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FLEXTURBINE SIGNED

Flexible Fossil Power Plants for the Future Energy Market through new and advanced Turbine Technologies

Total Cost €

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EC-Contrib. €

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Partnership

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 FLEXTURBINE project word cloud

Explore the words cloud of the FLEXTURBINE project. It provides you a very rough idea of what is the project "FLEXTURBINE" about.

thermal    efficiency    depends    weather    plant    parts    balance    grid    damage    manufacturers    cycling    extended    peaks    turbine    world    reducing    first    mature    flexturbine    medium    greenhouse    technologies    roadmap    time    gas    operate    fill    fleet    presented    universities    conventional    operators    flutter    prediction    brings    demand    share    lifetime    competitive    fluctuations    feedback    damages    day    compensate    electric    intervals    supplied    trl    outages    storage    designs    projections    service    renewables    hereafter    sealing    bearing    negative    lifecycle    minimal    reduce    consumption    engine    individual    wear    output    transmission    institutes    emissions    renewable    least    flexibly    fuel    ranges    critical    prepare    plants    shorter    predict    renowned    market    consists    unplanned    energy    expansion    solutions    economically    loading    immediately    amount    impeding    cycles    operation    downtime    degradation    power    flexible   

Project "FLEXTURBINE" data sheet

The following table provides information about the project.

Coordinator
DOOSAN SKODA POWER SRO 

Organization address
address: TYLOVA 1 57
city: PLZEN
postcode: 301 28
website: n.a.

contact info
title: n.a.
name: n.a.
surname: n.a.
function: n.a.
email: n.a.
telephone: n.a.
fax: n.a.

 Coordinator Country Czech Republic [CZ]
 Project website https://web.archive.org/web/20190713185327/https://flexturbine.eu/
 Total cost 10˙653˙882 €
 EC max contribution 6˙477˙595 € (61%)
 Programme 1. H2020-EU.3.3.2.3. (Develop competitive and environmentally safe technologies for CO2 capture, transport, storage and re-use)
 Code Call H2020-LCE-2015-1-two-stage
 Funding Scheme RIA
 Starting year 2016
 Duration (year-month-day) from 2016-01-01   to  2019-03-31

 Partnership

Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    DOOSAN SKODA POWER SRO CZ (PLZEN) coordinator 562˙825.00
2    MAN ENERGY SOLUTIONS SE DE (AUGSBURG) participant 780˙000.00
3    TECHNISCHE UNIVERSITAET DRESDEN DE (DRESDEN) participant 676˙125.00
4    ANSALDO ENERGIA SPA IT (GENOVA) participant 581˙500.00
5    GENERAL ELECTRIC DEUTSCHLAND HOLDING GMBH DE (FRANKFURT AM MAIN) participant 571˙000.00
6    LINKOPINGS UNIVERSITET SE (LINKOPING) participant 499˙550.00
7    ARTTIC FR (PARIS) participant 350˙557.00
8    SIEMENS AKTIENGESELLSCHAFT DE (MUNCHEN) participant 318˙350.00
9    KARLSRUHER INSTITUT FUER TECHNOLOGIE DE (KARLSRUHE) participant 311˙806.00
10    University of Belgrade - Faculty of Mechanical Engineering RS (Belgrade) participant 250˙000.00
11    TECHNISCHE UNIVERSITAET MUENCHEN DE (MUENCHEN) participant 247˙500.00
12    TECHNISCHE UNIVERSITAT DARMSTADT DE (DARMSTADT) participant 224˙958.00
13    CESKE VYSOKE UCENI TECHNICKE V PRAZE CZ (PRAHA) participant 181˙148.00
14    LULEA TEKNISKA UNIVERSITET SE (LULEA) participant 150˙000.00
15    NUOVO PIGNONE TECNOLOGIE SRL IT (FIRENZE) participant 150˙000.00
16    ZAPADOCESKA UNIVERZITA V PLZNI CZ (PILSEN) participant 145˙496.00
17    COMTES FHT AS CZ (DOBRANY) participant 140˙528.00
18    POLITECNICO DI MILANO IT (MILANO) participant 126˙250.00
19    UNIVERSITA DEGLI STUDI DI FIRENZE IT (Florence) participant 100˙000.00
20    RUHR-UNIVERSITAET BOCHUM DE (BOCHUM) participant 60˙000.00
21    UNIVERSITA DI PISA IT (PISA) participant 50˙000.00
22    A.S.EN. ANSALDO SVILUPPO ENERGIA IT (GENOVA) participant 0.00
23    ANSALDO ENERGIA SWITZERLAND AG CH (BADEN) participant 0.00
24    GENERAL ELECTRIC (SWITZERLAND) GMBH CH (BADEN) participant 0.00
25    NUOVO PIGNONE SRL IT (FIRENZE) participant 0.00

