Lat Grand Ndiaye scite author profile

The development of alternatives energies illustrates the common interest of all countries in reducing greenhouse gas emissions and combating climate change. Thermochemical treatment of municipal solid waste, agricultural and forestry wastes is a major challenge for this XXI st century to replace petroleum fuels. Thermogravimetric analysis (TGA) makes it possible to elucidate the thermal behavior of Casamance (Senegal) biomass residues, mass losses and decomposition rate, under inert (N 2 ) atmosphere and oxidizing (O 2 ) atmosphere. Carbonization and briquetting techniques of these various residues encountered in this part of Senegal country, by densification in order to produce fuel briquettes (call biochars) will be used to improve stoves for cooking. Samples used in this study are peanuts shells (PNS), cashew nut shells (CNS), palm nut shells (PLS) and millet stems (MS). Elemental and approximate analyses make it possible to determine the CHNSO* composition, volatile matter, fixed carbon and ashes content of the samples used. Higher heating values (HHV) of the former residues are ranging from 28.60 MJ•kg −1 , 26.51 MJ•kg −1 , 29.69 MJ•kg −1 and 24.93 MJ•kg −1 respectively. The chars are obtained by slow pyrolysis with a heating rate of 5˚C•min −1 from ambient temperature up to 800˚C under inert atmosphere. The morphology of the samples is different for the four biomasses studied, from biomass in the form of wood fibers to a more compact biomass. The parietal composition of different samples presented was determined by Van Soest method using neutral detergents (NDS), acid detergent (ADS) and sulfuric acid (H 2 SO 4 , 72%); to solubilize successively extractable, hemicellulose and cellulose respectively; lignin was obtained by balance ( Table 2). The samples show a high level of cellulose, this pseudo-component is very rich in carbon directly linked to the calorific value, whose values vary from 32.35%; 24.20%; 34.94% and 39.67%

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Evaluation of the impact of partial shading and its transmittance on the performance of crystalline silicon photovoltaic modules

Faye¹,

Ndiaye²,

Kobor³

et al. 2017

Int. J. Phys. Sci.

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Étude comparative de la digestion anaérobie entre pulpes de la pomme de cajou, bouse de vache et leur codigestion

Faye¹,

Ndiaye²,

Sarr³

2021

J.P.SOAPHYS

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La digestion anaérobie est un processus naturel biologique de dégradation de la matière organique en absence d’oxygène, pour la production du biogaz. L’étude réalisée porte sur la valorisation des déchets organiques dans la région de la Casamance. Elle consiste à évaluer la production de biogaz par les pulpes de la pomme de cajou (PPC), comparée à celle de la production par la bouse de vache (BV) et celle de la codigestion de ces deux substrats. Trois dispositifs expérimentaux ont été conçus d’une part, pour la détermination de la composition du biogaz et d’autre part, neuf dispositifs expérimentaux basés sur la méthode du déplacement du liquide ont été mis en oeuvre pour la détermination du volume de biogaz. Les essais ont été triplet et les résultats basés sur la moyenne des mesures effectuées. Les expériences ont duré 40 jours dans un bain marie à 38 °C. Les résultats montrent un volume cumulé de 5 100 ml de biogaz avec un pourcentage en méthane de 62,95 % pour les (PPC) ; la (BV) présente un volume cumulé de biogaz de 3 256 ml, composé de 58,52 % de méthane et enfin la codigestion des substrats mélangés (50 % de pulpes de la pomme de cajou et 50% de bouse de vache), donne une production de 6 982 ml en volume cumulé contenant un pourcentage en méthane de 61,30 %. Ces résultats montrent l’importance de la codigestion sur l’amélioration des rendements de productions des substrats lors de la digestion anaérobie.

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Determination and comparison of combustion kinetics parameters of peanut shells, cashew nut shells, palm nut shells, and millet stem

Seydou

Himbane

Ndiaye

2022

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Lat Grand Ndiaye

Application of the dynamic model of Saeman to an industrial rotary kiln incinerator: Numerical and experimental results

Thermochemical conversion of cashew nut shells, palm nut shells and peanut shells char with CO2 and/or steam to aliment a clay brick firing unit

Influence of pyramids and inverted pyramids on silicon optical properties

Physicochemical, Biochemical and Antioxidant Potential Characterisation of Cashew Apple (<i>Anacardium occidentale</i> L.) from the Agro-Ecological Zone of Casamance (Senegal)

Thermochemical Characterization of Casamance Biomass Residues for Production of Combustibles Briquettes

Evaluation of the impact of partial shading and its transmittance on the performance of crystalline silicon photovoltaic modules

Étude comparative de la digestion anaérobie entre pulpes de la pomme de cajou, bouse de vache et leur codigestion

Determination and comparison of combustion kinetics parameters of peanut shells, cashew nut shells, palm nut shells, and millet stem

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Lat Grand Ndiaye

Application of the dynamic model of Saeman to an industrial rotary kiln incinerator: Numerical and experimental results

Thermochemical conversion of cashew nut shells, palm nut shells and peanut shells char with CO2 and/or steam to aliment a clay brick firing unit

Influence of pyramids and inverted pyramids on silicon optical properties

Physicochemical, Biochemical and Antioxidant Potential Characterisation of Cashew Apple (&lt;i&gt;Anacardium occidentale&lt;/i&gt; L.) from the Agro-Ecological Zone of Casamance (Senegal)

Thermochemical Characterization of Casamance Biomass Residues for Production of Combustibles Briquettes

Evaluation of the impact of partial shading and its transmittance on the performance of crystalline silicon photovoltaic modules

Étude comparative de la digestion anaérobie entre pulpes de la pomme de cajou, bouse de vache et leur codigestion

Determination and comparison of combustion kinetics parameters of peanut shells, cashew nut shells, palm nut shells, and millet stem

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Physicochemical, Biochemical and Antioxidant Potential Characterisation of Cashew Apple (<i>Anacardium occidentale</i> L.) from the Agro-Ecological Zone of Casamance (Senegal)