University certificate
The world's largest faculty of engineering”
Description
With this 100% online Postgraduate diploma you will become a specialist in Hydrogen Facility Design"
Green hydrogen is proving in recent years to be an effective alternative for reducing CO2 emissions in vehicles or industrial sectors. This has led to the promotion of projects, especially in the automotive sector, that offer a viable mobility option, which requires not only changes in vehicle design, but also in refueling stations.
In this sense, the use of hydrogen and its possibilities are much more visible to the population in this sector, although the end uses are multiple, favoring the industrial, chemical or semiconductor sectors, for example. A scenario of innovation, which requires, on the part of engineering professionals, a deep knowledge to further boost this sector. In this line, TECH offers this Postgraduate diploma in Hydrogen Facility Design in which provides the most advanced and current knowledge in this area.
A program, where students will have access to a theoretical and practical agenda, which will lead them to delve into the use of hydrogen as a raw material in industrial processes, the many possibilities around their end uses, as well as the technical and regulatory elements required for the creation of facilities. All this with multimedia content of quality elaborated by a specialized faculty in the sector.
Graduates will also be able to reduce the long hours of memorization and study, thanks to the Relearning method used by TECH in all its courses. The system, based on the reiteration of content, will allow students to acquire learning in a more natural and progressive way.
Therefore, engineering professionals have an excellent opportunity to advance their careers through a 100% online university education, which they can study whenever and wherever they wish. All you need is an electronic device (computer, tablet or cell phone) with an Internet connection to access, at any time, the contents of the virtual campus. In addition, they have the freedom to distribute the teaching load according to their needs, making this university education easily compatible with the most demanding responsibilities.
Stand out in a sector that demands highly qualified engineering professionals for the development of hydrogen facility projects"
This Postgraduate diploma in Hydrogen Facility Design contains the most complete and up-to-date scientific program on the market. The most important features include:
- Case studies presented by engineering experts
- The graphic, schematic and practical contents of the book provide technical and practical information on those 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
You are in front of an academic option that gives you the opportunity to access whenever you want to this course syllabus, without classes with fixed schedules. Enroll now”
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 academic year For this purpose, the students will be assisted by an innovative interactive video system created by renowned and experienced experts.
This program will enable you to learn about the main issues involved in the replacement of natural gas by hydrogen"
This program will enable you to learn about the main issues involved in the replacement of natural gas by hydrogen"
Syllabus
TECH uses the Relearning system in all its program, with which students can progress in a much more natural way, even reducing the hours of study. Therefore, through this system, the graduates will acquire advanced learning about the forms of storage, transport and distribution of hydrogen, the final uses and the design of hydrogen facilities in different industries. All this, in addition, through multimedia teaching resources that can be easily accessed 24 hours a day, from any electronic device with an Internet connection.
A study plan with a theoretical-practical focus on hydrogen installations, which will lead you to improve your professional career"
Module 1. Hydrogen Storage, Transportation and Distribution
1.1. Hydrogen Storage, Transportation, and Distribution Forms
1.1.1. Hydrogen Gas
1.1.2. Liquid Hydrogen
1.1.3. Hydrogen Storage in Solid State
1.2. Hydrogen Compression
1.2.1. Hydrogen Compression. Necessity
1.2.2. Problems Associated with the Compression of Hydrogen
1.2.3. Equipment
1.3. Gaseous State Storage
1.3.1. Problems Associated with Hydrogen Storage
1.3.2. Types of Storage Tanks
1.3.3. Storage Tank Capacities
1.4. Transportation and Distribution in Gaseous State
1.4.1. Transportation and Distribution in Gaseous State
1.4.2. Distribution by Road
1.4.3. Use of the Distribution Network
1.5. Hydrogen Storage, Transportation and Distribution as Liquid
1.5.1. Process and Conditions
1.5.2. Equipment
1.5.3. Current State
1.6. Storage, Transportation and Distribution as Methanol
1.6.1. Process and Conditions
1.6.2. Equipment
1.6.3. Current State
1.7. Storage, Transportation and Distribution as Green Ammonia
1.7.1. Process and Conditions
1.7.2. Equipment
1.7.3. Current State
1.8. Storage, Transportation and Distribution as LOHC (Liquid Organic Hydrogen)
1.8.1. Process and Conditions
1.8.2. Equipment
1.8.3. Current State
1.9. Hydrogen Export
1.9.1. Hydrogen Export. Necessity
1.9.2. Green Hydrogen Production Capabilities
