The present work shows a brief history of the hydraulic jump and a literature review on hydraulic jumps’ experimental and numerical studies. Leonardo da Vinci noticed this phenomenon early on, but it was only later studied by Bidone in 1820. Since the beginning of the 20th century, the hydraulic jump has received a lot of attention following the development of energy dissipater designs and stilling basins. The late 1920s and early 1930s saw many experimental studies researching the surface roller profile and energy dissipation. The study of internal flow features started in the late 1950s. Starting in the 70s, it was believed that the flow of a jump must be analysed in its actual configuration of air–water mixture, an aspect that cannot be overlooked. Several experimental studies in the late 1980s and 1990s highlighted the existence of oscillating phenomena under specific flow conditions and particularly, a cyclic variation of jump types over long‐lasting experiments. However, experimentation has its limitations associated with measuring techniques, cost and design of experiments for real‐world applications. Therefore, a stronger emphasis on hydraulic jump research must be also placed on the application and development of numerical methods.
A brief history and new research challenge on hydraulic jumps / Mossa, Michele; De Padova, Diana. - In: TECNICHE PER LA DIFESA DALL'INQUINAMENTO. - ISSN 2282-5517. - 44:(2023), pp. 117-125.
A brief history and new research challenge on hydraulic jumps
Michele Mossa;Diana De Padova
2023-01-01
Abstract
The present work shows a brief history of the hydraulic jump and a literature review on hydraulic jumps’ experimental and numerical studies. Leonardo da Vinci noticed this phenomenon early on, but it was only later studied by Bidone in 1820. Since the beginning of the 20th century, the hydraulic jump has received a lot of attention following the development of energy dissipater designs and stilling basins. The late 1920s and early 1930s saw many experimental studies researching the surface roller profile and energy dissipation. The study of internal flow features started in the late 1950s. Starting in the 70s, it was believed that the flow of a jump must be analysed in its actual configuration of air–water mixture, an aspect that cannot be overlooked. Several experimental studies in the late 1980s and 1990s highlighted the existence of oscillating phenomena under specific flow conditions and particularly, a cyclic variation of jump types over long‐lasting experiments. However, experimentation has its limitations associated with measuring techniques, cost and design of experiments for real‐world applications. Therefore, a stronger emphasis on hydraulic jump research must be also placed on the application and development of numerical methods.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.