Design Challenges in the Development of a Hydrogen-Fueled Micro Gas Turbine Unit for Energy Generation
Environmental and social governance targets, as well as the global transition to cleaner renewable energy sources, push for advancements in hydrogen-based solutions for energy generators due to their high energy per unit mass (energy density) and lightweight nature. Hydrogen’s energy density and lig...
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MDPI AG
2025-03-01
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| author | Uma Nataraj Gottipati Angelo Minotti Vincenzo La Battaglia Alessandro Giorgetti |
| author_facet | Uma Nataraj Gottipati Angelo Minotti Vincenzo La Battaglia Alessandro Giorgetti |
| author_sort | Uma Nataraj Gottipati |
| collection | DOAJ |
| description | Environmental and social governance targets, as well as the global transition to cleaner renewable energy sources, push for advancements in hydrogen-based solutions for energy generators due to their high energy per unit mass (energy density) and lightweight nature. Hydrogen’s energy density and lightweight nature allow it to provide an extended range of uses without adding significant weight, potentially revolutionizing many applications. Moreover, a variety of sources, including renewable energy, can produce hydrogen, making it a potentially more sustainable option for energy storage despite its main limitations in production and transportation costs. In this framework we are proposing an innovative energy generator that might merge the benefits of batteries and hydrogen. The energy generator is based on a worldwide patented solution introduced by MIEEG s.r.l. regarding the shape of the chambers. This innovative solution can be used to design a 100% H2-fed microturbine with a high power/weight/volume ratio that works as a range extender of battery packs for a comprehensive, high-efficiency hybrid powertrain. In fact, it runs at 100,000 rpm and is designed to deliver about 100 kW in about 15 L of volume and 15 kg of weight (alternator excluded). The system is highly complex due to high firing temperatures, long life requirements, corrosion protection, mechanical and vibrational stresses, sealing, couplings, bearings, and the realization of tiny blades. This paper analyzes the main design challenges to face in the development of such complex generators, focusing on the hot gas path components, which are the most critical part of gas turbines. The contribution of additive manufacturing techniques, the adoption of special materials, and coatings have been evaluated for system improvement. |
| format | Article |
| id | doaj-art-bae5729a56b1493eb4722b36fc74ca18 |
| institution | Kabale University |
| issn | 2673-4591 |
| language | English |
| publishDate | 2025-03-01 |
| publisher | MDPI AG |
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| series | Engineering Proceedings |
| spelling | doaj-art-bae5729a56b1493eb4722b36fc74ca182025-08-20T03:27:28ZengMDPI AGEngineering Proceedings2673-45912025-03-018514510.3390/engproc2025085045Design Challenges in the Development of a Hydrogen-Fueled Micro Gas Turbine Unit for Energy GenerationUma Nataraj Gottipati0Angelo Minotti1Vincenzo La Battaglia2Alessandro Giorgetti3Department of Industrial, Electronic and Mechanical Engineering, Roma Tre University, 00146 Rome, ItalyMIEEG S.r.l., 00037 Rome, ItalyDepartment of Industrial, Electronic and Mechanical Engineering, Roma Tre University, 00146 Rome, ItalyDepartment of Industrial, Electronic and Mechanical Engineering, Roma Tre University, 00146 Rome, ItalyEnvironmental and social governance targets, as well as the global transition to cleaner renewable energy sources, push for advancements in hydrogen-based solutions for energy generators due to their high energy per unit mass (energy density) and lightweight nature. Hydrogen’s energy density and lightweight nature allow it to provide an extended range of uses without adding significant weight, potentially revolutionizing many applications. Moreover, a variety of sources, including renewable energy, can produce hydrogen, making it a potentially more sustainable option for energy storage despite its main limitations in production and transportation costs. In this framework we are proposing an innovative energy generator that might merge the benefits of batteries and hydrogen. The energy generator is based on a worldwide patented solution introduced by MIEEG s.r.l. regarding the shape of the chambers. This innovative solution can be used to design a 100% H2-fed microturbine with a high power/weight/volume ratio that works as a range extender of battery packs for a comprehensive, high-efficiency hybrid powertrain. In fact, it runs at 100,000 rpm and is designed to deliver about 100 kW in about 15 L of volume and 15 kg of weight (alternator excluded). The system is highly complex due to high firing temperatures, long life requirements, corrosion protection, mechanical and vibrational stresses, sealing, couplings, bearings, and the realization of tiny blades. This paper analyzes the main design challenges to face in the development of such complex generators, focusing on the hot gas path components, which are the most critical part of gas turbines. The contribution of additive manufacturing techniques, the adoption of special materials, and coatings have been evaluated for system improvement.https://www.mdpi.com/2673-4591/85/1/45high-speed micro-turbineshydrogen-air-fed lightweightpower generatormechanical designstructural design |
| spellingShingle | Uma Nataraj Gottipati Angelo Minotti Vincenzo La Battaglia Alessandro Giorgetti Design Challenges in the Development of a Hydrogen-Fueled Micro Gas Turbine Unit for Energy Generation Engineering Proceedings high-speed micro-turbines hydrogen-air-fed lightweight power generator mechanical design structural design |
| title | Design Challenges in the Development of a Hydrogen-Fueled Micro Gas Turbine Unit for Energy Generation |
| title_full | Design Challenges in the Development of a Hydrogen-Fueled Micro Gas Turbine Unit for Energy Generation |
| title_fullStr | Design Challenges in the Development of a Hydrogen-Fueled Micro Gas Turbine Unit for Energy Generation |
| title_full_unstemmed | Design Challenges in the Development of a Hydrogen-Fueled Micro Gas Turbine Unit for Energy Generation |
| title_short | Design Challenges in the Development of a Hydrogen-Fueled Micro Gas Turbine Unit for Energy Generation |
| title_sort | design challenges in the development of a hydrogen fueled micro gas turbine unit for energy generation |
| topic | high-speed micro-turbines hydrogen-air-fed lightweight power generator mechanical design structural design |
| url | https://www.mdpi.com/2673-4591/85/1/45 |
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