the engine coordination action: an...
TRANSCRIPT
The ENGINE Coordination Action:an overview
Albert Genter & Ernst Huengesand the ENGINE team
Geothermal WorkshopEGEC European Geothermal Energy Council
Brussels, Belgium, 24 November 2006
EGEC, Brussels, 24 November 2006 > 2
Geothermal Energy
www.geothermie-perspectives.fr
EGEC, Brussels, 24 November 2006 > 3
Deep Geothermal Resources in Europe
>Focus on deep geothermal heat sources
>Unconventional Geothermal Resources>Enhanced Geothermal Systems EGS>Supercritical Reservoirs
www.iga.igg.cnr.it
EGEC, Brussels, 24 November 2006 > 4
Geothermal electricity generation in Europe
Dry Steam Plantsin MWel
Flash Plants
in MWel
Binary Plantsin MWel
Total Capacity in MWel
Capacity by 2010
in MWel
1.4 7.420.725.2
Iceland 161.7 10.4 172.1 392.1
Switzerland 6Turkey 20.4 20.4
Italy 770.5 20 790.5 890.5Portugal 3.0 13.0b 16 35Russia 110c 110 228
1,650.3
14.70.2
1,125.3
Austria 1.4France 14.7a
Germany 0.2
Europe 770,5 329.8 24.3
a Guadeloupe; b Azores; c thereof 9 MWel flash-binary unit
Compiled by Kaltschmitt & Frick, 2006
EGEC, Brussels, 24 November 2006 > 5
How can we enhance geothermal systems?
> Stimulating reservoirs in Hot Dry Rock systems> Enlarging the extent of productive geothermal fields
by enhancing/stimulating permeability in the vicinity of naturally permeable rocks
> Enhancing the viability of current and potential hydrothermal areas by stimulation technology and improving thermodynamic cycles
> Defining new targets and new tools for reaching supercritical fluid systems, especially high-temperature downhole tools and instruments
> Improving drilling and reservoir assessment technology
> Improving exploration methods for deep geothermal resources
EGEC, Brussels, 24 November 2006 > 6
Geothermal energy: the 6th FP European projectsCAMELIA: Multigeneration EnergySystems with Locally IntegratedApplications
GroundHit: Ground Coupled Heat Pumps of High Technology
Low Bin: Binary systems
EGS (STREP): Soultz
HITI (STREP): High-TemperatureEquipment
ENGINE Co-ordination Action
I-GET: IntegratedGeophysicalExploration
Technology
EGEC, Brussels, 24 November 2006 > 7
The EGS challenges
RESOURCE USE
COSTRISK
o explorationo resource assessment o resource managemento advanced drillingo advanced stimulationo efficient power cycleso environmental impact
Schuppers, 2006
EGEC, Brussels, 24 November 2006 > 8
ENGINE Co-ordination ActionENhanced Geothermal Innovative Network for Europe
> An expression of interest from the EC 6th FP• a need for co-ordinating ongoing research and promoting the
development and uptake of innovative methods and technologies toexpand the exploitation of Unconventional Geothermal Resources, in particular Enhanced Geothermal Systems.
• A major scope is the identification of gaps that hamper the development of geothermal energy and definition of research targets for the future.
