Giulia Fiorese scite author profile

The recent statements of both the European Union and the US Presidency pushed in the direction of using renewable forms of energy, in order to act against climate changes induced by the growing concentration of carbon dioxide in the atmosphere. In this paper, a survey regarding methods and tools presently available to determine potential and exploitable energy in the most important renewable sectors (i.e., solar, wind, wave, biomass and geothermal energy) is presented. Moreover, challenges for each renewable resource are highlighted as well as the available tools that can help in evaluating the use of a mix of different sources.

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EU mitigation potential of harvested wood products

Pilli

Fiorese

Grassi

2015

Carbon Balance Manage

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BackgroundThe new rules for the Land Use, Land Use Change and Forestry sector under the Kyoto Protocol recognized the importance of Harvested Wood Products (HWP) in climate change mitigation. We used the Tier 2 method proposed in the 2013 IPCC KP Supplement to estimate emissions and removals from HWP from 1990 to 2030 in EU-28 countries with three future harvest scenarios (constant historical average, and +/−20% in 2030).ResultsFor the historical period (2000–2012) our results are consistent with other studies, indicating a HWP sink equal on average to −44.0 Mt CO2 yr−1 (about 10% of the sink by forest pools). Assuming a constant historical harvest scenario and future distribution of the total harvest among each commodity, the HWP sink decreases to −22.9 Mt CO2 yr−1 in 2030. The increasing and decreasing harvest scenarios produced a HWP sink of −43.2 and −9.0 Mt CO2 yr−1 in 2030, respectively. Other factors may play an important role on HWP sink, including: (i) the relative share of different wood products, and (ii) the combined effect of production, import and export on the domestic production of each commodity.ConclusionsMaintaining a constant historical harvest, the HWP sink will slowly tend to saturate, i.e. to approach zero in the long term. The current HWP sink will be maintained only by further increasing the current harvest; however, this will tend to reduce the current sink in forest biomass, at least in the short term. Overall, our results suggest that: (i) there is limited potential for additional HWP sink in the EU; (ii) the HWP mitigation potential should be analyzed in conjunction with other mitigation components (e.g. sink in forest biomass, energy and material substitution by wood).

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Co-production of decarbonized synfuels and electricity from coal + biomass with CO₂capture and storage: an Illinois case study

Larson

Fiorese

Liu

et al. 2010

Energy Environ. Sci.

113

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A GIS-based approach to evaluate biomass potential from energy crops at regional scale

Fiorese

Guariso

2010

Environmental Modelling & Software

127

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Giulia Fiorese

Methods and tools to evaluate the availability of renewable energy sources

EU mitigation potential of harvested wood products

Co-production of decarbonized synfuels and electricity from coal + biomass with CO₂capture and storage: an Illinois case study

A GIS-based approach to evaluate biomass potential from energy crops at regional scale

Contact Info

Product

Resources

About

Giulia Fiorese

Methods and tools to evaluate the availability of renewable energy sources

EU mitigation potential of harvested wood products

Co-production of decarbonized synfuels and electricity from coal + biomass with CO2capture and storage: an Illinois case study

A GIS-based approach to evaluate biomass potential from energy crops at regional scale

Contact Info

Product

Resources

About

Co-production of decarbonized synfuels and electricity from coal + biomass with CO₂capture and storage: an Illinois case study