Design and prototype of a micro hydrokinetic vertical turbine

In Latin America only few countries are 100% connected to national electric networks. In Colombia, 52% of the national territory is known as NonInterconnected Zones with a population of 2 million people. To cover these zones basic electricity needs, the use of natural, local and renewable resources...

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Autores:: López Castrillón, Yuri Ulianov
Laín Beatove, Santiago
Ramírez Tovar, Ana María

Tipo de recurso:: http://purl.org/coar/resource_type/c_c94f

Fecha de publicación:: 2017

Institución:: Universidad Autónoma de Occidente

Repositorio:: RED: Repositorio Educativo Digital UAO

Idioma:: eng

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dc.title.eng.fl_str_mv	Design and prototype of a micro hydrokinetic vertical turbine
title	Design and prototype of a micro hydrokinetic vertical turbine
spellingShingle	Design and prototype of a micro hydrokinetic vertical turbine Micro-generation Vertical axis turbine H-Darrieus Turbines Turbinas Energy engineering Water-power Ingeniería de la energía Energía hidráulica
title_short	Design and prototype of a micro hydrokinetic vertical turbine
title_full	Design and prototype of a micro hydrokinetic vertical turbine
title_fullStr	Design and prototype of a micro hydrokinetic vertical turbine
title_full_unstemmed	Design and prototype of a micro hydrokinetic vertical turbine
title_sort	Design and prototype of a micro hydrokinetic vertical turbine
dc.creator.fl_str_mv	López Castrillón, Yuri Ulianov Laín Beatove, Santiago Ramírez Tovar, Ana María
dc.contributor.author.none.fl_str_mv	López Castrillón, Yuri Ulianov Laín Beatove, Santiago
dc.contributor.author.spa.fl_str_mv	Ramírez Tovar, Ana María
dc.subject.eng.fl_str_mv	Micro-generation Vertical axis turbine H-Darrieus
topic	Micro-generation Vertical axis turbine H-Darrieus Turbines Turbinas Energy engineering Water-power Ingeniería de la energía Energía hidráulica
dc.subject.lemb.eng.fl_str_mv	Turbines
dc.subject.lemb.spa.fl_str_mv	Turbinas
dc.subject.armarc.eng.fl_str_mv	Energy engineering Water-power
dc.subject.armarc.spa.fl_str_mv	Ingeniería de la energía Energía hidráulica
description	In Latin America only few countries are 100% connected to national electric networks. In Colombia, 52% of the national territory is known as NonInterconnected Zones with a population of 2 million people. To cover these zones basic electricity needs, the use of natural, local and renewable resources such as the hydraulic is proposed, due to the high energetic potential. For this purpose, there are several types of hydraulic turbines, most of them used for large scale power generation (UPME, 2010). This paper aims to design of hydraulic turbomachines for micro-generation to satisfy the electricity demand on isolated villages is deeply research. To accomplish this, a three straight blades Vertical Axis Micro Turbine H-Darrieus type is designed and modelled using CAD computational tools. Hydraulic characterization is run on a CFD ANSYS module and fluid-structure interaction is analyzed. Prototyping is made using 3D-printing process in a digital fabrication lab
publishDate	2017
dc.date.issued.spa.fl_str_mv	2017-04
dc.date.accessioned.spa.fl_str_mv	2019-10-07T13:50:20Z
dc.date.available.spa.fl_str_mv	2019-10-07T13:50:20Z
dc.type.spa.fl_str_mv	Documento de Conferencia
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dc.identifier.citation.spa.fl_str_mv	Ramirez T., A. M., López, Y. U. y Laín, S. (2017). Design and Prototype of a Micro Hydrokinetic Vertical Turbine. European Association for the Development of Renewable Energy, Environment and Power Quality (EA4EPQ). Renewable Energy and Power Quality Journal 1(15) p. 903-910
dc.identifier.issn.spa.fl_str_mv	2172-038X
dc.identifier.uri.spa.fl_str_mv	http://hdl.handle.net/10614/11171 http://www.icrepq.com/icrepq17/512-17-ramirez.pdf
