Impact of Optimal Integration of Dispersed Generation in an Electrical Distribution Network

  • Hocine Terbah Laboratoire Semi-conducteurs et matériaux fonctionnels (LSCMF). Université Amar Telidji de Laghouat. Algérie (UATL). BP 37G Laghouat 03000, Algeria
  • Saliha Chettih Laboratoire Semi-conducteurs et matériaux fonctionnels (LSCMF). Université Amar Telidji de Laghouat. Algérie (UATL). BP 37G Laghouat 03000, Algeria
Keywords: Renewable energy dispersed, Photovoltaïque arry, Wind turbine, Distribution electrical work, Maximum power point tracking, Dispersed generation

Abstract

The impact of renewable energy dispersed generation  (DG) in the electrical network in a way that increases the level of power also to ensure the continuity of service under better conditions Require many Big challenges, This paper provides a methodology solutions of hybrid photovoltaïque arry (PV)  and wind turbine (WT) energy integration in the distribution electrical network with climate data from the wilaya of laghouat (Affiliated to Algeria) with maximal  power level 500 kw and maximum power point tracking (MPPT) Incremental Conductance method follow-up to the maximum power point generated by the hybrid pv and wt system to ensure energy demand and improve the quality of electrical networks

renewable energy dispersed

Published
2021-06-15
How to Cite
Terbah H., & Chettih S. (2021). Impact of Optimal Integration of Dispersed Generation in an Electrical Distribution Network . Algerian Journal of Renewable Energy and Sustainable Development, 3(01), 23-33. Retrieved from https://ajresd.univ-adrar.edu.dz/index.php?journal=AJRESD&page=article&op=view&path[]=109
Section
Articles