Search results for "cross-flow"

showing 10 items of 20 documents

Analisi fluidodinamica e sperimentale su una turbina Cross-Flow

2014

L'energia idroelettrica è una forma di energia rinnovabile che oggi sta subendo un profondo processo di trasformazione passando da un sistema centralizzato di produzione ad un sistema di tipo distribuito. Tale processo ha dato un forte impulso alla costruzione di impianti di produzione idroelettrici su piccola scala. Questi impianti si possono realizzare: 1) lungo piccoli corsi d'acqua con piccoli salti disponibili, 2) alla fine di lunghe condotte di adduzione in corrispondenza della sezione di consegna ad un serbatoio cittadino, 3) nelle reti di distribuzione idriche dove il carico piezometrico in eccesso si dissipa con valvole di regolazione, 4) a valle di impianti di depurazione nel caso…

Cross-FlowMini-IdroelettricoSperimentaleCFDSettore ICAR/01 - Idraulica
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Energy recovery from rectangular weirs in wastewater treat-ment plants

2022

Hydraulic turbines for energy recovery in wastewater treatment plants, with relatively large discharges and small head jumps, are usually screw or Kaplan types. In the specific case of a small head jump (about 3 m) underlying a rectangular weir in the major Palermo (Italy) treat-ment plant, a traditional Kaplan solution is compared with two other ones: a Hydrostatic Pres-sure Machine (HPM) located in the upstream channel and a cross-flow turbine located in a specif-ic underground room downstream the same channel.

Cross-flow turbineLow head turbinesHydrostatic Pressure MachineSettore ICAR/01 - Idraulica
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Cross-flow Turbine Design for Variable Operating Conditions

2014

Abstract The potential energy hidden in water resources is becoming more and more a significant economic value. The value of the hydroelectric energy is often magnified by the proximity of the turbine to pumps or other energy sinks owned by the same water manager. Cross-flow or Banki-Michel turbines are a very efficient and economic choice that allows a very good cost/benefit ratio for energy production located at the end of conduits carrying water from a water source to a tank. In the paper the optimum design of a cross-flow turbine is sought after, assuming a flow rate variable in time. Regulation of the discharge entering in the turbine is a key issue, which is faced adopting a shaped se…

Cross-flowgeographyEngineeringgeography.geographical_feature_categoryEnergy saving.business.industryTurbinesMechanical engineeringContext (language use)General MedicineInletTurbineSlip factorSettore ICAR/01 - IdraulicaDraft tubeImpellerHydraulic headEnergy savingCross-flow turbineTurbines; Cross-flow; Energy saving.businessEngineering(all)TurbineMarine engineeringProcedia Engineering
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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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Coupled hydraulic and electronic regulation of cross-flow turbines in hydraulic plants

2017

The potential benefit of coupling hydraulic and electronic regulation to maximize the energy production of a cross-flow turbine in hydraulic plants is analyzed and computed with reference to a specific case. Design criteria of the cross-flow turbine inside hydraulic plants are first summarized, along with the use of hydraulic regulation in the case of constant water head and variable discharge. Optimal turbine impeller rotational speed is derived, and traditional as well as innovative systems for electrical regulation are presented. A case study is analyzed to evaluate the potential energy production according to the expected monthly mean flow distribution and two possible choices: CFT1 wit…

Engineering020209 energy0208 environmental biotechnologyFlow (psychology)Mechanical engineering02 engineering and technologyTurbineSettore ICAR/01 - IdraulicaHydraulic headImpeller0202 electrical engineering electronic engineering information engineeringMean flowWater Science and TechnologyCivil and Structural Engineeringbusiness.industryMechanical EngineeringDistributed generation unitsRotational speedCross-flow turbinesPotential energy020801 environmental engineeringElectrical drivesBanki-MichellComputational fluid dynamics (CFD) analysisbusinessEnergy (signal processing)Marine engineering
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Coupled Hydraulic and Electronic Regulation for Banki Turbines

2016

Abstract The potential benefit of coupling hydraulic and electronic regulation to maximize the energy production of a Bank turbine in hydraulic plants is analyzed and computed with reference to a specific case. Design criteria of the Banki turbine inside hydraulic plants are first summarized, along with the use of hydraulic regulation in the case of constant water head and variable discharge at the end of aqueducts feeding water distribution systems. Optimal turbine impeller rotational speed is derived and traditional, as well as innovative systems for electricity production according to controlled rotational speed of the generator are presented. The study case at the purification plant nam…

