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Coelho, B., Schwarzbozl, P., Oliveira, A. and Mendes, A. (2012) Biomass and Central Receiver System (CRS) Hybridization: Volumetric Air CRS and Integration of a Biomass Waste Direct Burning Boiler on Steam Cycle. Solar Energy, 86, 2912-2922.

has been cited by the following article:

  • TITLE: Assessment of Hybrid Concentrated Solar Power-Biomass Plant Generation Potential in Sahel: Case Study of Senegal

    AUTHORS: Ababacar Thiam, Cheikh Mbow, Mactar Faye, Pascal Stouffs, Dorothé Azilinon

    KEYWORDS: Biomass, Concentrating Solar Power (CSP), Direct Normal Irradiation (DNI), Hybrid, Typha Australis

    JOURNAL NAME: Natural Resources, Vol.8 No.8, August 2, 2017

    ABSTRACT: Concentrating Solar Power (CSP) is non-existent in Sahel. Such a situation arises from the high investment costs required by these energy infrastructures and from a lack of information on the identification of suitable sites to accommodate them. Conversely, CSP-biomass plants due to lower investment may be an option for CSP penetration in Sahel where Direct Normal Irradiation (DNI) is between 1400 kWh/m2/year and 2000 kWh/m2/year and significant biomass potential. This work presents the results of an identification of suitable sites for hybrid CSP-Biomass in the Sahel, case study of Senegal, taking into account the Direct Normal Irradiation, the availability of water, space and biomass potential. The identified sites have a DNI > 1600 kWh/m2/year. The biogas production capacity is equivalent to 5,096,563 m3/year. The quantity of Typha Australis, invasive plant in Senegal river valley available is estimated at more than 3 million tons. The capacity of electrical energy in this zone is estimated at 6.89 GWe for an installation surface estimated at 275.61 km2. The establishment of CSP/hybrid plants can also contribute to combat the proliferation of Typha Australis.