dc.identifier.doi.spa.fl_str_mv	https://doi.org/10.24084/repqj15.512
identifier_str_mv	Ramirez T., A. M., López, Y. U. y Laín, S. (2017). Design and Prototype of a Micro Hydrokinetic Vertical Turbine. European Association for the Development of Renewable Energy, Environment and Power Quality (EA4EPQ). Renewable Energy and Power Quality Journal 1(15) p. 903-910 2172-038X
url	http://hdl.handle.net/10614/11171 http://www.icrepq.com/icrepq17/512-17-ramirez.pdf https://doi.org/10.24084/repqj15.512
dc.language.iso.eng.fl_str_mv	eng
language	eng
dc.relation.none.fl_str_mv	International Conference on Renewable Energies and Power Quality (ICREPQ’17)
dc.relation.haspart.eng.fl_str_mv	Renewable Energy and Power Quality Journal, volumen 1, número 15, páginas 903-910, (april, 2017)
dc.rights.spa.fl_str_mv	Derechos Reservados - Universidad Autónoma de Occidente
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dc.publisher.eng.fl_str_mv	European Association for the Development of Renewable Energy, Environment and Power Quality (EA4EPQ)
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dc.source.bibliographiccitation.spa.fl_str_mv	Unidad de Planeación Minero Energética, UPME – CORPOEMA. Formulación Plan de Desarrollo FNCE [En línea]. Disponible en http://www.upme.gov.co/Sigic/Informes/Informe_A vance_01.pdf . 2010 IEA. World Energy Outlook 2014. International Energy Agency IEA. O D/IEA. http://www.iea.org/ 2014 A. Chauhan, R.P. Saini, Renewable energy based offgrid rural electrification in Uttarakhand state of India: Technology options, modelling method, barriers and recommendations, Renewable and Sustainable Energy Reviews, Volume 51, November 2015, Pages 662-681 S. Atmaja P. Rosyidi, Tjasa Bole-Rentel, Surya Budi Lesmana, Jazaul Ikhsan, Lessons Learnt from the Energy Needs Assessment Carried out for the Biogas Program for Rural Development in Yogyakarta, Indonesia. Procedia Environmental Sciences, Volume 20, 2014, Pages 20-29 C. Shyu. (2012). Rural electrification program with renewable energy sources: An analysis of China’s Township Electrification Program. Energy Policy, 51, 842–853 L. Olatomiwa, Saad Mekhilef, A.S.N. Huda, Olayinka S. Ohunakin, onomic evaluation of hybrid energy systems for rural electrification in six geo-political zones of Nigeria, Renewable Energy, Volume 83, November 2015, Pages 435-446 T. Slough, Johannes Urpelainen, Joonseok Yang, Light for all?. Evaluating Brazil's rural electrification progress, 2000–2010, Energy Policy, Volume 86, November 2015, Pages 315-327 M. J. Khan, G. Bhuyan, M.T. Iqbal, J.E. Quaicoe, Hydrokinetic energy conversion systems and assessment of horizontal and vertical axis turbines for river and tidal applications: A technology status review, Applied Energy, Volume 86, Issue 10. October 2009 T. Burton., D. Sharpe., N. Jenkins., & E. Bossanyi. (2001). Wind energy handbook. John Wiley & Sons H. Polinder, Van der Pijl, F. F., Vilder, D., & Tavner, P. J. (2006). Comparison of dir t-drive and geared generator concepts for wind turbines. Energy conversion, IEEE transactions on, 21(3), 725-733 M. S. Güney, K. Kaygusuz, Hydrokinetic energy conversion systems: A technology status review, Renewable and Sustainable Energy Reviews, Volume 14, Issue 9, D ember 2010, Pages 2996- 3004 J. Albernaz, Jerson Rogério Pinheiro Vaz, Alexandre Luiz Amarante Mesquita, André Luiz Amarante Mesquita, Claudio José Cavalcante Blanco, An Approach for the Dynamic Behavior of Hydrokinetic Turbines, Energy Procedia, Volume 75, August 2015, Pages 271-276 S. Laín, B. Quintero, D. Trujillo, Y. Ulianov, Simulation of Vertical Axis Water Turbines, IEEE, 2012 S. Samanvorakij, P. Kumkratug. "Modeling and Simulation PMSG based on Wind Energy Conversion System in MATLAB/SIMULINK. Proc. of the Second Intl. Conf. on Advances in Electronics and Electrical Engineering—AEEE. 2013 M. E. Haque, M. Negnevitsky, K. M. Muttaqi, A novel control strategy for a Variable Speed Wind Turbine with a Permanent Magnet Synchronous Generator. IEEE Transaction on Industry Applications, Vol 46, No 1, pp. 1-8, 2008 A. M. Hemeida, W. A. Farag, O. A. Mahgoub. Modeling and Control of Direct Driven PMSG for Ultra Large Wind Turbines. World Academy of Science Engineering and Technology. Vol. 59, pp. 621-627, 2011 REN21. 2014. Global Status Report. Paris: REN21 Secretaria
