Researchers & scientists have known for decades:
The reduction of moisture content in biofuel before
combustion is a critical component in
cost-effective power production and pollution reduction
Here are just a few examples of their findings:
“In combustion systems any water content in the fuel must be driven off before the first stage of combustion can occur, requiring energy, and thus reducing overall system efficiency... Reduction in combustion temperature below the optimum may result in incomplete combustion of the fuel giving rise to the emission of tars and creosote... High moisture content biomass has a much lower net energy density by mass... "
- The Biomass Energy Centre of the UK
“Drying... is an important part of the conversion process from fuel to the useful end products of power and heat... Dry fuel contributes to: “boiler efficiency and the steam generation are raised - volume of flue gas is reduced - more flexible and stable boiler operation, using less or no support fuel - increased thermal output or steam generation - smaller size and cost for a new boiler of same thermal output - lower furnace emissions of particulate matter and volatile organic compounds...”
Thermal Drying of Wet Fuels: Opportunities and Technology - a report prepared by
H.A. SIMONS LTD. - D. M. Bruce & M. S. Sinclair
http://mydocs.epri.com/docs/public/TR-107109.pdf
http://mydocs.epri.com/docs/public/TR-107109.pdf
Drying biomass fuel improves combustion efficiency, increases steam production,
usually reduces net air emissions, and improves boiler operation... A biomass-fired boiler will perform better when fuel has an optimum dryness... without supplementary use of
fossil fuels... air emissions are reduced... More complete combustion results in lower quantities of volatile organic compounds and ash produced... reducing entrained particulates in the flue gas, erosion of dryer surfaces... Reduced fuel requirements... smaller fuel
handling equipment... drying reduces transportation costs... dry biofuels are less subject to microbiological degradation in storage. Biomass Drying and Dewatering for Clean Heat & Power September 2008 Carolyn J. Roos, Ph.D. WSU Extension Energy Program
http://www.chpcenternw.org/NwChpDocs/BiomassDryingAndDewateringForCleanHeatAndPower.pdf
http://www.chpcenternw.org/NwChpDocs/BiomassDryingAndDewateringForCleanHeatAndPower.pdf
“Using dry fuel in a direct combustion boiler results in improved efficiency, increased steam production, reduced ancillary power requirements, reduced fuel use, lower emissions and improved boiler operation...” Report on Biomass Drying Technology – National Renewable Energy Laboratory – Wade A. Amos – 1998
http://www.nrel.gov/docs/fy99osti/25885.pdf
http://www.nrel.gov/docs/fy99osti/25885.pdf