Hydrogen chloride emissions from combustion of raw and torrefied biomass

Elevated emissions of hydrogen chloride (HCI) from combustion of biomass in utility boilers is a major issue as it can cause corrosion and, in combination with the high alkali content often encountered in these fuels, it can also deposit molten alkali chloride salts on the boiler's water tubes. Such deposition can impede heat transfer and cause further corrosion. This work torrefied and then burned herbaceous biomass (corn straw) as well as crop-derived biomass (olive residue and corn-based Distillers Dried Grains with Solubles, DOGS), all pulverized in the size range of 75-150 gm. It monitored the HCI emissions from torrefaction of biomass and, subsequently, the comparative HCI emissions from combustion of both raw and torrefied biomass. Results showed that during torrefaction most of the chlorine of bio-mass was released in the gas phase, predominately as HCI. Consequentially, combustion of torrefied biomass, which contained less chlorine than raw biomass, generated significantly lower HCI emissions than raw biomass, particularly so for biomass of low alkali content. This observation complements previous findings in this laboratory that torrefied biomass also generated lower SO2 emissions than raw biomass, albeit by a smaller factor. Both of these findings enhance the appeal of torrefied biomass as a substitute fuel in utility boilers. (C) 2017 Elsevier Ltd. All rights reserved.