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spelling	López Castrillón, Yuri Ulianovvirtual::2782-1Laín Beatove, Santiagovirtual::2587-1ylopez@uao.edu.coslain@uao.edu.coRamírez Tovar, Ana Maríae2c7dae2bf8bc6c818f7d9bc98c86de6-1Universidad Autónoma de Occidente. Calle 25 115-85. Km 2 vía Cali-Jamundí2019-10-07T13:50:20Z2019-10-07T13:50:20Z2017-04Ramirez T., A. M., López, Y. U. y Laín, S. (2017). Design and Prototype of a Micro Hydrokinetic Vertical Turbine. European Association for the Development of Renewable Energy, Environment and Power Quality (EA4EPQ). Renewable Energy and Power Quality Journal 1(15) p. 903-9102172-038Xhttp://hdl.handle.net/10614/11171http://www.icrepq.com/icrepq17/512-17-ramirez.pdfhttps://doi.org/10.24084/repqj15.512In Latin America only few countries are 100% connected to national electric networks. In Colombia, 52% of the national territory is known as NonInterconnected Zones with a population of 2 million people. To cover these zones basic electricity needs, the use of natural, local and renewable resources such as the hydraulic is proposed, due to the high energetic potential. For this purpose, there are several types of hydraulic turbines, most of them used for large scale power generation (UPME, 2010). This paper aims to design of hydraulic turbomachines for micro-generation to satisfy the electricity demand on isolated villages is deeply research. To accomplish this, a three straight blades Vertical Axis Micro Turbine H-Darrieus type is designed and modelled using CAD computational tools. Hydraulic characterization is run on a CFD ANSYS module and fluid-structure interaction is analyzed. Prototyping is made using 3D-printing process in a digital fabrication labapplication/pdfPáginas 903-910engEuropean Association for the Development of Renewable Energy, Environment and Power Quality (EA4EPQ)International Conference on Renewable Energies and Power Quality (ICREPQ’17)Renewable Energy and Power Quality Journal, volumen 1, número 15, páginas 903-910, (april, 2017)Derechos Reservados - Universidad Autónoma de Occidentehttps://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccessAtribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)http://purl.org/coar/access_right/c_abf2instname:Universidad Autónoma de Occidentereponame:Repositorio Institucional UAOUnidad de Planeación Minero Energética, UPME – CORPOEMA. Formulación Plan de Desarrollo FNCE [En línea]. Disponible en http://www.upme.gov.co/Sigic/Informes/Informe_A vance_01.pdf . 2010IEA. World Energy Outlook 2014. International Energy Agency IEA. O D/IEA. http://www.iea.org/ 2014A. Chauhan, R.P. Saini, Renewable energy based offgrid rural electrification in Uttarakhand state of India: Technology options, modelling method, barriers and recommendations, Renewable and Sustainable Energy Reviews, Volume 51, November 2015, Pages 662-681S. Atmaja P. Rosyidi, Tjasa Bole-Rentel, Surya Budi Lesmana, Jazaul Ikhsan, Lessons Learnt from the Energy Needs Assessment Carried out for the Biogas Program for Rural Development in Yogyakarta, Indonesia. Procedia Environmental Sciences, Volume 20, 2014, Pages 20-29C. Shyu. (2012). Rural electrification program with renewable energy sources: An analysis of China’s Township Electrification Program. Energy Policy, 51, 842–853L. Olatomiwa, Saad Mekhilef, A.S.N. Huda, Olayinka S. Ohunakin, onomic evaluation of