Search results for " cross-flow turbine"

showing 3 items of 3 documents

Numerical analysis of a new cross-flow type hydraulic turbine for high head and low flow rate

2021

Cross-flow turbines have recently been proposed for energy recovery in aqueducts when the outlet pressure is greater than zero, owing to their constructive simplicity and good efficiency within a large range of flow rates and head drops. In the case of high head drop (higher than 150 m) and relatively small discharge (lower than 0.2 m3/s), the traditional design of these turbines leads to very small widths of the nozzle and the runner; as a consequence, friction losses grow dramatically and efficiency drops down to very low values. Standard Pelton turbines require zero outlet pressure and cannot be used as alternatives. A new counter-pressure hydraulic turbine for high head and low flow rat…

Energy recoveryGeneral Computer ScienceNumerical analysisenergy recoveryMechanicsEngineering (General). Civil engineering (General)ConstructiveVolumetric flow rateSettore ICAR/01 - Idraulicabanki–michell turbinecross-flow turbineModeling and SimulationSimplicity (photography)water distribution networkHead (vessel)Cross-flow turbineTA1-2040micro-hydropowerMicro-hydropower energy recovery cross-flow turbine water distribution network Banki–Michell turbineHydraulic turbinesMathematicsEngineering Applications of Computational Fluid Mechanics
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Banki-Michell Optimal Design by Computational Fluid Dynamics Testing and Hydrodynamic Analysis

2013

In hydropower, the exploitation of small power sources requires the use of small turbines that combine efficiency and economy. Banki-Michell turbines represent a possible choice for their simplicity and for their good efficiency under variable load conditions. Several experimental and numerical tests have already been designed for examining the best geometry and optimal design of cross-flow type machines, but a theoretical framework for a sequential design of the turbine parameters, taking full advantage of recently expanded computational capabilities, is still missing. To this aim, after a review of the available criteria for Banki-Michell parameter design, a novel two-step procedure is de…

Optimal designEngineeringhydraulic turbineControl and OptimizationNozzleEnergy Engineering and Power TechnologyMechanical engineeringComputational fluid dynamicsTurbinelcsh:Technologyjel:Q40Impellercross-flow turbinejel:Qjel:Q43jel:Q42jel:Q41jel:Q48jel:Q47hydraulic turbine; Banki-Michell; cross-flow turbine; CFD analysisElectrical and Electronic EngineeringEngineering (miscellaneous)jel:Q49Renewable Energy Sustainability and the Environmentbusiness.industrylcsh:Tjel:Q0jel:Q4Power (physics)Sequential analysisBanki-MichellCross-flow turbinebusinessCFD analysisEnergy (miscellaneous)Energies; Volume 6; Issue 5; Pages: 2362-2385
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Low-Head Hydropower for Energy Recovery in Wastewater Systems

2022

Hydraulic turbines for energy recovery in wastewater treatment plants, with relatively large discharges values and small head jumps, are usually screw Archimedes or Kaplan types. In the specific case of a small head jump (about 3 m) underlying a rectangular weir in the major Palermo (Italy) water treatment plant, a traditional Kaplan solution is compared with two other new proposals: a Hydrostatic Pressure Machine (HPM) located at the upstream channel and a cross-flow turbine (CFT) located in a specific underground room downstream of the same channel. The fluid mechanical formulations of the flow through these turbines are analyzed and the characteristic parameters are stated. Numerical ana…

cross-flow turbinewastewater systemsenergy recoveryGeography Planning and Developmenthydrostatic pressure machinelow-head turbines; hydrostatic pressure machine; cross-flow turbine; energy recovery; wastewater systemsAquatic ScienceBiochemistrylow-head turbineWater Science and TechnologySettore ICAR/01 - Idraulica
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