Int. Journal of Renewable Energy Development 9 (1) 2020: 29-35 Page | © IJRED – ISSN: 2252-4940.All rights reserved 29 Contents list available at IJRED website Int. Journal of Renewable Energy Development (IJRED) Journal homepage: http://ejournal.undip.ac.id/index.php/ijred Energy Resource of Charcoals Derived from Some Tropical Fruits Nuts Shells Damgou Mani Kongnine a* , Pali Kpelou a , N’Gissa Attah b , Saboilliè Kombate b , Essowè Mouzou c , Gnande Djeteli a and Kossi Napo a a Département de Physique, Laboratoire sur l’Energie Solaire-Université de Lomé, TOGO b Département de Physique, Laboratoire Matériaux, Energies Renouvelables et Environnement (LaMERE), TOGO c Département de Physique, Laboratoire de Physique des Matériaux et des Composants à Semi-conducteurs, Université de Lomé, TOGO ABSTRACT. This work was focused on carbonizing four tropical fruits shells wastes such as: coconut shells (CS), palmyra shells (PS), doum palm shells (DPS), whole fruit of doum palm (WFDP) and teak wood (TW) used as control. The aim was to investigate the potential of those biochar to be used as an alternative energy source in replacement of charcoal. The raw biomasses samples were carbonized under the same conditions and some combustion characteristics of the obtained biochar such as lower calorific value, energy per unit volume associated to bulk density, ash content, moisture content and ash mineral content were investigated. The temperature in the furnace was estimated during carbonization process using a K-type thermocouple. The thermal profile of the studied raw biomasses reveals three phases of carbonization. The biochar yield drops significantly for all biomasses as the final maximum temperature increases. The average yields obtained ranged from 37.81 % for palmyra shells to 27.57 % for the doum palm shells. The highest yield achieved was 42.32 % obtained at 280 °C for palmyra shells, the lowest yield (24.42 %) was recorded at the highest maximum temperature of 590 ° C for doum palm shells. The results of energy parameters of the studied biochar showed that coconut shells charcoal presented the highest lower calorific value (28.059 MJ.kg -1 ), followed by doum palm shells (26.929 MJ.kg -1 ) when, with 25.864 MJ.kg -1 , whole fruit of doum palm charcoal showed the lowest lower calorific value. Similarly, with the highest bulk density of 0.625 g/cm 3 coconut shells charcoal presented the highest energy per unit volume (17536.88 J/cm 3 ), whereas with the lowest bulk density of 0.415 g/cm 3 , whole fruit of doum palm charcoal presented the lowest energy per unit volume. The ash content analysis showed that whole fruit of doum palm had the highest ash content (18.75 %) and palmyra nut shells charcoal (8.42 %). Teak wood charcoal, took as control, has the highest lower calorific value (32.163 MJ.kg -1 ), less dense as coconut shell (0.43 g/cm 3 ), his energy per unit of volume is 13830.09 j/cm 3 but the lowest value of as content (2.90 %). Among these biomasses charcoals, only whole fruit of doum palm charcoal ash showed a high chloride and sulfide content respectively 9.73 % and 1.75 % in weight. From these results, the produced charcoals could be used as alternative fuels except for whole fruits of doum palm charcoal which chloride and sulfide content were found high. ©2020. CBIORE-IJRED. All rights reserved Keywords: Biochar, Charcoal, Wood, Carbonization, Alternative Fuels, Lower calorific value, Energy per unit volume Article History: Received: July 18, 2019; Revised: December 16, 2019; Accepted: December 28, 2019; Available online: February 15, 2020 How to Cite This Article: Kongnine, D.M., Kpelou, P., Attah, N., Kombate, S., Mouzou, E., Djeteli, G. and Napo, K. (2020) Energy Resource of Charcoals Derived from Some Tropical Fruits Nuts Shells. International Journal of Renewable Energy Development, 9(1), 29-35. https://doi.org/10.14710/ijred.9.1.29-35 1. Introduction Wood energy, has been and remains today, undoubtedly the main source of primary energy used essentially for cooking in developing countries. Fire wood and wood charcoal are the main sources of energy supply for most of households in these countries. As energy-resources in households, wood charcoal is highly appreciated in urban areas while in rural areas, fire wood dominates. Indeed, charcoal presents a high calorific value of about 31.8 MJ/kg against 16 MJ/kg for fire wood (Felix et al. 2011) and his storage is easier than woods. The carbonization techniques used in developing countries to produce charcoal are still mostly traditional with low yields. The charcoal yield at atmospheric pressure seldom is low in general but industrial charcoal * Corresponding author: kongnine@gmail.com production under controlled pressure and temperature gives yields well over 40 % (Eric et al. 2014). Although, high technological level controlled pressure carbonization systems are suitable for charcoal production, they are out of reach in the majority of developing countries because of their high cost associated to the lack of qualified labour. Then, the widespread use of fire wood or charcoal as energy sources in households and industrial areas has led to environment degradation such as deforestation. So, in many West African countries such as Republic of Togo, the rate of deforestation is high. To mitigate this situation, it’s therefore necessary to develop means of safety exploitation of the forest for energy purpose. Two processes can be used for this: the dissemination of improved carbonization systems/stoves and the utilization Research Article