Modelado y Simulación de un Sistema Conjunto de Energía Solar y Eólica para Analizar su Dependencia de la Red Eléctrica

  1. M. Mikati 1
  2. M. Santos 2
  3. C. Armenta 2
  1. 1 Epsilon Embedded Systems
  2. 2 Universidad Complutense de Madrid
    info

    Universidad Complutense de Madrid

    Madrid, España

    ROR 02p0gd045

Revista:
Revista iberoamericana de automática e informática industrial ( RIAI )

ISSN: 1697-7920

Ano de publicación: 2012

Volume: 9

Número: 3

Páxinas: 267-281

Tipo: Artigo

DOI: 10.1016/J.RIAI.2012.05.010 DIALNET GOOGLE SCHOLAR lock_openAcceso aberto editor

Outras publicacións en: Revista iberoamericana de automática e informática industrial ( RIAI )

Resumo

This study presents an analysis of the power transfer between a small-scale hybrid renewable energy system and the electricity grid to cover some power demands. The renewable energy supply system consists of a small-scale wind turbine and a photovoltaic array located close to the power demand. Power generators and the demand are connected to the electricity grid and the potential of selling excess power back to the grid or buying it if needed is assumed to exist. Two types of power demands are simulated: a large housing area and a small factory. Detailed models are implemented for a small-scale wind turbine and a photovoltaic array, as well as for the wind and solar resources. Simulation results are focused on how the grid dependency of this energy system is affected by the relationship between the renewable resources and the demands

Referencias bibliográficas

  • Ackermann T., 2005. Wind Power in Power Systems. John Wiley & Sons.
  • Arifujjaman, Md., Iqbal M. T., Quaicoe J.E., 2008. Energy capture by a small wind-energy conversion system. Applied Energy 85, 41–51.
  • Audierne, E., Elizondo, J., Bergami, L., Ibarra H., Probst O., 2010. Analysis of the furling behavior of small wind turbines. Applied Energy 87, 2278– 2292.
  • Burton, T., Sharpe, D., Jenkins N., Bossanyi E., 2001. Wind energy handbook. John Wiley & Sons.
  • Comisión Nacional de Agua, 2008. Mérida, México.
  • Dodson, D., Busawon K., Jovanovic M., 2005. Estimation of the power coefficient in a wind conversion system. CDC/ECC, Seville, Spain.
  • Duffie J. A, Beckman W. A., 1991. Solar Engineering of Thermal Processes. John Wiley & Sons.
  • ETAP, 2006. Comisión Europea, Medio Ambiente.
  • González, M., Vázquez F., Morilla F., 2010. Control Multivariable Centralizado con Desacoplo para Aerogeneradores de Velocidad Variable. RIAI, 7(4), 53–64.
  • Green, M. A., Emery, K., King, D. L., Hisikawa Y., Warta W., 2006. Solar Cell Efficiency Tables. Progress in Photovoltaics 14, 45–51.
  • Hansen, A. D., Sørensen, P., Hansen L.H., Bindner H., 2000. Models for a Stand-Alone PV System, Risø-R-1219(EN) / SEC-R-12.
  • IEA International Energy Agency, 2011. Key World Energy Statistics.
  • Ivanovic, Z., Dokiü, B., Blanuša B., Knežiü M., 2010. Boost Converter Efficiency Optimization in Wind Turbine, EPE-PEMC, T3-1-T3-5.
  • Jebaraj S., Iniyan S., 2006. A review of energy models. Renewable and Sustainable Energy Reviews, 10(4), 281–311.
  • Jiao, S., Patterson D., Camilleri S., 2000. Boost converter design for a 20kW wind turbine generator. Int. J. of Renewable Energy Eng. 2(1) 118–122.
  • Khan, M. J., Iqbal, M.T., 2009. Analysis of a small wind-hydrogen standalone hybrid energy system. Applied Energy 86, 2429–2442.
  • Krishnan, R (2001) Electric motor drives: modeling analysis and control. Prentice Hall.
  • Kubo, T., Sachs H., Nadel S., 2001. Opportunities for new appliance and equipment efficiency standards: Energy and economics savings beyond current standard programs, American Council Energy-Efficient, A016.
  • Luque A., Hegedus S., 2003. Handbook of Photovoltaic Science and Engineering. John Wiley & Sons.
  • Manwell, J. F., McGowan J. G., Rogers A. L., 2002. Wind Energy Explained. John Wiley & Sons.
  • Masters G.M., 2004. Renewable and Efficient Electric Power Systems. John Wiley & Sons.
  • REN21 Renewable Energy Network for the 21th Century, 2011. Renewable Global Status Report.
  • RER, Renewable Energy Resources, 2011.
  • Rubio, F. R, Camacho E. F., Berenguel M., 2006. Control de campos de colectores solares. RIAI, 3(4), 26-45.
  • Sen, Z., 2008. Solar Energy Fundamentals and Modeling Techniques: atmosphere, environment, climate change and renewable energy. Springer.
  • Tsai, H. L., Tu C. S., Su Y. J., 2008. Development of Generalized Photovoltaic Model Using MATLAB/SIMULINK. In: Proc. World Congress on Engineering and Computer Science, San Francisco, USA.
  • Twidell J., Weir T., 2006. Renewable Energy Resources. Taylor & Francis.
  • Vihriala H., 2002. Control of variable speed wind turbines. PhD thesis, Tampere University of Technology, Finland.
  • Wong, L. T., Chow W. K., 2001. Solar radiation model. Applied Energy 69, 191–224.
Fonte de datos: Dialnet