Description

Enroll now in a university program that responds to your professional motivations and growth in the aviation sector"

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From the reduction of greenhouse gas emissions, the improvement of safety measures, to the technological development of unmanned aircraft and their integration into the airspace make up the great challenges of the aeronautical sector.

For this reason, the professional engineers who wishes to prosper in this industry must have a global knowledge of its operation, as well as specialized knowledge of the elements of manufacturing, design and commissioning of both aircraft and airports. A complete knowledge that will be much easier to acquire thanks to this professional master’s degree in Aeronautical Engineering created by this institution.

An intensive program that consists of a syllabus that has been prepared by an excellent team of professionals dedicated to this industry. Their technical and teaching experience is reflected in a syllabus that covers technological innovations and aeronautical operations, deepens in the main actors of the sector, continued airworthiness, comprehensive sustainability and the entire international regulatory framework.

Students will obtain this learning through advanced content, complemented by video summaries of each topic, detailed videos, specialized readings and simulations of case studies that can be accessed comfortably, whenever and wherever they wish.

To take this program, the graduates only needs a digital device with an Internet connection to visualize, at any time of the day, the syllabus hosted on the virtual platform. A unparalleled academic option that only TECH, the world's largest digital university, can offer.

A 12-month professional master’s degree in Aeronautical Engineering that adapts to your schedule"

This professional master’s degree in Aeronautical Engineering contains the most complete and up-to-date program on the market. The most important features include:

  • Development of case studies presented by experts in Aeronautical engineering
  • Graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
  • Practical exercises where self-assessment can be used to improve learning
  • Its special emphasis on innovative methodologies
  • Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
  • Content that is accessible from any fixed or portable device with an Internet connection

Thanks to the Relearning system, you will acquire an effective learning experience far from the long hours of study. Enroll now”

The program’s teaching staff includes professionals from sector who contribute their work experience to this educational program, as well as renowned specialists from leading societies and prestigious universities.

Its multimedia content, developed with the latest educational technology, will provide the professionals with situated and contextual learning, i.e., a simulated environment that will provide an immersive education programmed to learn in real situations.

The design of this program focuses on Problem-Based Learning, by means of which the professionals must try to solve the different professional practice situations that are presented throughout the academic course. This will be done with the help of an innovative system of interactive videos made by renowned experts.

The case studies will allow you to obtain a real analysis of the regulations in which the main actors of air transport operate"

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With this university program you will be up to date in the measures applied for the efficiency and reduction of acoustic and gaseous emissions in aviation"

Objectives

This professional master’s degree provides students with the necessary knowledge to provide technical solutions to aeronautical designs and projects, with a view to improving sustainability, safety and compliance with current regulations. To achieve this goal, TECH provides an exhaustive syllabus prepared by an excellent team of specialists in the sector, who are also responsible for answering any questions you may have about the content of this university education.

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Get specialized learning about the manufacturing, design, planning, construction or operational phases of the various companies in the aviation industry"

General Objectives

  • Provide the professionals with the specific and necessary knowledge to perform, with a critical and informed opinion, in any phase of planning, design, manufacture, construction or operation in the various companies of the aviation sector
  • Identify the problems in aeronautical designs and projects in order to know how to propose effective, viable and sustainable overall solutions
  • Acquire the fundamental knowledge of existing technologies and innovations under development in transport systems, in order to be able to conduct research, development and innovation studies in aeronautical companies and technology centers
  • Analyze the main conditioning factors involved in the aeronautical activity and how to efficiently apply the latest techniques used in the aviation sector today
  • Acquire a specialized approach and be able to monitor the management of any aeronautical department, as well as to execute the general management and the technical management of designs and projects
  • Delve into the knowledge of the different critical aeronautical areas according to their different relevant actors, as well as achieve the knowledge, understanding and ability to apply the applicable aeronautical or non-aeronautical legislation and regulations

Specific Objectives

Module 1. Integral Sustainability of Aviation

  • Examine the involvement of aviation stakeholders in integrated sustainability
  • Identify the relevant contents of the three pillars of sustainability in aviation
  • Define the key elements of airport economic-technical sustainability, airport social sustainability and airport environmental sustainability
  • Specify the outline of comprehensive airport sustainability as a model for the rest of the aviation stakeholders
  • Propose and apply integrated solutions for aviation and develop a case study applied to safety

Module 2. Aviation Law: Regulation, Actors and Control Systems

  • Develop the normative impulse that the Chicago Convention meant and its impact on the international community, which has manifested itself over the course of time as one of the great and scarce normative successes in the creation of standards of International Law
  • Examine the issues of preferential attention in the regulation of the European Union in view of its objectives as a union of States aiming at economic integration based on the opening and liberalization of the different markets of products and services in the container and in its global relations with third parties (Single European Sky)
  • Identify the issues that remain in the hands of the States and their specific regulations with their various levels, with particular reference to security issues
  • Describe the different operators in the world of aeronautical management with their rules and interests, often contradictory, and check the functioning of the markets in which these companies operate under the supervision of their institutions
  • Evaluate the coexistence of general and sectoral standards, especially in the cases of competition law, users' rights, environmental constraints and safety standards
  • Specify the a priori and a posteriori control mechanisms maintained by States or national bodies to check the efficiency of management, the optimization of investments and the absence of monopolistic or discriminatory attitudes
  • Propose future challenges for the management of European airports in particular
  • Examine in depth the possible development of existing European Directives, the deepening or not of liberalized management, the coexistence of interests between airlines and airport managers
  • Investigate the financing and continuity of the substantial investments in infrastructures, the flexible regulation in crisis situations or the limit on pollutant emissions as an objective brake on aeronautical activities

