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PUMP-HEAT SIGNED

Performance Untapped Modulation for Power and Heat via Energy Accumulation Technologies

Total Cost €

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EC-Contrib. €

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Partnership

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 PUMP-HEAT project word cloud

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

integration    demonstration    advantages    consumption    backbone    turbine    district    gt    cogenerative    chp    storage    usually    thermal    electrical    tap    cycling    exploited    services    consequence    additional    inlet    limited    gas    promoted    manufacturers    fired    cope    brings    technologies    rate    grid    hence    ramp    constraints    fast    heat    mel    smart    reserve    minimum    original    strategies    oriented    turn    innovative    steam    significantly    constrained    power    proposes    market    90    cc    natural    primary    heating    expanded    environmental    efficient    temperature    sources    hp    combined    time    modulate    unexploited    network    efficiency    un    pillar    hot    cold    pump    load    full    programmable    utilities    options    augmentation    coupling    cycle    strategy    plants    ratio    renewable    energy    rates    flexibility    oems    ccs    condenser    share    scheduling    demand    resilience    reducing    cooling    regulation    expander    envelope    water   

Project "PUMP-HEAT" data sheet

The following table provides information about the project.

Coordinator
UNIVERSITA DEGLI STUDI DI GENOVA 

Organization address
address: VIA BALBI 5
city: GENOVA
postcode: 16126
website: www.unige.it

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 Italy [IT]
 Project website https://www.pumpheat.eu/
 Total cost 5˙904˙426 €
 EC max contribution 5˙904˙426 € (100%)
 Programme 1. H2020-EU.3.3.2. (Low-cost, low-carbon energy supply)
 Code Call H2020-LCE-2017-RES-CCS-RIA
 Funding Scheme RIA
 Starting year 2017
 Duration (year-month-day) from 2017-09-01   to  2020-08-31

 Partnership

Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    UNIVERSITA DEGLI STUDI DI GENOVA IT (GENOVA) coordinator 827˙150.00
2    NV MAYEKAWA EUROPE SA BE (ZAVENTEM) participant 857˙500.00
3    IREN SPA IT (REGGIO EMILIA) participant 580˙160.00
4    RINA CONSULTING SPA IT (GENOVA) participant 512˙500.00
5    KUNGLIGA TEKNISKA HOEGSKOLAN SE (STOCKHOLM) participant 454˙375.00
6    LIMMAT SCIENTIFIC AG CH (ZUG) participant 412˙500.00
7    NOVENER FR (NYONS) participant 359˙760.00
8    ALFA LAVAL LUND AB SE (Lund) participant 343˙750.00
9    MITSUBISHI HITACHI POWER SYSTEMS EUROPE GMBH DE (DUISBURG) participant 308˙902.00
10    I-TES SRL IT (TORINO) participant 294˙633.00
11    ARISTOTELIO PANEPISTIMIO THESSALONIKIS EL (THESSALONIKI) participant 287˙500.00
12    SIEMENS INDUSTRY SOFTWARE SAS FR (CHATILLON) participant 263˙750.00
13    ANSALDO ENERGIA SPA IT (GENOVA) participant 247˙250.00
14    POLSKI KONCERN NAFTOWY ORLEN SA PL (PLOCK) participant 108˙625.00
15    CLAUGER FR (BRIGNAIS) participant 46˙069.00

Map

 Project objective

Natural gas fired Combined Cycle (CC) power plants are currently the backbone of EU electrical grid, providing most of regulation services necessary to increase the share of non-programmable renewable sources into the electrical grid. As a consequence, Original Equipment Manufacturers (OEMs) and Utilities are investigating new strategies and technologies for power flexibility. On the other hand, existing cogenerative CCs are usually constrained by thermal user demand, hence can provide limited services to the grid. At the same time, CHP plants are highly promoted for their high rate of energy efficiency (> 90%) and combined with district heating network are a pillar of the EU energy strategy. To un-tap such unexploited reserve of flexibility, and to further enhance turn-down ratio and power ramp capabilities of power oriented CCs, this project proposes the demonstration of an innovative concept based on the coupling of a fast-cycling highly efficient heat pump (HP) with CCs. The integrated system features thermal storage and advanced control concept for smart scheduling. The HP will include an innovative expander to increase the overall efficiency of the HP. In such an integrated concept, the following advantages are obtained: - the HP is controlled to modulate power in order to cope with the CC primary reserve market constraints; - the high temperature heat can be exploited in the district heating network, when available; low temperature cooling power can be used for gas turbine inlet cooling or for steam condenser cooling, thus reducing the water consumption; - in both options, the original CC operational envelope is significantly expanded and additional power flexibility is achieved. In general, the CC integration with a HP and a cold/hot thermal storage brings to a reduction of the Minimum Environmental Load (MEL) and to an increase in power ramp rates, while enabling power augmentation at full load and increasing electrical grid resilience and flexibility.

 Publications

year authors and title journal last update
List of publications.
2018 Iacopo Rossi, Alberto Traverso
AMBIENT TEMPERATURE IMPACT ON MICRO GAS TURBINES: EXPERIMENTAL CHARACTERIZATION
published pages: 78-85, ISSN: 2336-5382, DOI: 10.14311/app.2018.20.0078
Acta Polytechnica CTU Proceedings 20 2020-04-09
2019 Ntatsis K., Chatziangelidou A., Efstathiadis T., Gkoutzamanis V., Silvestri P., and Kalfas A.,
CFD analysis of a Tesla turboexpander using single phase steam
published pages: , ISSN: , DOI:
2020-04-09
2019 Vasilis Gkoutzamanis, Anastasia Chatziangelidou, Theofilos Efstathiadis, Anestis Kalfas, Alberto Traverso, Justin Chiu
Thermal Energy Storage for Gas Turbine Power Augmentation
published pages: , ISSN: , DOI: 10.33737/gpps19-tc-072
GPPS Proceedings GPPS Zurich19 2020-04-09

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