How to analyse and maximise the forest fuel supply availability to power plants in Eastern Finland

Published Date
Biomass and Bioenergy
May 2011, Vol.35(5):1841–1850, doi:10.1016/j.biombioe.2011.01.029

• Author 

• Tapio Ranta ^,
• Olli-Jussi Korpinen

• Lappeenranta University of Technology, Department of Energy and Environmental Technology, Jääkärinkatu 3E, FI-50101 Mikkeli, Finland

Received 30 June 2008. Revised 2 July 2008. Accepted 7 January 2011. Available online 3 February 2011. 

Abstract

The annual use of forest fuels has grown rapidly in Finland during the 21st century. In 2007 the annual use was 5.3 TWh (firewood use excluded), whereas the targeted growth by the year 2010 is 10.6 TWh, i.e. some 5 million m³. The purpose of this work was to evaluate the maximum availability of forest fuels to CHP plants in Eastern Finland. The total availability to the selected CHP plant population was 7 TWh at the maximum transport distance of 100 km. The main share came from logging residues, 3.3 TWh, and the rest from stumps, 1.8 TWh, and small diameter energy wood, 1.9 TWh. The highest plant-specific availability reached the level of 1.7–1.8 TWh, but the overlapping procurement areas reduced the availability for most plants to a level less than 1 TWh. In all plant sites peat fuel could be partially compensated with forest fuels according to availability, but not completely due to the boiler technology. Increasing the targeted national forest fuel use presupposes the use of new logistics supply solutions, such as other transport modes and regional buffer storage networks. This makes it possible to widen the traditional procurement area-based on truck transportation, which is less than 60 km because of a dense plant network.

Highlights

► Forest biomass availability as of function of transport distance rise very rapidly. ► Dense plant network and high competition will diminish clearly the plant-specific availability. ► So far all forest biomass need can be fulfilled in Easter Finland. ► The forest biomass supply and demand are not in balance at the Finland. ► An efficient long distance transport methods are needed to fulfill the large-scale biomass need.

Keywords

Biomass resources

Combined heat and power generation (CHP)

Geographical information systems (GIS)

Biomass availability

Biomass allocation

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