Objectives
In this course, we pay attention to the different turbomachinery, alone or in association, used for energy production right now or in the near future. The available resources are analysed and are discussed dependent on the type, on the geometry and on the main dimensions of the different turbomachinery and their operating modes.A part of the electricity produced with turbomachinery came from direct extraction of the energies of the wind (wind turbines), from the rivers or from the water head (hydraulic turbines). The last part of the production came from an association of different turbomachinery (compressor, turbine and heat source), often called gas turbines or steam turbines. These systems producing both heat and mechanical power (converted to electricity power)
Palabras clave
Energy production, hydraulic turbines, wind turbines, gas turbines, steam turbines
Programme
- Hydraulic turbines: geometries (impulse and reaction turbine, Francis, Kaplan, Pelton), energy transfer (Euler equation), efficiency, similitude law, cavitation phenomena.
- Wind turbines: geometries, size, blade numbers, power recoverable (Betz law), regulation.
- Gas turbine: introduction to energy production from a heat source, energy exchange in the different component (concepts of shaft work and stagnation variables), transformations graphical representation, components description.
- Steam turbines: Rankine's cycle, Hirn's cycle and improvement (reheat, extraction)
Learning Outcomes
- Understand the energy production with turbomachinery
- Know how to design a hydraulic turbine
- Know how to design a wind turbine
- Know how to calculate the cycle of steam or gas turbine
Assesment
Final mark = 60% Knowledge + 40% Know-how Knowledge = 100% final exam Know-how = 100% continuous assessment ,