EngineeringCross-Flow turbine020209 energyMechanical engineering02 engineering and technologyelectrical drivesComputational fluid dynamicsTurbineSettore ICAR/01 - IdraulicaGenerator (circuit theory)ImpellerHydraulic headEngineering (all)0202 electrical engineering electronic engineering information engineeringCFD analysiEngineering(all)distributed generation unitsbusiness.industryRotational speedCross-Flow turbinesGeneral Medicineelectrical driveElectricity generationBanki-Michellbusinessdistributed generation unitCFD analysisEnergy (signal processing)Marine engineeringProcedia Engineering
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A Banki–Michell turbine for in-line water supply systems

2017

The design of a novel Banki-Michell type turbine, to be located in existing water pipelines, is proposed. The turbine has a very efficient diffuser which allows the turbine to be compact and, most important, to have in-line flanges for minimal piping modifications at existing sites. This turbine combines a simple geometry with stable efficiency in a wide range of water discharges. The design procedure estimates the outer diameter of the impeller, its width and the geometry of the diffuser. A series of experimental tests has been carried out to measure the efficiency of the proposed turbine prototype. The turbine was tested in two different configurations, with and without rotational velocit…

EngineeringCross-Flow turbine0208 environmental biotechnologyWater supply02 engineering and technology010501 environmental sciences01 natural sciencesTurbineSettore ICAR/01 - IdraulicaHydraulic machineryDiffuser (sewage)0105 earth and related environmental sciencesWater Science and TechnologyCivil and Structural Engineeringbusiness.industryinline turbinehydraulic machinery designhydraulics of renewable energy systems.Line (electrical engineering)020801 environmental engineeringRenewable energyPipeline transportBanki-Michell turbineCross-flow turbinebusinessMarine engineeringJournal of Hydraulic Research
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Experimental Study of Cross-flow Micro-turbines for Aqueduct Energy Recovery

2014

An important component of the management cost of aqueducts is given by the energy costs. Part of these costs can be recovered by transforming some of the many existing energy dissipations in electric energy by means of economic turbines. In this study an experimental work has been carried out: 1) to test the performance of an economic Cross-Flow turbine which maintains high efficiency within a large range of water discharges, and 2) to validate a new approximated formula relating main inlet velocity to inlet pressure. It is proved that the proposed formula, according to some simplifying assumption, exactly links inlet velocity to inlet pressure according to any possible geometry of the Cros…

EngineeringEnergy recoveryInlet velocitybusiness.industryFlow (psychology)turbineMechanical engineeringAqueductGeneral MedicineTurbinehydraulic turbine designBanki-MichelSettore ICAR/01 - IdraulicaElectric energyCross-Flowhydraulic lab.Experimental workCross-Flow; Banki-Michel; turbines; hydraulic turbine design; hydraulic testing; hydraulic lab.hydraulic testingbusinessturbinesEnergy (signal processing)Engineering(all)Marine engineeringProcedia Engineering
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Experimental and Numerical Analysis of a Cross-Flow Turbine

2016

An important component of the management cost of aqueducts is the energy costs. Part of these costs can be recovered by transforming some of the many existing energy dissipations into electric energy by means of economical turbines. This paper describes an experimental study that has been carried out in order to (1) test the performance of an economical cross-flow turbine that maintains high efficiency within a large range of water discharges, and (2) validate a new approximate formula relating main inlet velocity to inlet pressure. It is demonstrated that the proposed formula, on the basis of some simplifying assumptions, exactly links inlet velocity to inlet pressure with any possible geo…

EngineeringInlet velocitybusiness.industry020209 energyMechanical EngineeringNumerical analysisCross-flow turbines Water turbines Turbine experiments Turbine hydraulic design Computational fluid dynamicsMechanical engineering02 engineering and technologyLarge rangeComputational fluid dynamicsTurbineSettore ICAR/01 - IdraulicaElectric energy0202 electrical engineering electronic engineering information engineeringCross-flow turbinebusinessEnergy (signal processing)Water Science and TechnologyCivil and Structural EngineeringMarine engineeringJournal of Hydraulic Engineering
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Cross-Flow Turbine Design For Energy Production And Discharge Regulation

2015

Cross-flow turbines are very efficient and cheap turbines that allow a very good cost/benefit ratio for energy production located at the end of conduits carrying water from a water source to a tank. In this paper a new design procedure for a cross-flow turbine working with a variable flow rate is proposed. The regulation of the head immediately upstream the turbine is faced by adopting a shaped semicircular segment moving around the impeller. The maximum efficiency of the turbine is attained by setting the velocity of the particles entering the impeller at about twice the velocity of the rotating system at the impeller inlet. If energy losses along the pipe are negligible, the semicircular …

Engineeringgeographygeography.geographical_feature_categorybusiness.industryMechanical EngineeringInletTurbineSlip factorSettore ICAR/01 - IdraulicaDraft tubeHydraulic headImpellerEnergy production CFD water supply network.Head (vessel)Cross-flow turbinebusinessWater Science and TechnologyCivil and Structural EngineeringMarine engineeringTurbine
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