Description

A professional master’s degree program that will allow you to be up-to-date with the current affairs in motor engineering and current optimization techniques”

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Since inventors Lenoir and Otto contributed to the development of the reciprocating internal combustion engine, the techniques for its design and development have undergone significant advances. In this sense, their improvement has led to lower manufacturing costs, faster time to market and much better performance. All these characteristics have, in turn, led to the growth of sectors such as the naval, aeronautical and industrial sectors.  

In this scenario, the specialized professional engineer plays a transcendental role. That's why you need to have a solid understanding of advances in injection and ignition systems, technology used for noise and vibration reduction, or improvements in data analysis for predictive maintenance. This 12-month professional master’s degree in Alternative Internal Combustion Engines is based on these lines.  

It is a program that will lead the students to carry out a deep analysis of the affected Thermodynamic Cycles, their different components, the Design, Modeling and Simulation of all of them. Furthermore, throughout this educational pathway, the engineer will delve into the different strategies with respect to the improvement of the different aspects of the engine, such as the different performances: Emissions and Fuel and Combustion possibilities.  

To this end, the graduates are provided with quality multimedia pills, specialized readings, and case studies that will allow them to obtain a dynamic, top-level education that will not only provide them with solid current knowledge in this field, but will also show them future perspectives under the highest scientific rigor.  

An excellent opportunity to achieve advanced learning with an excellent team of teachers and a 100% online teaching methodology. The student only needs a digital device with an Internet connection to view, at any time of the day, the content hosted on the virtual platform.

Enroll in the best digital university in the world according to Forbes and grow professionally in the world of Aeronautical Engineering”

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

  • The development of practical cases presented by experts in Aeronautical Engineering 
  • The 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 the process of 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

Inquire into the latest research projects and development of new engine concepts through this university program"

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

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

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the educational year. For this purpose, the students will be assisted by an innovative interactive video system created by renowned and experienced experts.  

Thanks to the Relearning method used by TECH you will achieve a much more effective learning in less time"

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Delve through the best teaching materials on the use of biofuels and their impact on engine performance"

Objectives

This professional master’s degree allows the engineer to achieve advanced specialization in the development and design of Power Plants, as well as the resolution of the main problems existing in this field. In addition, this educational journey will allow you to keep abreast of the present and future in the development of Alternative Internal Combustion Engines. All this, through the best multimedia teaching resources and a syllabus prepared by real professionals in aeronautical engineering. 

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You will be able to increase your professional opportunities in naval, aeronautical or industrial projects”

General Objectives

  • Analyze the state of the art of Alternative Internal Combustion Engines (AICE) 
  • Identify conventional Alternative Internal Combustion Engines, (AICEs) 
  • Examine the different aspects to be taken into account in the life cycle of AICEas 
  • Compile the fundamental principles of design, manufacture and simulation of reciprocating internal combustion engines 
  • Fundamentals of engine testing and validation techniques, including data interpretation and iteration between design and empirical results
  • Determine the theoretical and practical aspects of engine design and manufacturing, promoting the ability to make informed decisions at each stage of the process
  • Analyze the different injection and ignition methods in alternative internal combustion engines, specifying the advantages and challenges of each type of injection system in different applications 
  • Determine the natural vibration of internal combustion engines, modally analyzing their frequency and dynamic response, the impact on engine noise in normal and abnormal operation 
  • Study applicable vibration and noise reduction methods, international regulations and impact on transportation and industry 
  • Analyze how the latest technologies are redefining energy efficiency and reducing emissions in internal combustion vehicles 
  • Explore in depth Miller cycle engines, controlled compression ignition (HCCI), compression ignition (CCI) and other emerging concepts 
  • Analyze the technologies that enable compression ratio adjustment and their impact on efficiency and performance
  • Fundamentals of integrating multiple approaches, such as the Atkinson-Miller cycle and spark controlled ignition (SCCI), to maximize efficiency under a variety of conditions 
  • Delve into the principles of engine data analysis 
  • Analyze the different alternative fuels on the market, their properties and characteristics, storage, distribution, emissions and energy balance
  • Analyze the different systems and components of hybrid and electric motors 
  • Determine the energy control and management methods, their optimization criteria and their implementation in the transportation sector 
  • Fundamentals of an in-depth and up-to-date understanding of the challenges, innovations and future prospects in the field of engine research and development, with a focus on alternative internal combustion engines and their integration with advanced technologies and emerging propulsion systems

Specific Objectives

Module 1. Alternative Internal Combustion Engines

  • Analyze the thermodynamic cycles involved in the operation of IACMs  
  • Concrete operation of conventional MCIA such as Otto or Diesel cycle 
  • Establish the different existing performance terms 
  • Identify the elements that make up MCIAs 

Module 2. Design, manufacture and simulation of Alternative Internal Combustion Engines (AICM)

  • Develop the key concepts in the design of combustion chambers, considering the relationship between geometry and combustion efficiency 
  • Analyze the different materials and manufacturing processes applicable to engine components, considering factors such as resistance, temperature and durability 
  • Evaluate the importance of precise tolerances and adjustments in the efficient and durable operation of motors 
  • Use simulation software to model engine behavior under various conditions and optimize engine performance 
  • Determine validation tests on test benches to evaluate performance, durability and efficiency of motors 
  • Examine the lubrication, cooling, timing, valve, feed, ignition and exhaust systems in detail, considering their influence on overall engine performance 

