Abstract
The increasing energy demand coupled with the need to reduce greenhouse gas emissions and the threat of exhaustion of oil reserves make us consider a possible recourse to the use of biomass waste as a source of renewable energy. Nowadays, gasification is not yet economically and operationally attractive for the power industry and more research is needed to facilitate the process and improve the desirability of the gasification process. Gasification tests were conducted on five wastes char mainly of agro-sylvo-pastoral residues, in order to study the behaviors of char conversion based on experimental data. Peanut shells, palm shells, cashews nut shells, cashew wood and “kaicedrat” wood char obtained by pyrolysis at 450°C are used. The samples were gasified at three different reaction temperatures (950 to 1050°C) in a fixed bed reactor, using steam or CO2 as gasification agent and with average fraction of particle size 630 and 3000 µm. The experimental parameters, which affect the char’s reactivity, are reviewed similarly to those related to the char and its structural features and operation parameters. Gasification kinetic conversion was studied at different models: the volume reaction model (VRM) and shrinking core model (SCM) in order to interpret the char conversion data. Further, the activation energy and pre-exponential factor were determined using the Arrhenius correlation. The experimental results showed that more syngas ((CO + H2)) of high quality were obtained at 1000 to 1050°C during char gasification with steam or CO2. The present results showed that temperature has a positive effect on kinetic char conversion. In addition, the low heating values obtained as a function of temperature depend on the nature of sample. For further investigation, it can be shown that the reaction rate is dependent on the char samples. Thus comparing the five biomasses, particular importance about reactivity and lower heating value (LHV) is attached to cashew nut shells, palm shells and peanut shells. Key words: Kinetic of char conversion, char samples, char-CO2 gasification, char-steam gasification, lower heating value (LHV).
Highlights
The present results showed that temperature has a positive effect on kinetic char conversion
Krerkkaiwan et al (2013) in the synergistic effects during co-pyrolysis/gasification of biomass and sub-bituminous coal, reported that the apparent contradictions of the results found in the literature can be function of experimental parameters used from one author to other, such the temperature, pressure, heating rate, the type of coal or biomass, and the origin of the material used
It can be concluded that the value of the lower calorific value of the product gas is a function of the temperature and of the particle size
Summary
Gasification processes are currently receiving attention in terms of a cleaner and more energy efficient char. Several methods were being studied in order to develop more efficient and environmentally friendly char conversion technologies. Coal compared to biomass’s char is the main feedstock used in gasification processes
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