International Journal of Sustainable and Green Energy

Special Issue

Hybrid Systems for Power Generation in Remote Areas

  • Submission Deadline: Oct. 10, 2020
  • Status: Submission Closed
  • Lead Guest Editor: Dr. Samuel Sami-Howard
About This Special Issue
The objective of this special issue “Hybrid Systems for power generation in Remote Areas” is to explore and assess the future energy potential from renewable sources, specifically for remote areas non-connected to the grid. This issue focuses on the renewable green sources namely; solar and wind energy, biomass, geothermal, hydraulic energy, Thermal storage, Hydrogen technology, Ocean Thermal Energy and CHP for the 21st century (2030-2050).
Papers should present numerical simulation models, or/and experimental techniques for predicting the total power generated by hybrid green energy systems composed of renewable/integrated Combined Heat and Power (CHP) energy sources. Numerical models or experimental techniques based upon describing the energy conservation and conversion equations of the different mechanisms and processes of the aforementioned hybrid systems. The predicted results and data should be analyzed, discussed and compared to available data in the literature under various conditions.

Aims and Scope:

  1. Hybrid System Solar Photovoltaic Fuel cells and Hydrogen Storage
  2. Wind Energy Thermal Solar Thermal storage
  3. Geothermal Biomass CHP/ORC
  4. District Heating Modeling and Simulation
  5. Experimental techniques and validation
  6. Numerical Modeling and CFD
Lead Guest Editor
  • Dr. Samuel Sami-Howard

    Research Center for Renewable Energy, Catholic University of Cuenca, Cuenca, Ecuador

Guest Editors
  • Dr. Zahid Ayub

    Isotherm Inc., Dallas, United States

  • Dr. Samir Moujaes

    Department of Mechanical Engineering,University of Nevada, Las Vegas, United States

  • minming Gu

    Department of Automation,Zhejiang Sci-Tech University, Hangzhou, China

Published Articles
  • Dynamic Simulation of Fuel Cell Driven by Wind Turbine Using Simulink / Matlab Approach

    Samuel Sami , Cristian Cango , Edwin Marin

    Issue: Volume 9, Issue 1, March 2020
    Pages: 1-15
    Received: Feb. 27, 2020
    Accepted: Mar. 09, 2020
    Published: Mar. 17, 2020
    DOI: 10.11648/j.ijrse.20200901.11
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    Abstract: A dynamic numerical simulation has been carried out using the Matlab Simulink tool for simulation of a hybrid Power generation system using wind turbine (400w) and a fuel cell of Proton Exchange Membrane (PEM). The system has a battery banc to store excess energy not consumed by the load, and an electrolyzer when wind power is unavailable. The nume... Show More