Module 3. Injection and ignition systems 

  • Compile the principles of fuel injection 
  • Determine the types of fuel injection, their uses and characteristics 
  • Evaluate how direct and indirect injection affects efficiency and air-fuel mixture formation 
  • Examine the operation of a diesel injection system: common rail system 
  • Fundamentals of the different injection and electronic ignition systems 
  • Analyze the fundamental aspects for the control and calibration of injection systems 

Module 4. Vibration, noise and engine balancing

  • Determine the vibration and noise modes generated by a reciprocating internal combustion engine 
  • Modal analysis of internal combustion engines, their dynamic response, frequency and torsional vibrations 
  • Establish the different techniques for balancing motors 
  • Develop the techniques used in noise and vibration control and reduction 
  • Identify maintenance tasks required to maintain levels within tolerances 
  • Support the impact of vibration and noise in industry and transportation, based on applicable international standards 

Module 5. Advanced alternative internal combustion engines  

  • Explore in depth Miller cycle engines, controlled compression ignition (HCCI), compression ignition (CCI) and other emerging concepts 
  • Analyze the technologies that enable compression ratio adjustment and their impact on efficiency and performance 
  • Fundamentals of integrating multiple approaches, such as the Atkinson-Miller cycle and spark controlled ignition (SCCI), to maximize efficiency under a variety of conditions 
  • Assess the future prospects of alternative internal combustion engines and their relevance in the context of the evolution towards more sustainable propulsion systems

Module 6. Diagnosis and maintenance of reciprocating internal combustion engines

  • Compile diagnostic methods and maintenance types 
  • Identify the types of existing tests and diagnostics 
  • Develop optimization measures for maintenance
  • Demonstrate the validity of good maintenance practices

Module 7. Alternative fuels and their impact on performance 

  • Determine the different alternative fuels on the market 
  • Analyze the characteristics and properties of different alternative fuels 
  • Examine the forms of storage and distribution of each of the alternative fuels 
  • Evaluate alternative fuels performance and impact on emissions 
  • Identify the advantages and disadvantages of each based on their applicability 
  • Compile the environmental regulations surrounding alternative fuels 
  • Establish the economic and social impact of alternative fuels  

Module 8. Optimization: electronic management and emission control 

  • Develop advanced concepts on which engine optimization is applied 
  • Analyze heat losses and mechanical losses of combustion engines and their improvement points 
  • Establish the different methods of optimization based on consumption and efficiency 
  • Evaluate performance optimization in internal combustion engines 
  • Review the main concepts of thermal and volumetric optimization 
  • Examine the different emission control methods 
  • Strengthen detection and electronic management methods 
  • Review the regulations applicable to gas emissions  

Module 9. Hybrid engines and extended-range electric vehicles 

  • Identify the types of hybrid and electric motors 
  • Develop the parameters and challenges of electric and hybrid motor design 
  • Establish optimization criteria for hybrid and electric motors 
  • Analyze energy recovery systems 
  • Identify the fundamental aspects of the loading infrastructure 

Module 10. Research and development of new engine concepts 

  • Analyze the economic and commercial prospects of internal combustion and reciprocating engines, exploring how they influence research and development investment as well as business strategies 
  • Develop the ability to understand and design policies and strategies to promote innovation in engines, considering the role of governments and companies in this process
  • Explore emerging trends and analyze the different sectors and their future prospects 
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Delve into the advantages of implementing the Miller cycle in Internal Combustion Engines from the comfort of your mobile device with Internet”

Professional Master's Degree in Alternative Internal Combustion Engines

Alternative internal combustion engines are at the heart of vehicle and energy innovation, powering a faster, cleaner and more powerful world. Would you like to become an expert? The Faculty of Engineering at TECH Global University offers you the opportunity to acquire these skills through the Master's Degree in Alternative Internal Combustion Engines, taught in online mode. Our program stands out for having a team of highly qualified teachers, with extensive experience in the field of engineering and engine technology. During the program, you will explore alternative internal combustion engines in depth, understanding their operation, design and applications in industry. Does the idea of mastering this essential technology in the modern world excite you? With us this is possible, plus, upon completion of the program, you will receive a prestigious certificate to endorse your expertise and knowledge in this highly specialized field.

Explore alternative internal combustion engines

Our goal is to provide you with a comprehensive and up-to-date guide to alternative internal combustion engines, so you can apply your knowledge in the automotive, aerospace and energy industries. Studying at TECH is a unique experience, where you will have access to state-of-the-art resources, cutting-edge research and a committed academic community. Can you imagine the job opportunities that will open up for you with this certificate in hand? Here, you will be prepared to work as a design engineer, engine development specialist, technical consultant or researcher in prestigious global companies and research centers. The demand for highly trained professionals in this field continues to grow steadily, giving you an exceptional competitive advantage in the job market. In short, the Master's Degree in Alternative Internal Combustion Engines offers you the opportunity to acquire exceptional skills, learn from the best, earn a recognized certificate and open doors to exciting career opportunities. Are you ready to begin your journey to engineering success? We look forward to seeing you!