Module 3. Air transportation: Economics and management in the global marketplace

  • Identify how aviation is integrated into the transportation system, as well as the various forms of cooperation in the environment
  • Examine the various factors involved in the air transport system: manufacturers, airlines, and air navigation service providers
  • Analyze the air transport system, its integration, competition and cooperation with intermodal mode
  • Evaluate the contemporary social reality using macroeconomic and air environment tools
  • Determine the technical characteristics of air transport modes
  • Contextualize relevant information from the physical or business contexts
  • Propose mechanisms for interpreting the solutions identified

Module 4. Protection of the Airport and its surroundings: Integration of Evolutionary Models

  • Recognize the different aerodromes according to their environment
  • Identify the physical factors that condition the design of the infrastructure and the development of the activity
  • Identify the risks generated by the airport on its environment and vice versa
  • Specify the international regulatory framework for the protection of the airport and its surroundings
  • Define aerodrome easements and justify their necessity in terms of operations
  • Define external easements and justify their necessity based on the environment
  • Establish the basis of the easement surveillance system
  • Define the coordination mechanisms of the stakeholders involved in the validation of the various airport infrastructure development proposals
  • Characterize intermodal development and coordination
  • Present the evolution of airport models, based on the facilitation of new technologies

Module 5. Security, Security against Unlawful Acts against Civil Aviation, AVSEC

  • Examine national and international regulations
  • Identify the most important aspects of implementing security measures
  • Determine the various ways of reducing operational impact
  • Analyze the human and material means used in the implementation of security measures
  • Defining the safety culture and how to promote it
  • Define how to ensure quality in the implementation of safety measures
  • Propose how to integrate security into the daily operations of airports and airlines

Module 6. Airport strategy and commissioning of a new airport

  • Examine the structure of the airport industry, as well as its operating environment
  • Identify the functional elements of the airport infrastructure
  • Analyze airport business and strategic planning in airports
  • Generate specialized knowledge on the key concepts associated with traffic demand analysis and airport capacity calculation
  • Establish measures to avoid airport congestion
  • Planning the treatment of stakeholders involved in airport operations
  • Understand the airport certification process
  • Establish the framework for airport economic regulation
  • Develop the operational transition process for new infrastructures

Module 7. Air Navigation Systems

  • Analyze the evolution of different technologies in the field of navigation
  • Specify the applicability of air traffic surveillance tools
  • Justify the benefits of aviation navigation resources and procedures
  • Determine the significant impact on safety and efficiency derived from the provision of ATS services
  • Evaluate the benefits of airspace management through new models
  • Compile management methods in systems maintenance
  • Examine the significance of information sharing among aviation users
  • Identify trends and impacts of new air navigation systems

Module 8. Aircraft Propulsion Plants

  • Fundamentals of the history of the development of aircraft engines
  • Analyze the most important components of these propulsion plants
  • Generate mathematical models for the calculation of the different engines
  • Evaluate engine performance with these models and perform a comparative analysis
  • Identify the most important problems and advantages of each powerplant
  • Present the basis for the future evolution of these engines

Module 9. Aircraft Manufacturers and Maintenance

  • Fundamentals of the industry concepts applied in these processes
  • Establish a chronogram of events and decisions
  • Substantiate the actions and decisions taken in each step of the production process
  • Compile data of interest and particularities that occur throughout the process
  • Identify the risks and uncertainties that arise in the different decision making processes
  • Propose to the students the initiative to try to model alternative actions in order to evaluate possible outcomes
  • Analyze whether there is room for substantial improvement in the phases presented

Module 10. Technological innovations and aeronautical operations

  • Examine the different actors involved in the technological development of aviation
  • Identify the main technological developments to improve the sustainability of the aeronautical sector
  • Define new materials and new elements that contribute to technological innovation in the sector
  • Substantiate how digitization processes and artificial intelligence can contribute to the improvement of aeronautical systems
  • Analyze the development and utilities of aerial mobility in our cities
  • Determine the different uses that can be made of airport infrastructures
  • Propose solutions associated with the sector that can be applicable to improving the lives of citizens
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Thanks to this university program, you will gain a more detailed knowledge of aircraft manufacturing and maintenance"

Professional Master's Degree in Aeronautical Engineering

Aeronautical engineering is a branch of engineering that focuses on the design, development, manufacture and maintenance of aerial vehicles, such as airplanes, helicopters, drones, rockets and satellites. The development of aeronautical engineering dates back to the early 20th century, when the first airplanes began to be built and improved. Since then, this discipline has evolved along with technology and has involved important advances in space exploration and commercial aviation. At TECH Global University we have this professional master's degree designed with the aim of providing technical and practical skills for research and innovation in this area.

The development of aeronautical engineering is a complex and rigorous process that involves research, design, testing, manufacturing, certification and maintenance of air vehicles to improve and explore commercial aviation and space. In this Professional Master's Degree you will address aerodynamics, aeronautical materials and structures, propulsion systems, flight control and air safety. It is an excellent choice for those who wish to acquire specialized skills and develop a successful career in this field.