Impact of organically bonded potassium on torrefaction: Part 1. Experimental

A1 Originalartikel i en vetenskaplig tidskrift (referentgranskad)


Interna författare/redaktörer


Publikationens författare: Tooran Khazraie Shoulaifar, Nikolai DeMartini, Oskar Karlström, Mikko Hupa
Publiceringsår: 2016
Tidskrift: Fuel
Volym: 165
Artikelns första sida, sidnummer: 544
Artikelns sista sida, sidnummer: 552
eISSN: 1873-7153


Abstrakt

Torrefaction is a promising heat-treatment method being developed for biomass to increase the use of biomass in its thermochem. conversion processes. This type of pre-treatment can improve the properties of biomass for thermal conversion by improving grindability, heating value, reducing the hydrophilic nature, and increasing its resistance to biodegrdn. In this work, we studied the impact of organically bound K, Na, Ca and Mn on mass loss of biomass during torrefaction. These elements were of interest because they have been shown to be catalytically active in solid fuels during pyrolysis and/or gasification.In this work, we studied spruce and pine as coniferous woods, aspen as a deciduous wood and miscanthus as an herbaceous biomass. The biomasses were first acid washed to remove the ash-forming elements and then org. sites were doped with K, Na, Ca or Mn. The doping was performed in a nitrate soln. of each metal. The resultant fuels were then torrefied at fixed temps. between 240 and 280 °C in a thermogravimetric analyzer.The results show that K and Na bound to org. sites can significantly increase the mass loss during torrefaction at temps. between 240 and 280 °C for a fixed time and temp. It is also seen that Mn bound to org. sites increases the mass loss while Ca addn. does not influence the mass loss rate during torrefaction. This increase in mass loss during torrefaction with alkali addn. is unlike what has been found in the case of pyrolysis where alkali addn. resulted in a reduced mass loss. These results are important for the future operation of torrefaction plants which will likely be designed to handle various biomasses with significantly different contents of K. The results imply that shorter retention times are possible for high K-contg. biomasses.


Nyckelord

Alkali and alkaline earth metals, Potassium, Torrefaction

Senast uppdaterad 2019-13-12 vid 04:03