hybrid energy systems for rural electrification in six geo-political zones of Nigeria, Renewable Energy, Volume 83, November 2015, Pages 435-446T. Slough, Johannes Urpelainen, Joonseok Yang, Light for all?. Evaluating Brazil's rural electrification progress, 2000–2010, Energy Policy, Volume 86, November 2015, Pages 315-327M. J. Khan, G. Bhuyan, M.T. Iqbal, J.E. Quaicoe, Hydrokinetic energy conversion systems and assessment of horizontal and vertical axis turbines for river and tidal applications: A technology status review, Applied Energy, Volume 86, Issue 10. October 2009T. Burton., D. Sharpe., N. Jenkins., & E. Bossanyi. (2001). Wind energy handbook. John Wiley & SonsH. Polinder, Van der Pijl, F. F., Vilder, D., & Tavner, P. J. (2006). Comparison of dir t-drive and geared generator concepts for wind turbines. Energy conversion, IEEE transactions on, 21(3), 725-733M. S. Güney, K. Kaygusuz, Hydrokinetic energy conversion systems: A technology status review, Renewable and Sustainable Energy Reviews, Volume 14, Issue 9, D ember 2010, Pages 2996- 3004J. Albernaz, Jerson Rogério Pinheiro Vaz, Alexandre Luiz Amarante Mesquita, André Luiz Amarante Mesquita, Claudio José Cavalcante Blanco, An Approach for the Dynamic Behavior of Hydrokinetic Turbines, Energy Procedia, Volume 75, August 2015, Pages 271-276S. Laín, B. Quintero, D. Trujillo, Y. Ulianov, Simulation of Vertical Axis Water Turbines, IEEE, 2012S. Samanvorakij, P. Kumkratug. "Modeling and Simulation PMSG based on Wind Energy Conversion System in MATLAB/SIMULINK. Proc. of the Second Intl. Conf. on Advances in Electronics and Electrical Engineering—AEEE. 2013M. E. Haque, M. Negnevitsky, K. M. Muttaqi, A novel control strategy for a Variable Speed Wind Turbine with a Permanent Magnet Synchronous Generator. IEEE Transaction on Industry Applications, Vol 46, No 1, pp. 1-8, 2008A. M. Hemeida, W. A. Farag, O. A. Mahgoub. Modeling and Control of Direct Driven PMSG for Ultra Large Wind Turbines. World Academy of Science Engineering and Technology. Vol. 59, pp. 621-627, 2011REN21. 2014. Global Status Report. Paris: REN21 SecretariaMicro-generationVertical axis turbineH-DarrieusTurbinesTurbinasEnergy engineeringWater-powerIngeniería de la energíaEnergía hidráulicaDesign and prototype of a micro hydrokinetic vertical turbineDocumento de Conferenciahttp://purl.org/coar/resource_type/c_c94fTextinfo:eu-repo/semantics/conferenceObjectinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85Publicationef4078a5-d368-4d6b-8ff4-60a1414ef26dvirtual::2782-1082b0926-3385-4188-9c6a-bbbed7484a95virtual::2587-1082b0926-3385-4188-9c6a-bbbed7484a95virtual::2587-1ef4078a5-d368-4d6b-8ff4-60a1414ef26dvirtual::2782-1https://scholar.google.com/citations?user=n3evWVcAAAAJ&hl=envirtual::2782-1https://scholar.google.com/citations?user=g-iBdUkAAAAJ&hl=esvirtual::2587-10000-0001-5411-2786virtual::2782-10000-0002-0269-2608virtual::2587-1https://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0000144550virtual::2782-1https://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0000262129virtual::2587-1CC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; charset=utf-8805https://red.uao.edu.co/bitstreams/6fb3a242-adbc-44ae-87bc-ccbe963836db/download4460e5956bc1d1639be9ae6146a50347MD52LICENSElicense.txtlicense.txttext/plain; charset=utf-81665https://red.uao.edu.co/bitstreams/ed58b036-e8d5-45c1-a725-b6fe3a43273e/download20b5ba22b1117f71589c7318baa2c560MD5310614/11171oai:red.uao.edu.co:10614/111712024-03-07 11:10:25.88https://creativecommons.org/licenses/by-nc-nd/4.0/Derechos Reservados - Universidad Autónoma de Occidentemetadata.onlyhttps://red.uao.edu.coRepositorio Digital Universidad Autonoma de Occidenterepositorio@uao.edu.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

Design and prototype of a micro hydrokinetic vertical turbine

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