, inverse
square law, sound pressure level, sound intensity level, sound
power level. Human ear and sensitivity of hearing, phones and
sones. Room acoustics: sound behavior in enclosed spaces,
absorption and Sabine formula, Norris-Eyring equation, Fitzroy
equation, optimum reverberation time, volume and shape of
halls, noise reduction coefficient, noise reduction. Building
acoustics: transmission of sound, sound reduction index, noise
reduction between rooms, the mass law, sound leak, composite
construction, flanking, sound transmission class. Noise
criteria: deafness risk criteria, noise criteria curves. Case
studies and examples.
|
|
Who Should Attend : |
Architects, structural and electrical engineers.
|
|
Language : |
Arabic/English |
Registration Form
|
|
|
|