> ENGINE co-ordination proposal• Capitalisation of knowledge and state of art• Identification of gaps and barriers• Defining new R&D projects to overcome these gaps and barriers• Start 1 November 2005, 30 months, 2,3 M€, 31 European partners
+ 4 from Third Countries, 20 countries involved in Geothermal R&D
http://engine.brgm.fr
EGEC, Brussels, 24 November 2006 > 9
The European ENGINE partners
> Denmark• Geological Survey of Denmark and Greenland (GEUS)
> France• Bureau de Recherches Géologiques et Minières
(BRGM)• Centre National de la Recherche Scientifique (CNRS-
Strasbourg) • CFG Services• Dafora France/GPC IP, Roissy
> Germany• GeoForschungsZentrum Potsdam (GFZ)• Institute for Energy and Environment Leipzig (IE) • Leibniz Institute for Applied Geosciences (GGA) • MeSy GeoMessSysteme GmbH (MeSy)
> Greece• Centre for Renewable Energy Sources (CRES) • National Centre for Scientific Research "Demokritos“
(NSCRD) • Centre for Research and Technology – Hellas (CERTH)
> Hungary• Eotvos University (ELTE)
> Iceland• ISlenskar ORkurannsoknir (ISOR)
> International consortium• Groupement Européen d'Intérêt Economique
"Exploitation Minière de la Chaleur« (GEIE “EMC”)> Italy
• Instituto di Geoscienze e Georisorse (IGG)
> Lithuania• Geologijos Ir Geografijos Institutas (IGGL)
> Netherlands• Shell International Exploration and Production
(B.V.SIEP Netherlands)• Organisation For Applied Scientific Research (TNO) • Vrije University Amsterdam (VUA)
> Norway• Institutt for Energiteknikk (IFE)
> Poland• Panstwowy Instytut Geologiczny (PGI)
> Romania• University of Oradea (UOR)
> Russian Federation• Institute for Geothermal Research (IGR DSC RAS)• Tsentr geoelektromagnitnykh issledovanii Instituta
fisiki zemli Rossiskoi akademii nauk (GEMRC IPE RAS)
• Institut vysokikh temperatur Rossyiskoi academiinauk (IVTRAN)
• Joint Stock Company “Intergeotherm” (JSC “Intergeotherm”)
> Spain• Instituto Geológico y Minero de España (IGME)
> Switzerland• Deep Heat Mining Association (DHMA)• GEOWATT AG
> Turkey• ORME JEOTERMAL A.S. (ORME)
EGEC, Brussels, 24 November 2006 > 10
> http://engine.brgm.frENGINE Web site
EGEC, Brussels, 24 November 2006 > 11
Breakdown of the Co-ordination Action
WP1Project Management
WP2Information and dissemination system
WP3. Investigation of UGR and EGS
WP4. Drilling, stimulation and reservoir assessment
WP6. Expertise on investigation of UGR and EGS
WP8. Expertise on exploitation, economic, environmental, social impacts
WP7. Expertise on drilling,stimulation and reservoir
assessment
LaunchingConf.(France2/2006)
FinalConference(Lithuania)
WP5. Exploitation, economic, environmental and social impacts
Mid-termConference
(Germany01/2007)
Mid-termConference
Mid-termConference
Specialised workshops
WP9. Risk evaluationfor the development of geothermal energy
Extension of the network to Third countries (Mexico, El Salvador, Philippines)
Germany(11/2006)
Switzerland(06/2006)
France(09/2006)
Italy (April 07)
Netherlands
Iceland, June 07
Greece, Sept 07
EGEC, Brussels, 24 November 2006 > 13
7 specialised workshops
> WP3: Defining, exploring, imaging and assessing reservoirs for potential heat exchange (Germany)
> WP3: Exploring Supercritical fluid reservoir: a new challenge for geothermal energy (Italy)
> WP4: Stimulation of reservoir and induced microseismicity(Switzerland)
> WP4: Drilling cost effectiveness and feasibility of high-temperature drilling (Iceland)
> WP5: Electricity generation, combined heat and power (France)> WP5: Increasing policy makers awareness
and the public acceptance (Greece)> WP9: Risk analysis for development of
geothermal energy (Netherlands)
2006 2007
EGEC, Brussels, 24 November 2006 > 14
Publication policy: Conferences & Workshops Publishing
EGEC, Brussels, 24 November 2006 > 15
ENGINE Workshops 2006
Zürich, July 2006 Strasbourg, Sept. 2006 Potsdam, Nov 2006
http://engine.brgm.fr
EGEC, Brussels, 24 November 2006 > 16
Soultz-sous-Forêts EGS
Larderello
Groß Schönebeck
Basel EGS
Electricity production, co generation
Enhanced Geothermal Systemstest sites
Guadalupe
Açores
District heating
Paris Basin
Izmir
Bansko, Kocani, Gevgelia
Altheim
Groß Schönebeck, Germany
Soultz, France
Altheim, Austria
Ferrara
Neustadt-Glewe, Germany
Neustadt-Glewe
Podhale, Mszczonów, Pyrzyce, Uniejów Slomniki
Alvsby
Pyrzyce, Poland
Larderello, Italy
Overview of the geothermal activity in Europe
EGEC, Brussels, 24 November 2006 > 17
The Enhanced Geothermal System concept, a perspective for continuous base load-power generation in 20/30 years ?
