53 research outputs found

    Identification et caractérisation des déchets organiques au Maroc, une étape importante dans la valorisation des déchets

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    The introduction of new valorization and bioconversion techniques of organic waste in Morocco is a lever for a promising bio-economy able to exploit all available resources of the country including waste. The success of these techniques is first conditioned by the perfect knowledge of the characteristics of the available biomass potential. Thus, this research is particularly interested in the identification and characterization of organic waste at the national level for eventual bioconversion to other products with added value such as bioethanol, lactic acid, amino acids, proteins and fertilizers. The identification of these biological materials has been established by making a state-of-the-art on different researches, studies and statistics to estimate the potential volume at the national level and especially those generated by agriculture and agrifood industry. The determination of the chemical composition of biomass was carried for the nine most important biomaterials in the country in terms of quantitative and qualitative potential. After evaluating the various production sectors, it has been estimated global potential of organic waste at approximately 60 million tons produced annually across Morocco, with 92% of agricultural wastes. A share of this biomass is currently marketed as inputs in the agricultural sector;while other residues have no economic value and are disposed of to landfill or incineration. The results of chemical characterization of the 9 samples studied have identified two types of biomass: sugar based feedstock and nutrient based feedstock including the estimated yield for bioethanol, biogas, lactic acid and fertilizer. These results show that organic wastes available in Morocco are well adapted to transformation process to produce value added bio-based products. Keywords: Organic waste, valorization, bioconversion, environmental impact, energy, bio-economy, MoroccoL’introduction de nouvelles techniques de valorisation et de bioconversion de déchets organiques au Maroc est un levier pour une bio-économie prometteuse en mesure d’exploiter toutes les ressources disponibles du pays y compris les déchets. Le succès de ces techniques est d’abord conditionnée par la parfaite connaissance des caractéristiques du potentiel de la biomasse disponible. Ainsi, cette recherche s’est particulièrement intéressée à l’identification et à la caractérisation des déchets organiques à l’échelle nationale pour bioconversion éventuelle à d’autres produits à valeur ajoutée tels que le bioéthanol, l’acide lactique, des acides aminés, les protéines et les engrais. L’identification de ces matériaux biologiques a été mise en place en faisant un état de l’art sur les différentes recherches, études et statistiques pour estimer le volume potentiel au niveau national et en particulier ceux générés par l’industrie agro-alimentaire et l’agriculture. La détermination de la composition chimique de la biomasse a été effectuée pour les neuf biomatériaux les plus importants du pays en termes de potentiel quantitatif et qualitatif. Après avoir évalué les différents secteurs de production, il a été estimé qu’un potentiel global des déchets organiques est de l’ordre de 60 millions de tonnes produites chaque année à travers le Maroc, avec 92% des déchets agricoles. Une part de cette biomasse est actuellement commercialisée comme intrants dans le secteur agricole, tandis que d’autres résidus n’ont aucune valeur économique et sont mis en décharge ou incinérés. Les résultats de la caractérisation chimique des 9 échantillons étudiés ont identifié deux types de biomasse: matières premières à base de sucre et celles à base et d’éléments nutritifs y compris le rendement estimé pour le bioéthanol, le biogaz, l’acide lactique et l’engrais. Ces résultats montrent que les déchets organiques disponibles au Maroc sont bien adaptés aux processus de transformation pour produire des produits à haute valeur ajoutée. Mots-clés: Déchets organiques, valorisation, bioconversion, impact sur l’environnement, énergie, bio-économie, Maro

    Mathematical Modelling of Diesel Fuel Hydrodesulfurization Kinetics

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    The experimental data for hydrogenation of sulfur compounds including benzothiophenes (BT) and dibenzothiophenes (DBT) in the diesel fuel with 1.4 mass% of sulfur content is obtained using the laboratory setup with the aluminum-cobalt-molybdenum catalyst GKD-202 at the pressure of 3.5 MPa and different temperatures. The sulfur compound removal factor reaches 98 mass%. Dynamics of DBT and BT concentrations allowed designing a kinetic model represented by the system of differential equations of individual sulfur compound rates. The kinetic model was included in the developed software. The basis of the algorithm for reverse kinetic problem solution is the method of scanning through predefined range of constants. This enables performing the calculation with an error not exceeding 0.007%. The obtained data confirmed that chemical activity increases in the order: DBT, BT, sulfides. The rate of desulfurization decreases with increase in alkyl substituents concentrations. DBT desulfurization is much worse than the one of BT. The calculated data allowed building the graphs representing BT and DBT concentration dynamics

    Butanol fermentation of the brown seaweed Laminaria digitata by Clostridium beijerinckii DSM-6422

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    Seaweed represents an abundant, renewable, and fast-growing biomass resource for 3rd generation biofuel production. This study reports an efficient butanol fermentation process carried out by Clostridium beijerinckii DSM-6422 using enzymatic hydrolysate of the sugar-rich brown seaweed Laminaria digitata harvested from the coast of the Danish North Sea as substrate. The highest butanol yield (0.42 g/gconsumed-substrates) compared to literature was achieved, with a significantly higher butanol: acetone-butanol-ethanol (ABE) molar ratio (0.85) than typical (0.6). This demonstrates the possibility of using the seaweed L. digitata as a potential biomass for butanol production. For the first time, consumption of alginate components was observed by C. beijerinckii DSM-6422. The efficient utilization of sugars and lactic acid further highlighted the potential of using this strain for future development of large-scale cost-effective butanol production based on (ensiled) seaweed

    Crude fucoidan content in two North Atlantic kelp species, Saccharina latissima and Laminaria digitata - seasonal variation and impact of environmental factors

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    Fucoidans are sulphated fucose-rich polysaccharides predominantly found in the cell walls of brown algae. The bioactive properties of fucoidans attract increasing interest from the medico-pharmaceutical industries and may drive an increase in demand of brown algae biomass. In nature, the biochemical composition of brown algae displays a seasonal fluctuation driven by environmental factors and endogenous rhythms. To cultivate and harvest kelps with high yields of fucoidans, knowledge is needed on seasonal variation and impact of environmental conditions on the fucoidan content of brown algae. The relations between the fucoidan content and key environmental factors (irradiance, nutrient availability, salinity and exposure) were examined by sampling natural populations of the common North Atlantic kelps, Saccharina latissima and Laminaria digitata, over a full year at Hanstholm in the North Sea and Aarhus in the Kattegat. In addition, laboratory experiments were carried out isolating the effects of the single factors. The results demonstrated that (1) seasonal variation alters the fucoidan content by a factor of 2–2.6; (2) interspecific differences exist in the concentrations of crude fucoidan (% of dry matter): L. digitata (11%) > S. latissima (6%); and (3) the effects of single environmental factors were not consistent between species or between different conspecific populations. The ambiguous response to single environmental factors complicates prospective directions for manipulating an increased content of fucoidan in a cultivation scenario and emphasizes the need for knowledge on performance of local kelp ecotypes.This study was carried out as part of the MacroAlgae Biorefinery (MAB3), the MacroAlgae Biorefinery 4 (MAB4) and the Macrofuels projects, funded by The Danish Council for Strategic Research, the Innovation Fund Denmark and the European Union's Horizon 2020 research and innovation programme under grant agreement no. 654010, respectively
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