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Professore Associato

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VIA VENEZIA, 1 - PADOVA

Telefono

0498276768

Master of Science with honours in Mechanical Engineering in 1984 at the University of Padova discussing a thesis on the Slip Factor in the Turbomachines.
In 1986 he was awarded a PhD grant at the University of Padova and in 1989 he received the Ph.D. in Energetics discussing a thesis on small gas turbine for cogeneration plants.
From 1990 t 2001 he was Assistant Professor at the University of Padova. Lecturer in the undergraduate courses “Energy Conversion Systems and Machines“, “Design of Energy Conversion Machines” and “Internal Combustion Engines.
1994-1996: Assistant Professor in “Energy Conversion Systems and Machines“ University of Udine.
1997-1998: Assistant Professor in “Energy Conversion Systems and Machines“ University of Trieste
Since 2002 Associate Professor of Energy Conversion Systems and Machines at the Department of Mechanical Engineering, University of Padova

Scientific cooperation
Ecole Centrale de Lille (France)
Ingenieurwissenschaften Abteilung Maschinenbau Strömungsmaschinen – University of Duisburg-Essen (Germany)
South Bank University London (Great Britain)
Ecole Nationale Supérieure d'Arts et Métiers de Lille, Laboratoire de Mécanique de Lille (France)
Hydroart,
Worthington,
Woods Air Movement,
Quality and Pump,
Calpeda,
Caster Magnetic Drive Pumps,
Riello SpA
Tamanini srl
Zeco HydroPower srl
COMAS SpA
La Meccanica Srl

International editorial board (last 5 years)

International Journal of Rotating Machinery
Journal of Drainage and Irrigation Machinery Engineering
La Houille Blanche - Revue internationale de l'eau

International Cometees
Since 1999 Member of IEC (International Electrotechnical Commission) “Pump and Small Hydraulic Turbines”
Since 2010 Member of IEC (International Electrotechnical Commission) “Motori Primi Idraulici e Turbine a Vapore”
From 1999 to 2002 deletate at Working Group 27: Cavitation in Hydraulic Machines
From 2010 delegate at MT32 “IEC 60193 Hydraulic turbines, storage pumps and pump-turbines - Model acceptance tests

Avvisi

Orari di ricevimento

  • Il Mercoledi' dalle 16:30 alle 18:30
    presso Dipartimento Ingegneria Industriale - via Venezia 1 - V piano

Pubblicazioni

Recent publications. For the complete list see the attached file.
1. Guillermo Martínez-Lucas, Juan I. Perez-Díaz , Manuel Chazarra, Jos_e I. Sarasúa, Giovanna Cavazzini , Giorgio Pavesi , Guido Ardizzon (2019) Risk of penstock fatigue in pumped-storage power plants operating with variable speed in pumping mode Renewable Energy Vol. 133 pp. 636-646; DOI: https://doi.org/10.1016/j.renene.2018.10.060 Scopus: 2-s2.0-85056194872

2. Pei, Ji; Wang, Wenjie; Pavesi, Giorgio; Osman, Majeed Koranteng; Meng, Fan Experimental investigation of the nonlinear pressure fluctuations in a residual heat removal pump. DOI:10.1016/j.anucene.2019.03.025. pp.63-79. In ANNALS OF NUCLEAR ENERGY - ISSN:0306-4549 vol. 131 Scopus: 2-s2.0-85063357084
3. Mao, Xiuli; Pavesi, Giorgio; Chen, Diyi; Xu, Hengshan; Mao, Gaojun Flow induced noise characterization of pump turbine in continuous and intermittent load rejection processes. DOI:10.1016/j.renene.2019.02.116. pp.1029-1039. In RENEWABLE ENERGY - ISSN:0960-1481 vol. 139 Scopus: 2-s2.0-85062697712
4. Jun Yang, Tian Xie, Pavesi Giorgio, Xiaohua Liu, Jun Liu (2018) Numerical Study on Rotating Characteristics of Unsteady Flow Inner Pump-turbine in Pump Mode International Journal of Fluid Machinery and Systems, Vol.11 No.3, 2018.9, 224-233 (10 pages) DOI :10.5293/IJFMS.2018.11.3.224
5. Mao Xiuli, Sun Aoran, Giorgio Pavesi, Zheng Yuan, Ge Xinfeng. Simulation of flow induced noise in process of pump-turbine load rejection. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2018, 34(20): 52-58. (in Chinese with English abstract) doi:10.11975/j.issn.1002-6819.2018.20.007 Scopus: 2-s2.0-85059550702.
6. Xiuli Mao (毛秀丽), Yuan Zheng (郑源), Giorgio Pavesi, Xin-feng Ge (葛新峰), Zhan-shan Xie (谢占山) (2018)) A new method of dynamic mesh used in continuous guide vane closure of a reversible pump-turbine in generating mode Journal of Hydrodynamics, 2018, 30(5): 828-840 DOI:10.1007/s42241-018-146-y
7. Jun Yang, Giorgio Pavesi, Xiaohua Liu, TianXie, JunLiu (2018) Unsteady flow characteristics regarding hump instability in the first stage of a multistage pump-turbine in pump mode, Renewable Energy, Volume 127, November 2018, Pages 377-385 DOI: https://doi.org/10.1016/j.renene.2018.04.069 Scopus: 2-s2.0-85047476586
8. Cavazzini, G. Houdeline, J.-B., Pavesi, G., Teller, O., Ardizzon, G. Unstable behaviour of pump-turbines and its effects on power regulation capacity of pumped-hydro energy storage plants Renewable and Sustainable Energy Reviews Volume 94, October 2018, Pages 399-409; DOI https://doi.org/10.1016/j.rser.2018.06.018 Scopus: 2-s2.0-85048731215.