The Soultz-sous-Forêts experiment
Map of the temperature extrapolated at 5km depth
Larderello field
Two end-members
EGEC, Brussels, 24 November 2006 > 18
Schematic presentation of the EGS Soultz Pilot Plant
5000m >200°C
#4250m
35 à 50 Kg/s
Sédiments
Granite
35 à 50 Kg/s
70 à 100Kg/s
1500m
GPK3
GPK2 GPK4
25MWth 25MWth
#600m
Secondary Loop (Surface):Expected surface temperature: 185 °CHeat exchanging systemAvailable thermal energy: 50 MWthSurface power plant facilitiesProduced electrical energy: 5 MWe
Principle: Convert geothermal heatin useful energy (electricity)
Primary Loop (Underground):2 production wells, 1 re-injection well“Closed” brine circulationExpected Flowrate: 70-100 l/sDepth : 4500-5000 mBottom temperature: 200 °CPumping system (EGS)
Principle : Extract geothermal heatfrom hot rocks
From GEIE Soultz, 2006
EGEC, Brussels, 24 November 2006 > 19
EGS activity in the German part of the Upper Rhine graben
" The Renewable Energy Source Act (EEG) was introduced in Germany to facilitate sustainable development of energy supply in the interest of managing global warming, conserving nature and protecting the environment."
The EEG entered into force in 2000 and was amended on 1st of August 2004.
§ 9 - Fees paid for electricity produced from geothermal energy:
1. At least 15 cents per KWh up to and including a capacity of 5 MW,
2. At least 14 cents per KWh up to and including a capacity of 10 MW,
3. At least 8.95 cents per KWh up to and including a capacity of 20 MW and
4. At least 7.16 cents per KWh for a capacity of 20 MW and over.
From Bestec, 2006
EGEC, Brussels, 24 November 2006 > 20
Geothermal Projects in the Upper Rhine Valley in Germany
Riedstadt
BruchsalKarlsruhe
Kehl
Ettenheim
LandauOffenbach
Bellheim Speyer
Hydrothermal Projects
in progressplanning status
HDR Projects
planning status
From Bestec, 2006
EGEC, Brussels, 24 November 2006 > 21
EU-wide Feed-in tariffs for geothermal energy
Germany: up to 15,00 ct/kWh
Greece: 7,31 ct/kWh
Slovakia: 9,04 ct/kWh
Slovenia: 5,85 + 2,52 ct/kWh
Spain: 6,49 + 2,94 ct/kWh
Austria: 7,00 ct/kWh
Belgium: 2,50 ct/kWh
Czech Republic: 15,56 ct/kWh
Estonia: 5,10 ct/kWh
France: 10 ct/kWh (overseas: 12)
From Kaltschmitt, 2006
EGEC, Brussels, 24 November 2006 > 22
A continent to explore…
Soultz-sous-Forêts EGS
Limagne
GroßSchönebeck
BruchsalKarlsruheKarlsruhe-NordHockenheim-PhilippsburgRastatt-Lichtenau-RheinauWeinheimNeuried-AltenheimMannheimEmmendingenKehl am RheinDinkelbergBreisachMarkgräfler LandLahrOffenburgNeuried-IchenheimNeuenburg am RheinHeidelbergGoldscheuerFreiburg-WestSchwetzingenBietigheimSchriesheimWieslochKarlsdorfRhust-WhylFreiburg-WestSpeyerdorfLandau in der PfalzOffenbach an der QueichBellheimSpeyerRiedstadtBad BergzabernSteinfeld……
Upper Rhine Valley
Basel
EGEC, Brussels, 24 November 2006 > 23
EGS Basel project in Switzerland
Power plant construction2009 6
Development& Construction
3rd deep wellSystem stimulation and testing2008 5
Circulation testing2007 4
2nd deep well
Monitoring System &1st deep well to 5‘000 m +2006 2
Pre-project studies & pilot hole,assuring finance & permissions2001 1
Exploration3
