Hydropower plants in the context of the climatic change - TU Wien
Hydropower plants in the context of the climatic change - TU Wien
Hydropower plants in the context of the climatic change - TU Wien
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Application <strong>of</strong> chosen CfD techniques for flow analysis through <strong>the</strong> axial flow<br />
hydraulic turb<strong>in</strong>es<br />
M. Kaniecki, Z. Krzemianowski, The Szewalski Institute <strong>of</strong> Fluid-Flow Mach<strong>in</strong>ery<br />
<strong>of</strong> <strong>the</strong> Polish Academy <strong>of</strong> Sciences, Gdansk, POLAND<br />
basic <strong>in</strong>formation for a reliable judgment <strong>of</strong> old <strong>Hydropower</strong> <strong>plants</strong><br />
N. Enz<strong>in</strong>ger, S.J. Heber, H. Cerjak, Graz University <strong>of</strong> Technology, Institute for<br />
Materials Science, Weld<strong>in</strong>g and Form<strong>in</strong>g, Graz, AUSTRIA; N. Gubeljak, J.Predan,<br />
University <strong>of</strong> Maribor, Faculty <strong>of</strong> Mech. Eng., Maribor, SLOVENIA; J. Mayrhuber,<br />
Verbund Austrian Hydro Power, Vienna, AUSTRIA<br />
WEDNESDAY 6 November, afternoon: SESSION b1<br />
power production and plant management, <strong>climatic</strong> scenarios<br />
New role <strong>of</strong> pumped storage hydro <strong>plants</strong> for balanc<strong>in</strong>g <strong>of</strong> W<strong>in</strong>d and<br />
renewable Microsystems<br />
G. Brauner, Institut für Elektrische Anlagen und Energiewirtschaft, Vienna University<br />
<strong>of</strong> Technology, Vienna, AUSTRIA<br />
Investigation <strong>of</strong> pumped-storage schemes consider<strong>in</strong>g mode <strong>change</strong>s<br />
between turb<strong>in</strong>e and pump<strong>in</strong>g operation<br />
R. Klas<strong>in</strong>c, M. Larcher, Institute <strong>of</strong> Hydraulic Eng<strong>in</strong>eer<strong>in</strong>g and Water Resources<br />
Management, Graz University <strong>of</strong> Technology, Graz, AUSTRIA; A. Pred<strong>in</strong>,<br />
M. Kastrevc, Faculty <strong>of</strong> Mechanical Eng<strong>in</strong>eer<strong>in</strong>g, University <strong>of</strong> Maribor, Maribor,<br />
SLOVENIA<br />
Water, Energy and Climate: greenhouse gas Emission from<br />
Tropical <strong>Hydropower</strong> reservoirs<br />
M. Aurélio dos Santos, L. P<strong>in</strong>guelli Rosa, Energy Plann<strong>in</strong>g Program/COPPE/UFRJ,<br />
Rio de Janeiro, BRAZIL; B. Matvienko, E. Sikar, M. Bento Silva, Construmaq São<br />
Carlos, São Carlos, São Paulo, BRAZIL; E. Oliveira dos Santos, IVIG/COPPE/UFRJ,<br />
Rio de Janeiro, Rio de Janeiro, BRAZIL; C.H. Eça D’Almeida Rocha, Insterdiscipl<strong>in</strong>ary<br />
Atmospheric Program/COPPE/UFRJ, Rio de Janeiro, BRAZIL; A.M. P.B. Junior,<br />
Chemistry Eng<strong>in</strong>eer<strong>in</strong>g Program/COPPE/UFRJ, Rio de Janeiro, BRAZIL<br />
greenhouse gases from boreal Hydroelectric reservoirs: 1 years <strong>of</strong> data?<br />
A. Tremblay, L. Varfalvy, Hydro-Québec Production, Montréal, Québec, CANADA<br />
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