Fluidised Bed Reactors for the Thermochemical Conversion of Biomass and Waste

Abstract: The growing population and economic development globally has led to increasing resource consumption and waste generation. This has generated concern at local, national and international levels on environmental issues including air quality, resource scarcity, waste management (including plastics) and global warming. The resulting antipathy towards fossil fuels and waste landfilling has spurred the demand for alternative bioenergy and biofuels production methods, making use of abundant biomass and waste feedstoc… Show more

“…The experimental apparatus consists of a 146 mm ID × 1000 mm high Inconel tube fitted with a stainless-steel distributor plate and is operated at atmospheric pressure and temperatures of 500, 600 and 650 °C. The temperature levels used in this work are high enough to provide devolatilization of the feedstock (above minimum devolatilization temperature mentioned above) and they fall in the typical range of pyrolysis operations [71]. The vessel was filled with a Geldart group B quartz sand (particle density 2650 kg/m 3 and average particle size 250 µm) up to a fixed bed height of 13 cm at ambient temperature.…”

Investigation of single particle devolatilization in fluidized bed reactors by X-ray imaging techniques

“…The experimental apparatus consists of a 146 mm ID × 1000 mm high Inconel tube fitted with a stainless-steel distributor plate and is operated at atmospheric pressure and temperatures of 500, 600 and 650 °C. The temperature levels used in this work are high enough to provide devolatilization of the feedstock (above minimum devolatilization temperature mentioned above) and they fall in the typical range of pyrolysis operations [71]. The vessel was filled with a Geldart group B quartz sand (particle density 2650 kg/m 3 and average particle size 250 µm) up to a fixed bed height of 13 cm at ambient temperature.…”

Investigation of single particle devolatilization in fluidized bed reactors by X-ray imaging techniques

“…In this reactor, direct contact is established between the CO2-steam gas blend and aluminium particles to generate synthetic fuel. The fluidised bed configuration provides sufficient residence time, relatively good heat and mass transfer for solid-gas reactions [21]. The synthetic fuel produced with SFR is then cooled via a heat exchanger and is fed into a storage facility to be compressed according to the end-user specific requirement.…”

Thermal plasma-aided chemical looping carbon dioxide dissociation for fuel production from aluminium particles

“…One of the main advantages of a fluidised bed is a good solid mixing due to the upward gas stream that globally results in temperature homogeneity across the whole bed [47]. This is also promoted by the large contact surface and the high heat exchange rates between gas and solid particles.…”

Steam - oxygen gasification of refuse derived fuel in fluidized beds: Modelling and pilot plant testing