2004
DOI: 10.1016/s0961-9534(03)00079-5
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Optimizing forest biomass exploitation for energy supply at a regional level

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Cited by 188 publications
(91 citation statements)
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“…In Freppaz et al (2004) the type of biomass also played a role in how the demand was satisfied. For plants with lower thermal demands (less than 13 MW), the capacity of each plant was satisfied through the use of biomass being delivered from sites where harvesting was cheaper.…”
Section: Spatial Distributionmentioning
confidence: 99%
See 1 more Smart Citation
“…In Freppaz et al (2004) the type of biomass also played a role in how the demand was satisfied. For plants with lower thermal demands (less than 13 MW), the capacity of each plant was satisfied through the use of biomass being delivered from sites where harvesting was cheaper.…”
Section: Spatial Distributionmentioning
confidence: 99%
“…For thermal demands greater than 13 MW, the biomass obtained both from harvesting and from waste of local production activities was not able to feed the overall demand of the plants. In this case, the model minimises the supply costs by allowing transport from further distances in order to provide short wood from clearfellings, while in some cases it reduces the haulage distances to some power plants including a higher volume of short wood from thinnings (Freppaz et al 2004). …”
Section: Spatial Distributionmentioning
confidence: 99%
“…Spinelli et al (2012) presents the gross calorific value of vineyard pruning residues of 18.7 MJ/kg, Muzikant et al (2010) 16.3 MJ/kg andFernández-Puratich et al (2015) from 16.5 MJ/kg up to 18.7 MJ/kg. Freppaz et al (2004) and McCormick and KÄ-berger (2007) dealt with the issue of energy use in other alternative energy sources. From the results of their work it is clear that the net calorific value of wood from fast-growing bushes is around 18.5 MJ/kg and in plant biomass it is at the level of 16 MJ/kg.…”
Section: Resultsmentioning
confidence: 99%
“…Shabani and Sowlati [18] presented the supply chain configuration of a typical forest biomass power plant and developed a dynamic optimization model to maximize the overall value of the supply chain. Freppaz et al [19] developed a decision support system for forest biomass exploitation for energy production purposes. It consists in integrating geographic information system (GIS) based techniques with mathematical programming methods to yield a comprehensive system that allows the formalisation of the problem, the decision taking, and the evaluation of effects.…”
Section: Introductionmentioning
confidence: 99%