@article{puenteurbina2016drying,
  title = {Drying Kinetics and Assessment of Relative Energy Cost for Drying of Woody Biomasses},
  author = {Allen Puente-Urbina and Jean P. Morales-Aymerich and Yong Sik Kim and Julio F. Mata-Segreda},
  year = 2016,
  url = {https://ibimapublishing.com/articles/IJREB/2016/701233/},
  journal = {International Journal of Renewable Energy & Biofuels},
  volume = (2016),
  pages = 7,
  doi = 10.5171/2016.701233,
  abstract = {The dynamic porosity concept was applied to the drying of 14 samples of sawdust at 50 °C, 60 % relative humidity and 87 kPa. Determination of the critical extent of drying, where the transition from constant-rate to decreasing-rate kinetic regimes occurs, indicates that Lecythis ampla sawdust is the material that allows water diffusion with the highest kinetic and energy efficiency, amongst the set of residual biomasses.},
  keywords = {Forest biomasses; drying kinetics; drying energy; water diffusivity.},
  note = Article ID: 701233
}