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ABANTIA CSP April 2012
TERMOSOLAR BORGES
THE FIRST COMMERCIAL CSPHYBRIDIZED WITH BIOMASS IN THE WORLD
1www.abantia
.com
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Summary
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as a project developer and EPC supplier is, at present, constructing the first
CSP in the world hybridized with Biomass: TS Borges.
The plant is located at the north-east region of Spain, close to Barcelona, and is to be
electrically connected to the grid by the end of 2012.
The project, due to its uniqueness, has already been presented at the following forums:
NEXT COMING UP PRESENTATION:CSP Today Las Vegas 2012 (http://www.csptoday.com/usa/conference-speakers.php )
THE PROJECT HAS BEEN ALREADY PRESENTENTED AT:
CSP Today India 2012 (http://www.csptoday.com/india/conference-speakers.php )
WETEX 2012 (Water Energy Technology & Environment Exhibition. DUBAI). (http://www.wetex.ae)
CSP Today Sevilla 2011(http://www.csptoday.com/csp/conference-speakers.shtml )
La Industria Solar Espaa 2011 (Madrid Oct 2011, Spain)
(http://www.solarpraxis.de/fileadmin/user_upload/Konferenzen/CIS-ES_2011/Dokumente/CIS-ES_Programa_110921.pdf)
Genera 2011 (Madrid-Spain) Energy Trade Exhibition
(http://www.ifema.es/ferias/genera/jornadas_genera/CIEMAT-PROTERMOSOLAR.pdf)
http://www.csptoday.com/usa/conference-speakers.phphttp://www.csptoday.com/india/conference-speakers.phphttp://www.wetex.ae/http://www.csptoday.com/csp/conference-speakers.shtmlhttp://www.solarpraxis.de/fileadmin/user_upload/Konferenzen/CIS-ES_2011/Dokumente/CIS-ES_Programa_110921.pdfhttp://www.ifema.es/ferias/genera/jornadas_genera/CIEMAT-PROTERMOSOLAR.pdfhttp://www.ifema.es/ferias/genera/jornadas_genera/CIEMAT-PROTERMOSOLAR.pdfhttp://www.ifema.es/ferias/genera/jornadas_genera/CIEMAT-PROTERMOSOLAR.pdfhttp://www.ifema.es/ferias/genera/jornadas_genera/CIEMAT-PROTERMOSOLAR.pdfhttp://www.solarpraxis.de/fileadmin/user_upload/Konferenzen/CIS-ES_2011/Dokumente/CIS-ES_Programa_110921.pdfhttp://www.solarpraxis.de/fileadmin/user_upload/Konferenzen/CIS-ES_2011/Dokumente/CIS-ES_Programa_110921.pdfhttp://www.solarpraxis.de/fileadmin/user_upload/Konferenzen/CIS-ES_2011/Dokumente/CIS-ES_Programa_110921.pdfhttp://www.solarpraxis.de/fileadmin/user_upload/Konferenzen/CIS-ES_2011/Dokumente/CIS-ES_Programa_110921.pdfhttp://www.solarpraxis.de/fileadmin/user_upload/Konferenzen/CIS-ES_2011/Dokumente/CIS-ES_Programa_110921.pdfhttp://www.csptoday.com/csp/conference-speakers.shtmlhttp://www.csptoday.com/csp/conference-speakers.shtmlhttp://www.csptoday.com/csp/conference-speakers.shtmlhttp://www.wetex.ae/http://www.csptoday.com/india/conference-speakers.phphttp://www.csptoday.com/india/conference-speakers.phphttp://www.csptoday.com/india/conference-speakers.phphttp://www.csptoday.com/usa/conference-speakers.phphttp://www.csptoday.com/usa/conference-speakers.phphttp://www.csptoday.com/usa/conference-speakers.php7/28/2019 02 Abantia Termosolarborgeseng Editora 61-31-1
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ABANTIA CSP April 2012
Project Presentation. Borges Concentrated Solar Power plant
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1. The project Borges Thermo solar corresponds to the construction of a CSP plant of22,5 MW electrical output power, provided with parabolic trough collectors andhybridized with biomass. The worlds first thermo solar plant on a commercial scalewith this uniqueness.
2. The project will be constructed in Les Borges Blanques, Lleida (North East of Spain),
with a total area of 70 hectares and estimating an annual net production of 98.000MWeh/year, from:
(i)The received solar irradiation in the solar field based on 336 collectors with atotal area of 181.000 sqm from the installed mirrors.
(ii)the useful thermal energy transferred to the HTF and produced in 2 x 22 MWtbiomass combustion units.
(iii) with an approximate 37% electrical efficiency from the turbine
(iv) The plant is to produce electricity round-the-clock
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Principal Design Advantages
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1. Production: With a 22,5 MW hybridized plant, a production of 98.000 MWh/year isexpected, very close to the production of a 50 MW plant in solar mode (around 110.000MWh/year).
2. Dispatchable Generation: Enables the production of energy with low or with absencesolar irradiation, achieving an operation of 6.500 hours/year
3. To Maximize the Plant Efficiency: With the incorporation of hybridization, acontinuous operation of the steam turbine is permitted, avoiding daily start-ups andshut-downs, and therefore, a better efficient use of the power block as well as theelectrical infrastructure of the plant.
4. Less investment for similar electrical production: The use of biomass optimizesCAPEX requirements.
5. Chances for hybridization depending on the environment
6. To avoid to oversize the solar field even though the plant runs 24 h/day
Why do we hybridize?
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Plant Lay-Out
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Work Progress
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PLANNING TS BORGES
J A S O N D E F M A M J J A S O N D E F M A M J J A S O N D E F M
TAREAS PRINCIPALES
Diseo Previo
Activacin Compras Principales
Ingeniera
Compras, Fabricacin y Suministro
Construccin y Montaje
Puesta en Marcha Campo Solar
Pruebas y Puesta en Marcha Bloque Potencia
2012 201320112010
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Hybridized Operation (Radiation + biomass)
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Turbine
Condenser
Preheater
Vaporizer
Superheater
Cooling Tower
HT water
HTF
Performance Scheme
Biomass
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CSP Borges vsPV in the same location
is an EPC supplier of both, PV and CSP plants
Comparison criteria: sameelectrical production
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New Trends on Hybridized CSP
ABANTIA, together with SIEMENS and INTEC are developing a new concept of a 10-
12 MW CSP plant hybridized with biomass
Highlights
Thermal block optimization
Increase flexibility
Increase the project economical feasibility
The CHALLENGE IS CLEAR: CSP has many strengths such as the possibility of being
hybridized, on the other hand, overall efficiency needs to be increased in order to
increase its competitiveness in the renewable energy market