Map

 Project objective

The share of renewable energy is growing rapidly driven by the objective to reduce greenhouse gas emissions. The amount of electric power which can be supplied to the grid depends on the time of the day and weather conditions. A conventional fleet of thermal power plants is required to compensate for these fluctuations before large scale energy storage technologies will be mature and economically viable. All power market projections expect this to be the case for the next 50 years at least. For a strong expansion of renewables, this fleet has to operate flexibly at competitive cost. Current power plants cannot fill this role immediately without impeding their efficiency and engine lifetime through increased wear and damage induced by the higher number of (shorter) operating/loading cycles. New technologies need to be introduced to balance demand peaks with renewable output fluctuations at minimal fuel consumption and emissions without negative effects on cycling operation. The FLEXTURBINE partners have developed a medium to long term technology roadmap addressing future and existing power plants. The FLEXTURBINE project presented hereafter is the first step in such technology roadmap and consists of: (1) new solutions for extended operating ranges to predict and control flutter, (2) improved sealing and bearing designs to increase turbine lifetime and efficiency by reducing degradation/damages, and (3) an improved lifecycle management through better control and prediction of critical parts to improve competitive costs by more flexible service intervals and planned downtime, and by reducing unplanned outages. In all areas, individual technologies will be developed from TRL 3 to TRL 4-6. FLEXTURBINE brings together the main European turbine manufacturers, renowned research institutes and universities. It involves plant and transmission system operators to include user feedback and to prepare the take-up of the FLEXTURBINE technologies in power plants world-wide.

 Deliverables

List of deliverables.
FLEXTURBINE public website Websites, patent fillings, videos etc. 2019-08-20 18:02:42

Take a look to the deliverables list in detail:  detailed list of FLEXTURBINE deliverables.

