Meet Inspiring Speakers and Experts at our 3000+ Global Conference Series Events with over 1000+ Conferences, 1000+ Symposiums
and 1000+ Workshops on Medical, Pharma, Engineering, Science, Technology and Business.

Explore and learn more about Conference Series : World's leading Event Organizer

Back

NAIMI Youssef

NAIMI Youssef

University of Hassan II Casablanca, Morocco

Title: Estimation of the production of electric and thermal energy for a controlled landfill (Morocco)

Biography

Biography: NAIMI Youssef

Abstract

The United Nations Framework Convention on Climate Change was signed in 1992 at the Rio Summit. The Conference of the Parties shall, as the supreme body, regularly review the implementation of the Convention and any other related legal instruments that it may adopt and take, within its mandate, Effective implementation of the Convention. The Conference of the Parties (COP) is the supreme body of the UNFCCC and meets annually to take stock of progress in combating climate change in order to negotiate and monitor the implementation of the Convention. It ratified the Kyoto Protocol on 16 February 2005. The twenty-second meeting will take place in Marrakech, Morocco, from 7 to 18 November 2016. The reduction and valorization of household waste is one of the main objectives of the COP22 in Marrakech. Waste recovery is conceivable through the construction of controlled landfills The work presented in this article represents a study of modeling the operation of the controlled dump of Fez thanks to several calculation techniques. The controlled landfill in Fez is the first controlled landfill built at national level, and even in Africa, for modern solid waste management. It allows to control all the effluents, while preserving the environment of the city. This study presents an inventory of the production of electrical energy and heat energy by cogeneration. We will show that the quantity of electrical energy estimated by the mechanization of household waste from the Fes landfill is 65.5 GWh, and the amount of thermal energy estimated by the cogeneration of the electrical systems is 142.174 GWh, then these quantities are currently available at the Fes landfill. This alternative allows a reduction in the tonnage of accumulated waste. Thus, it avoids its negative impact on the environment.

Recent Publications:

  1. Jouhara H, T.K. Nannou, L. Anguilano, H. Ghazal, N. Spencer (2017), Heat pipe based municipal waste treatment unit for home energy recovery, Energy (2017), 1-21.
  2. Chen Y., Hu W., Chen P., Ruan R., Household biogas CDM project development in rural China, Renewable and Sustainable Energy Reviews, 67 (2017) 184–191.
  3. Ball, A.S., Shahsavari E., Aburto-Medina A., Kadali K. K., Shaiban A. A.J., Stewart R. J. (2016), Biostabilization of municipal solid waste fractions from an Advanced Waste Treatment plant. Journal of King Saud University – Science (2016).
  4. S.C. Bolyard, D.R. Reinhart (2016), Application of landfill treatment approaches for stabilization of municipal solid waste, Waste Management 55, 22–30.
  5. Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) (2014) GmbH, Report on solid waste management in MOROCCO.
  6. Daniel A. Lagos H. (2014), Optimization of the methane generation model of the landfill site of the SAINT-MICHEL environmental complex, University of SHERBROOK.
  7. Ivaylo Ganev, Iliyana Naydenova (2014), Evaluation of Potential Opportunities for Electric Power Generation from Landfill Gas at “Tsalapitsa” Technical University of Sofia, College of Energy and Electronics.
  8. HAMID R. AMINI (2011), Landfill gas to energy: incentives and benefits, Environmental Engineering, Iran University of Science & Technology.
  9. DAMIEN A. (2002), Guide to waste treatment, Dunod, Paris.
  10. ECOMED Group Morocco.