Abstract
Green energy vehicle technologies such as hydrogen-fuelled automobiles are progressing rapidly towards decarbonisation. A significant challenge in hydrogen automobiles is the storage method and safety, particularly during fast filling, including the aerodynamic noise of high-pressure systems in pressure reducer systems. In this study, a hydrogen tank solenoid (HTS) system is developed as a hydrogen supply system for fuel cell vehicles to address the above issues where one of its main parts, namely solenoid valve, works as a check valve during fast filling and as an electromagnetic pressure controller during operation. Focusing on the solenoid valve inside the HTS system, the flow characteristics and flow-induced noise during the fast charging of hydrogen are analysed via computational fluid dynamics simulation. The results show that without any treatment, the noise generated inside the solenoid valve can be extremely loud and hence adversely affect devices and users, owing primarily to severe turbulence downstream of the valve. The severe turbulence is reduced by modifying the flow path at the outlet passage, which also reduces the aerodynamic noise by 2%–12% depending on the operating conditions.
Original language | English |
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Article number | 103661 |
Journal | Journal of Energy Storage |
Volume | 45 |
DOIs | |
Publication status | Published - 2022 Jan |
Keywords
- Computational fluid dynamics
- Hydrogen
- Noise
- Solenoid valve
- Turbulence
ASJC Scopus subject areas
- Renewable Energy, Sustainability and the Environment
- Energy Engineering and Power Technology
- Electrical and Electronic Engineering