 Publications

year authors and title journal last update
List of publications.
2017 A.-L. Zimmermann, R. H. M. Giepman, Q. T. Nguyen Tran, C. Aalburg, V. Gümmer
Design of a static test rig for advanced seals and air bearing testing
published pages: , ISSN: , DOI:
2019-08-20
2017 Miguel Angel Gonzalez-Salazar, Trevor Kirsten, Lubos Prchlik
Review of the operational flexibility and emissions of gas- and coal-fired power plants in a future with growing renewables
published pages: , ISSN: 1364-0321, DOI: 10.1016/j.rser.2017.05.278
Renewable and Sustainable Energy Reviews 2019-08-20
2018 Martin Nesládek, Michal Bartošák, Josef Jurenka, Jan Papuga, Milan Růžička, Petr Měšt’ánek, Jan Džugan
Thermo-mechanical fatigue prediction of a steam turbine shaft
published pages: 22016, ISSN: 2261-236X, DOI: 10.1051/matecconf/201816522016
MATEC Web of Conferences 165 2019-08-20
2017 M. Beghini, L. Bertini, C. Santus, B.D. Monelli, E. Scrinzi, N. Pieroni, I. Giovannetti
High temperature fatigue testing of gas turbine blades
published pages: 206-213, ISSN: 2452-3216, DOI: 10.1016/j.prostr.2017.11.079
Procedia Structural Integrity 7 2019-08-20
2019 Petr Ferfecki, Jaroslav Zapoměl, Marek Gebauer, Václav Polreich, Jiří Křenek
A computational fluid dynamics investigation of the segmented integral squeeze film damper
published pages: 8005, ISSN: 2261-236X, DOI: 10.1051/matecconf/201925408005
MATEC Web of Conferences 254 2019-08-20
2018 Václav Sláma, Bartoloměj Rudas, Petr Eret, Volodymyr Tsymbalyuk, Jiří Ira, Aleš Macalka, Lorenzo Pinelli, Federico Vanti, Andrea Arnone, Antonio Alfio Lo Balbo
EXPERIMENTAL AND NUMERICAL STUDY OF CONTROLLED FLUTTER TESTING IN A LINEAR TURBINE BLADE CASCADE
published pages: 98-107, ISSN: 2336-5382, DOI: 10.14311/app.2018.20.0098
Acta Polytechnica CTU Proceedings 20 2019-08-20
2018 M Rund, R Procházka, J Džugan, P Konopík, M Nesládek, J Jurenka, M Růžička, P Měšt’ánek
Investigation of hold period influence on residual fatigue live in steam turbine shaft design
published pages: 12072, ISSN: 1757-899X, DOI: 10.1088/1757-899x/461/1/012072
IOP Conference Series: Materials Science and Engineering 461 2019-08-20
2018 Wieland Ammer, Mario Raddatz, Uwe Gampe, Julien Nussbaum, Uwe Ruedel, Rudolf Kellerer
HIGH TEMPERATURE CYCLIC TEST RIG – A NEW RIG FOR HOT GAS PARTS LIFETIME VALIDATION
published pages: 1-4, ISSN: 2336-5382, DOI: 10.14311/app.2018.20.0001
Acta Polytechnica CTU Proceedings 20 2019-08-20
2018 Martin Nesládek, Josef Jurenka, Michal Bartošák, Milan Růžička, Maxim Lutovinov, Jan Papuga, Radek Procházka, Jan Džugan, Petr Měšťánek
THERMO-MECHANICAL FATIGUE ANALYSIS OF A STEAM TURBINE SHAFT
published pages: 56-64, ISSN: 2336-5382, DOI: 10.14311/app.2018.20.0056
Acta Polytechnica CTU Proceedings 20 2019-08-20
2018 Andrea Bessone, Luigi Carassale, Roberto Guida, Zdeněk Kubín, Antonio Alfio Lo Balbo, Michela Marrè Brunenghi, Lorenzo Pinelli
EXPERIMENTAL AND NUMERICAL ASSESSMENT OF A LAST STAGE ST BLADE DAMPING AT LOW LOAD OPERATION
published pages: 16-28, ISSN: 2336-5382, DOI: 10.14311/app.2018.20.0016
Acta Polytechnica CTU Proceedings 20 2019-08-20
2018 Philip Croné, Andreas Almqvist, Roland Larsson
Thermal Turbulent Flow in Leading Edge Grooved and Conventional Tilting Pad Journal Bearing Segments—A Comparative Study
published pages: 97, ISSN: 2075-4442, DOI: 10.3390/lubricants6040097
Lubricants 6/4 2019-08-20
2018 Vaclav Slama, Bartolomej Rudas, Jiri Ira, Ales Macalka, Petr Eret, Volodymyr Tsymbalyuk
CFD prediction of flutter of turbine blades and comparison with an experimental test case
published pages: 2005, ISSN: 2261-236X, DOI: 10.1051/matecconf/201816802005
MATEC Web of Conferences 168 2019-08-20
2018 Z. Kubín, T. Mísek, J. Hlous, T. Dadaková, J. Kellner, T. Bachorec
Calibration of blade tip-timing sensor for shrouded 40″ last stage blade
published pages: 88-98, ISSN: 0888-3270, DOI: 10.1016/j.ymssp.2018.02.001
Mechanical Systems and Signal Processing 108 2019-08-20
2018 Robert Eriksson, Johan Moverare, Zhe Chen, Kjell Simonsson
THE EFFECT OF NOTCHES ON THE FATIGUE LIFE OF A NICKEL-BASE GAS TURBINE DISK MATERIAL
published pages: 34-42, ISSN: 2336-5382, DOI: 10.14311/app.2018.20.0034
Acta Polytechnica CTU Proceedings 20 2019-08-20
2017 M. Nesládek, J. Jurenka, M. Lutovinov, M. Růžička, P. Měšťánek, J. Džugan
An assessment of thermo-mechanically induced fatigue damage of a steam turbine shaft
published pages: 190-197, ISSN: 2452-3216, DOI: 10.1016/j.prostr.2017.11.077
Procedia Structural Integrity 7 2019-08-20
2017 L. Patriarca, S. Foletti, S. Beretta, S. Parodi, A. Riva
Crack propagation under combined cycle fatigue for a precipitation hardened steel
published pages: 214-221, ISSN: 2452-3216, DOI: 10.1016/j.prostr.2017.11.080
Procedia Structural Integrity 7 2019-08-20
2017 Martin Hughes
Challenges for Gas Turbine Engine Components in Power Generation
published pages: 33-35, ISSN: 2452-3216, DOI: 10.1016/j.prostr.2017.11.057
Procedia Structural Integrity 7 2019-08-20
2019 Robert Eriksson, Johan Moverare, Zhe Chen
A low cycle fatigue life model for a shot peened gas turbine disc alloy
published pages: 34-41, ISSN: 0142-1123, DOI: 10.1016/j.ijfatigue.2019.02.034
International Journal of Fatigue 124 2019-08-20

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