1.9.3. Transport Technical Comparison
1.10. Comparative Technical-Economic Analysis of Alternatives for Large Scale Logistics
1.10.1. Cost of Hydrogen Export
1.10.2. Comparison between Different Means of Transportation
1.10.3. The Reality of Large-Scale Logistics
Module 2. Hydrogen End-Uses
2.1. Industrial Uses of Hydrogen
2.1.1. Hydrogen in Industries
2.1.2. Origin of Hydrogen Used in Industry. Environmental Impact
2.1.3. Industrial Uses in the Industry
2.2. Industries and Hydrogen e-Fuels Production
2.2.1. e-Fuel Versus Traditional Fuels
2.2.2. Classification of e-Fuels
2.2.3. Current Status of e-Fuels
2.3. Production of Ammonia: Haber-Bosch Process
2.3.1. Nitrogen in Figures
2.3.2. Haber-Bosch Process. Process and Equipment
2.3.3. Environmental Impact
2.4. Hydrogen in Refineries
2.4.1. Hydrogen in Refineries. Necessity
2.4.2. Hydrogen Used Today. Environmental Impact and Cost
2.4.3. Short- and Long-Term Alternatives
2.5. Hydrogen in Steel Mills
2.5.1. Hydrogen in Steel Mills. Necessity
2.5.2. Hydrogen Used Today. Environmental Impact and Cost
2.5.3. Short- and Long-Term Alternatives
2.6. Natural Gas Substitution: Blending
2.6.1. Mixing Properties
2.6.2. Problems and Required Improvements
2.6.3. Opportunities
2.7. Injection of Hydrogen into the Natural Gas Grid
2.7.1. Methodology
2.7.2. Current Capabilities
2.7.3. Problems
2.8. Hydrogen in Mobility: Fuel Cell Vehicles
2.8.1. Context and Necessity
2.8.2. Equipment and Schemes
2.8.3. Current State
2.9. Co-generation and Production of Electricity with Fuel Cells
2.9.1. Fuel Cell Production
2.9.2. Discharge to the Grid
2.9.3. Microgrids
2.10. Others Hydrogen End-Uses: Chemical, Semiconductor, Glass Industry
2.10.1. Chemical Industry
2.10.2. Semiconductor Industry
2.10.3. Glass Industry
Module 3. Hydrogen Refueling Stations
3.1. Hydrogen Refueling Corridors and Networks
3.1.1. Hydrogen Refueling Networks. Current State
3.1.2. Global Hydrogen Vehicle Refueling Station Deployment Targets
3.1.3. Cross-Border Hydrogen Refueling Corridors
3.2. Hydrogen Plant Types, Modes of Operation and Dispensing Categories
3.2.1. Hydrogen Refueling Station Types
3.2.2. Operating Modes of the Hydrogen Refueling Stations
3.2.3. Dispensing Categories According to Standards
3.3. Design Parameters
3.3.1. Hydrogen Refueling Station. Components
3.3.2. Design Parameters according to Hydrogen Storage Type
3.3.3. Design Parameters according to the Station's Target Use
3.4. Storage and Pressure Levels
3.4.1. Storage of Hydrogen Gas at Hydrogen Refueling Stations
3.4.2. Gas Storage Pressure Levels
3.4.3. Liquid Hydrogen Storage in Hydrogen Refueling Stations
3.5. Compression Stages
3.5.1. Hydrogen Compression. Necessity
3.5.2. Compression Technologies
3.5.3. Optimization
3.6. Dispensing and Precooling
3.6.1. Precooling according to Regulations and Vehicle Type. Necessity
3.6.2. Hydrogen Dispensing Cascade
3.6.3. Thermal Phenomena of Dispensing
3.7. Mechanical Integration
3.7.1. Refueling Stations with On-Site Hydrogen Production
3.7.2. Refueling Stations without Hydrogen Production
3.7.3. Modularization
3.8. Applicable Regulations
3.8.1. Safety Regulations
3.8.2. Hydrogen Quality Standards, Certificates
3.8.3. Civil Regulations
3.9. Preliminary Design of a Hydrogen Plant
3.9.1. Presentation of the Case Study
3.9.2. Development of the Case Study
3.9.3. Resolution
3.10. Cost Analysis
3.10.1. Capital and Operating
A program designed to show you the many possibilities and uses of hydrogen in the chemical, semiconductor, glass and transportation industries"
Postgraduate Diploma in Hydrogen Facility Design
The use of hydrogen as a renewable energy source is increasingly present in different industrial and residential sectors. In this sense, the demand for professionals trained in the design and development of hydrogen facilities has increased significantly in recent years. Given this scenario, in TECH Global University we designed the most complete and updated Postgraduate Diploma in Hydrogen Facility Design in the educational panorama. Through a 100% online education, we offer you the opportunity to obtain a world-class degree, accessing self-managed classes, innovative multimedia content and tutorials with an experienced teaching staff. Through the curriculum, we will provide you with the tools you need to both understand how hydrogen facilities work and how to design them effectively.
Train yourself in the design of hydrogen facilities
At TECH we focus on offering you high quality training, which will allow you to become a highly qualified and competitive professional in the labor market. With our program, you will acquire the theoretical and practical knowledge you need to develop your professional career in the field of renewable energies and the design of hydrogen facilities. As you progress through the curriculum, you will have the opportunity to learn about the fundamental principles of hydrogen as an energy source, hydrogen production and storage processes, as well as hydrogen supply systems and applications in different sectors. In addition, you will acquire skills in the design of hydrogen facilities and their integration into different types of applications. Finally, we will provide you with the necessary technical knowledge to enable you to develop innovative and sustainable projects in the hydrogen field.