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| 1 |
ID:
112306
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| Publication |
2012.
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| Summary/Abstract |
Biomass gasification is expected to be an attractive option among other competitive applications of biomass conversion for bio-energy. This study analyzes economic feasibility of biomass gasification power generating plants in three selected communities (Ignace, Nipigon and Kenora) of northwestern Ontario. The major variables considered in the model are harvesting and handling costs, logistic costs for biomass feedstock delivery and storage, capital costs of power plant by scales, operation and maintenance costs, labor costs, capital financing costs and other regulatory costs. GIS analysis was undertaken to estimate the distance class matrix to apportion the biomass feedstock supply side from different forest management units. Total cost per MW h power production at a 50 MW scale ranges from CAD 61.89 to CAD 63.79. Total cost per unit of electricity production decreases significantly as plant capacity increases due to economy of scale in the production system. Further, the locations of plants explained the cost variability.
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| 2 |
ID:
092562
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| Publication |
2009.
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| Summary/Abstract |
Potentials for bio-energy have been estimated earlier on the basis of estimates of potentially available land, excluding certain types of land use or land cover (land required for food production and forests). In this paper, we explore how such estimates may be influenced by other factors such as land degradation, water scarcity and biodiversity concerns. Our analysis indicates that of the original bio-energy potential estimate of 150, 80 EJ occurs in areas classified as from mild to severe land degradation, water stress, or with high biodiversity value. Yield estimates were also found to have a significant impact on potential estimates. A further 12.5% increase in global yields would lead to an increase in bio-energy potential of about 50%. Changes in bio-energy potential are shown to have a direct impact on bio-energy use in the energy model TIMER, although the relevant factor is the bio-energy potential at different cost levels and not the overall potential.
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