https://orcid.org/0000-0002-6548-0274
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Abstract
The article deals with reducing the energy consumption of biomass drying before combustion in energy plants. The combination of traditionally used convective hot air drying and less applies contact drying is analyzed. To determine the basic drying characteristics, the experiments on a contact dryer and a convective hot air dryer were carried out with wet wood chips. A heat balance model of a system with serial connection of a convective air dryer and a contact dryer was compiled. In the model, the utilization of condensation heat from the waste vapor leaving contact drying to preheat the drying air for convective drying was considered. Based on these results, the system could be optimized to achieve the lowest energy consumption, drying time, and dryer sizing. This solution can significantly improve the energy efficiency of drying moist biomass before combustion from 3.29 and 2.76 MJ per kg of evaporated water for only convective drying and only contact drying, respectively, to 1.48 or 1.33 MJ per kg of evaporated water, depending on the order of the dryers in their connection.
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The authors report there are no competing interests to declare.
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Jan Havlík
Jan Havlík is an assistant professor at the Faculty of Mechanical Engineering, Czech Technical University in Prague, Czech Republic. His major research areas include heat exchanger design, heat transfer, advanced drying technologies for energy systems, condensation technologies, thermal process optimization.
Tomáš Dlouhý
Tomáš Dlouhý is a professor at the Faculty of Mechanical Engineering, Czech Technical University in Prague, Czech Republic. His major research areas include combustion technologies, boiler design, advanced drying technologies for energy systems, thermal process optimization.