Murat Sean McKeown scite author profile

Material dielectric properties are important for understanding their response to microwaves. Carbonaceous materials are considered good microwave absorbers and can be mixed with dry biomasses, which are otherwise low-loss materials, to improve the heating efficiency of biomass feedstocks. In this study, dielectric properties of pulverized biomass and biochar mixtures are presented from 0.5 GHz to 20 GHz at room temperature. An open-ended coaxial-line dielectric probe and vector network analyzer were used to measure dielectric constant and dielectric loss factor. Results show a quadratic increase of dielectric constant and dielectric loss with increasing biochar content. In measurements on biochar, a strong dielectric relaxation is observed at 8 GHz as indicated by a peak in dielectric loss factor at that frequency. Biochar is found to be a good microwave absorber and mixtures of biomass and biochar can be utilized to increase microwave heating rates for high temperature microwave processing of biomass feedstocks. These data can be utilized for design, scale-up and simulation of microwave heating processes of biomass, biochar, and their mixtures.

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Effects of temperature and material on sensing moisture content of pelleted biomass through dielectric properties

McKeown

Trabelsi

Tollner

2016

Biosystems Engineering

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Dielectric properties-based method for rapid and nondestructive moisture sensing in almonds

Trabelsi

McKeown

Nelson

2016

Journal of Microwave Power and Electromagnetic Energy

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Microwave sensing of moisture in flowing biomass pellets

McKeown

Trabelsi

Nelson

et al. 2017

Biosystems Engineering

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