Sébastien Erpicum; Frédéric Laugier; Jean-Louis Boillat; Michel Pirotton; Bernard Reverchon; Anton J. Schleiss Taylor & Francis Ltd (2011) Kovakantinen kirja
Sébastien Erpicum; Frédéric Laugier; Michael Pfister; Michel Pirotton; Guy-Michel Cicero; Anton J. Schleiss Taylor & Francis Ltd (2013) Kovakantinen kirja
Sébastien Erpicum; Frédéric Laugier; Jean-Louis Boillat; Michel Pirotton; Bernard Reverchon; Anton J. Schleiss Taylor & Francis Ltd (2017) Pehmeäkantinen kirja
Taylor & Francis Ltd Sivumäärä: 314 sivua Asu: Kovakantinen kirja Painos: 1 Julkaisuvuosi: 2011, 10.05.2011 (lisätietoa) Kieli: Englanti
Labyrinth spillways are almost as old as dam engineering. In spite of the fact that they appear as a very good technical-economical compromise, only 0.1% of large dams are equipped with such weirs. The main reason for this is that traditional labyrinth weirs usually cannot be installed on top of concrete gravity dams as they require a large foundation surface. In 2003 an improved concept of traditional labyrinth spillway emerged, with alveoli developed in overhangs from a reduced support area: the Piano Key Weir (PKW). The Piano Key Weir is a weir of particular geometry, associating to a labyrinth shape the use of overhangs to reduce the basis length. The main advantage of Piano Key Weirs is that it can be directly placed on a dam crest. As a result of extreme fl oods in the recent past, a growing demand for safety in society, and revised hydrological calculations, the need for reliable spillways has consequently become higher. In this context, the Piano Key Weir proves to be an interesting solution to increase the hydraulic capacity of spillway devices.
The book contains the state-of-the-art on this still non-conventional hydraulic structure, and is divided into six main themes:
The papers in Labyrinth and Piano Key Weirs demonstrate that dam engineering currently experiences a strong revival of labyrinth oriented weirs, and are particularly of interest to academia, researchers and professionals working in the area of hydraulic engineering, and to dam control authorities and dam owners.