Abstract
Catalytic tar removal is one of the main challenges restricting the successful commercialization of biomass gasification. Hot gas cleaning using a heterogeneous catalyst is one of the methods used to remove tar. In order to economically remove tar, an efficient low-cost catalyst should be applied. Biomass char has the potential to be such a catalyst. In this work, the reactor parameters that affect the conversion of a model tar component “naphthalene” were investigated employing an in situ thermogravimetric analysis of a fixed bed of biomass char. The following reactor and catalyst parameters were investigated: bed temperature (750 to 900 °C), gas residence time in the char bed (0.4 to 2.4 s), char particle size (500 to 1700 μm), feed naphthalene concentration, feed gas composition (CO, CO2, H2O, H2, CH4, naphthalene, and N2), char properties, and char precursor. It was found that the biomass char has a high activity for naphthalene conversion. However, the catalytic performance of the biomass char was affected by the gasification reactions that consumed its carbon, and the coke deposition that reduced its activity. Furthermore, high ash and iron contents enhanced char activity. The results of this work will be used in the design of a process that uses biomass char as an auto-generated catalyst in the gasification process.
Highlights
The world’s dependence on fossil fuels, including crude oil, natural gas, and coal, reached 81.4%of total primary energy sources compared to 9.7% of biofuels and waste in the year 2015 [1]
Naphthalene naphthalene conversion min was in temperature the range of 70 and 100 conversion
Its catalytic activity depended on the bed temperature and operating time
Summary
The world’s dependence on fossil fuels, including crude oil, natural gas, and coal, reached 81.4%of total primary energy sources compared to 9.7% of biofuels and waste in the year 2015 [1]. The world’s dependence on fossil fuels, including crude oil, natural gas, and coal, reached 81.4%. The high consumption of fossil fuels has led to a sharp decrease in global reserves, severe fluctuation in oil prices, as well as a negative environmental impact. There is an immense need to increase the share of renewable and environmentally friendly sources of energy that reduce the drawbacks of fossil fuels. Gasification is one notable technology, where biomass is converted by partial combustion into a combustible gas. This technology still faces technical challenges that delay its commercialization. The removal of tar generated in the gasifier is considered the most challenging obstacle due to the operational problems it causes downstream of the gasifier
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