International Journal of Sustainable and Green Energy

Special Issue

Wind-Generated Waves, 2D Integrable KdV Hierarchies and Solitons

  • Submission Deadline: 20 March 2015
  • Status: Submission Closed
  • Lead Guest Editor: Mahmoud AKDI
About This Special Issue
The existing production systems of renewable energy from fluid flows are either hydropower or wind power. They can take many forms such as the wind turbine and the tidal turbine for example.

These methods, in order to ensure high levels of performance, must always face severe conditions of service.

The unpredictable and sometimes quite violent characters of the nature, added to the outfits variable intensities and directions of ocean currents or air currents, are directly impacting the design of the conversion systems, by making it inevitably more complex.

This complexity, subsequently lead to the amplification of investments needed to convert these forces to useful energy.

Our aim objective trough this special issue, is to explore innovative techniques and methods that can contribute to the development of renewable energy, especially based on the wind-generated waves and the solitons phenomena. Tow parameters must be taken in consideration: the technical efficacy and the economical efficiency.
Lead Guest Editor
  • Mahmoud AKDI

    Faculty of Science of Kenitra, Ibn Tofail University, Kenitra, Morocco

Published Articles
  • Notes on the Boussinesq Integrable Hierarchy

    O. Dafounansou , D. C. Mbah , A. Boulahoual , M. B. Sedra

    Issue: Volume 4, Issue 3-2, May 2015
    Pages: 17-22
    Received: 20 November 2014
    Accepted: 28 November 2014
    Published: 15 December 2014
    DOI: 10.11648/j.ijrse.s.2015040302.14
    Abstract: This work is dedicated to some notes on the Moyal momentum algebras applied to the sl_3 Boussinesq integrable hierarchy. Starting from a brief review of the Moyal momentum algebra structures, we establish in detail the Non-commutative Boussinesq hierarchy by using the Lax pair Generating Technique. Then we shows that these equations can be obtained... Show More
  • Note on the 3-Graded Modified Classical Yang-Baxter Equations and Integrable Systems

    Mahmoud Akdi , Amina Boulahoual , Moulay Brahim Sedra

    Issue: Volume 4, Issue 3-2, May 2015
    Pages: 10-16
    Received: 1 November 2014
    Accepted: 5 November 2014
    Published: 11 November 2014
    DOI: 10.11648/j.ijrse.s.2015040302.13
    Abstract: The 6=3×2 huge Lie algebra Ξ of all local and non-local differential operators on a circle is applied to the standard Adler-Kostant-Symes (AKS) R-bracket scheme. It is shown in particular that there exist three additional Lie structures, associated to three graded modified classical Yang-Baxter (GMCYB) equations. As we know from the standard case, ... Show More
  • Prospective Study: Choice of the Potential Sites Intended for the New Renewable Energy Approach

    Mahmoud Akdi , Moulay Brahim Sedra

    Issue: Volume 4, Issue 3-2, May 2015
    Pages: 6-9
    Received: 6 October 2014
    Accepted: 10 October 2014
    Published: 17 October 2014
    DOI: 10.11648/j.ijrse.s.2015040302.12
    Abstract: Morocco since the year 1929 has given great importance to the construction of dams and to ensure their sustainability. 128 large dams currently operational, totaling nearly 17.2 billion m3 of capacity, are the result of the efforts made in the deployment of dams strategy. As part of our new approach of renewable energy production from dams, this ar... Show More
  • New Approach for Renewable Energy Production from Dams

    Mahmoud Akdi , Moulay Brahim Sedra

    Issue: Volume 4, Issue 3-2, May 2015
    Pages: 1-5
    Received: 24 August 2014
    Accepted: 28 August 2014
    Published: 5 September 2014
    DOI: 10.11648/j.ijrse.s.2015040302.11
    Abstract: The energy production is among the most critical challenges, is added risks to the environment by the proliferation of greenhouse gas emission. The search for new methods for the production of renewable energy turns out a more imposing need. This article aims to explore a new way to achieve this end based on dams.