Blar i NTNU Open på forfatter "Guest, Geoffrey"
-
Application of probability distributions to the modeling of biogenic CO2 fluxes in life cycle assessment
Cherubini, Francesco; Guest, Geoffrey; Strømman, Anders Hammer (Journal article; Peer reviewed, 2012)In life cycle assessment (LCA), the same characterization factors are conventionally applied irrespective of when the emissions occur (the same importance is given to emissions in the past, present, and future). When the ... -
Cooling aerosols and changes in albedo counteract warming from CO2 and black carbon from forest bioenergy in Norway
Arvesen, Anders; Cherubini, Francesco; del Alamo Serrano, Gonzalo; Astrup, Rasmus Andreas; Becidan, Michael; Belbo, Helmer; Goile, Franziska; Grytli, Tuva; Guest, Geoffrey; Lausselet, Carine; Rørstad, Per Kr.; Rydså, Line; Seljeskog, Morten; Skreiberg, Øyvind; Vezhapparambu, Veena Sajith; Strømman, Anders Hammer (Journal article; Peer reviewed, 2018)Climate impacts of forest bioenergy result from a multitude of warming and cooling effects and vary by location and technology. While past bioenergy studies have analysed a limited number of climate-altering pollutants and ... -
Life Cycle Assessment of Norwegian Bioenergy Heat and Power Systems
Melbye, Anne-Marit (Master thesis, 2012)This thesis assesses several value chains for bioenergy production in Norway and combines these representing two Norwegian scenarios. The environmental impacts are assessed using the methodology of life cycle assessment ... -
The climate change impacts from carbon in biomass products across time
Guest, Geoffrey (Doktoravhandlinger ved NTNU, 1503-8181; 2014:05, Doctoral thesis, 2014) -
The role of forest residues in the accounting for the global warming potential of bioenergy
Guest, Geoffrey; Cherubini, Francesco; Strømman, Anders Hammer (Journal article; Peer reviewed, 2013)Bioenergy makes up a significant portion of the global primary energy pie, and its production from modernized technology is foreseen to substantially increase. The climate neutrality of biogenic CO2 emissions from bioenergy ...