Area di ricerca

Theoretical and experimental analyses of the flow field in turbomachinery;

Stator Rotor Interaction in Pumps and Turbines;

Design, simulation and optimization of Fluid Machinery;

Design and Optimization of Wind Turbines.

Tesi proposte

Experimental Investigation of a Pump-Turbine at Off-Design Operating Conditions in Generating Mode
In the present study, a reduced scale model of a low specific speed radial pump-turbine will be investigated to identify the onset and development of flow instabilities. Wall pressure measurements in the stator will be performed with the help of miniature piezoresistive sensors to analyse low frequency component at runaway and the instability sources.

Hydrodynamics of Pump-Turbine at Off-Design Operating Condition in Generating Mode
Numerical flow investigations of a radial pump-turbine will be performed under off-design operating conditions, involving speed no load, runaway and “S-shape” turbine brake curve.

Hydrodynamics of Power Pumps at Off-Design Operating Conditions
In the present study, a low specific speed radial pump has to be investigated to identify the onset and development of flow instabilities.

Experimental Investigation of a Pump-Turbine at Off-Design Operating Conditions in Pump Mode
The focus will be put on the generating instability at off-design conditions due to the rotor stator interactions. Wall pressure measurements in the stator will be performed with the help of miniature piezoresistive sensors to analyse low frequency component at runaway and the instability sources.

Francis Turbine Design a New Approach
This thesis will investigate a new methodology for the design optimization of hydraulic runner blades. The originality of the methodology comes from the geometric definition of the blade load, which uses parametric surfaces instead of a set of profiles.

Hydrodynamics of the free surface flow in Pelton turbine buckets
The flow in Pelton turbines has to be analyzed with such detail to understand the physics of the initial jet/bucket interaction and the jet cut process.

Parametric Design of a Pelton Bucket
The present thesis will be focused on the parametric design of a Pelton bucket. The runner geometry will be parameterized by means of an inverse design method.

Design and Optimization of Unconventional Profiles to Improve the Self-Start Capability of the H-Darrieus Turbine
This thesis will investigate a new series of profiles. On the basis of this study, an optimum configuration will be designed which results in a higher self-start capability of the runner, while maintaining a high level of the Power Coefficient.

Start-up Analysis of a Vertical Axis Wind Turbine
Different approaches to describe the self-start of an H-blade Darrieus rotor will be considered and compared in the present work.

Field Test on a Self-Starting H-Darrieus Turbine
Experimental/numerical analyses of a new self starting Vertical Axis Wind Turbine.

Hydrodynamics of the Banki Mitchell Turbine
The aim of this project will be to perform the simulation of the flow in a Banki Mitchell turbines using a SPH code. The velocity profile will be compared with CFX results.

Banki Mitchell Turbine Blade Optimization
The present thesis will be focused on the optimization of the Banki Mitchell impeller. The runner geometry will be optimized by a particle swarm optimization (PSO) method, while CFD analyses will be performed to assess the performance of different design configurations.