From Hopkirk & Haring, DHMA, 2006
EGEC, Brussels, 24 November 2006 > 24
EGS in-situ geothermal laboratory Groß Schönebeck (Germany)
2006
• North German basin
• EGS in sedimentary rocks
• 4.3 km depth, 150°C
• Drill directional wells (doublet)
• Multi fracturing
• Primary productivity for 750 kW-power plant
• Demonstration of sustainability (circulation test)
From E. Huenges,GFZ Potsdam, 2006
EGEC, Brussels, 24 November 2006 > 25
Genesys project at Hannover site (GeoCenter)
Deep drilling close to residential area
Water supply for stimulation
Frac-monitoring
Start in 2007F. Böker, 1994 From GGA, 2006
EGEC, Brussels, 24 November 2006 > 26
16° 19°
22°
48°
47°
46°
Mesozoic (mainlycarbonate) rocksin near-surface position
Paleozoic (mainlycrystalline) rocksin near-surface position
Neogene volcanicrocks in near-surface position
Isogeothermal surfaceof 200 °C in Hungary
2500 m
3000 m
3500 m
4000 m
4500 m
5000 m
5500 m
3000 m
3500 m
4000 m
4500 m
5000 m
5500 m
Depth belowsee level of:
200 °C rock temperature
in the basement
200 °C rocktemperaturein the youngsediments
BUDAPEST
LAKE BALATON
LAKE
FER
TŐ
DA
NU
BE
RIVE
R TI
SZA
Drillholes withmeasured temperatures> 150 °C
From P. DÖVÉNYI (ELTE Budapest, Hungary) & L. RYBACH (GEOWATT AG Zürich, Switzerland),Orléans ENGINE launching Conference, February 2006
EGEC, Brussels, 24 November 2006 > 27
Potential EGS areas from outcropping granite in Europe
HHP-Granite occurrencesin Europe
Germany:
• Erzgebirge• Meißen Massif• Sax. Granulite Massif• Harz Mts.
From A. Forster, GFZ, 2006
EGEC, Brussels, 24 November 2006 > 28
A renewed interest for the geothermal energy from deep sources
> The US Department Of Energy program for 2006-2011• The challenge (…) is to develop and deploy the
technology needed to capture the larger, deeper, cooler and less permeable resource base – the Enhanced Geothermal System (EGS)
> The on-going industrial activity in Australia• The know-how and technology of mineral and oil
exploration to explore and mine heat sources at depth
> The European exploration projects• The pilot site of Soultz sous Forêts and the future
exploration sites of Basel, Landau, Gros-Schonebeck, …
EGEC, Brussels, 24 November 2006 > 29
ENGINE milestones
Co-ordinate ongoing research and promote the development and uptake of new technologies
Organise conferences and dedicated workshops (exploration, drilling, electricity generation)
Integration of scientific and technical know-how and practices
Establish links between researchers, industry, international organisations, professional associations…
EGEC, Brussels, 24 November 2006 > 30
Towards a Geothermal Energy Technology Platform
> General agreement about the need of Technology Platforms for EGS
> Recommendations • ENGINE contributes to develop new methods and tools, test
hypotheses in situ and accuracy of conceptual models. • We need energy industry support to install Geothermal
technology platform• ENGINE lobbying. Stakeholders (ENEL, RWE, ENBW,
Vattenfall, Ademe, …) mainly from industry agree to participate at the ENGINE mid term conference in Potsdam, 10-12 January 2007
• Invitation to attend the Mid-Conference