10.4225/08/504823DD685B8
O'Connell, Deborah
Deborah
O'Connell
CSIRO
O'Connor, Mike
Mike
O'Connor
CSIRO
O'Connell, Deborah
Deborah
O'Connell
CSIRO
Raison, John
John
Raison
CSIRO
Crawford, Debbie
Debbie
Crawford
CSIRO
Herr, Alexander Herr - Herry
Alexander Herr - Herry
Herr
CSIRO
Taylor, Joely
Joely
Taylor
CSIRO
Jovanovic, Tom
Tom
Jovanovic
CSIRO
Dunlop, Michael
Michael
Dunlop
CSIRO
Rodriguez, Luis
Luis
Rodriguez
CSIRO
Poole, Michael
Michael
Poole
CSIRO
Braid, Andrew
Andrew
Braid
RileM Pty Ltd
Kriticos, Darren
Darren
Kriticos
CSIRO
Assessment of Australia biomass for producing bioelectricity and biofuel and reducing greenhouse gas emissions
CSIRO
2012
Dataset
2012
The data tables (inputs and results) supported "a quantitative assessment of the prospects for current and future biomass feedstocks for bioenergy in Australia, and associated estimates of the greenhouse gas (GHG) mitigation resulting from their use for produc- tion of biofuels or bioelectricity." (from the Abstract of GCB Bioenergy, 4(2):148–175. [doi: 10.1111/j.1757-1707.2011.01115.x]).
Table titles:
Table 1 Biomass–bioenergy pathways considered in this paper
Table 2 Biomass production from current production systems
Table 3 Assumed densities of sawlogs and pulplogs, and for- est and sawmill residue fractions from hardwood and soft- wood plantations and native forests managed for wood production
Table 4 Estimated theoretical Area and Annual production of future dedicated energy biomass production systems when they have been fully established
Table 5 Variables used in the calculation of oil production from algae
Table 6 Species, planting layout, initial stocking and rotation length used to model biomass production from new SRC euca- lypt plantings across four Australian geoclimatic zones (after Polglase et al., 2008)
Table 7 Area of land planted, and annual wood production from SRC eucalypts assuming crops established on 5% of each category of land use and productivity class
Table 8 Variables used in the estimation of oil yield from Pongamia pinnata plantations established for bioenergy in Australia
Table 9 Area of land (ha) for combinations of land-use categories and potential productivity (growth index) zones for Pongamia pin- nata in northern Australia (see Fig. 2d)
Table 10 Assumed Diversion for each biomass category, and the rationale
Table 11 Conversion process, rate of conversion, and associated GHG emissions used to calculate biofuel and bioenergy production
for each feedstock category (new feedstocks are italicised)
Table 12 Estimated GHG emissions due to production and transport, for a range of bioenergy feedstocks
Table 13 Energy equivalence ratio applied when using biofuels to replace fossil fuels
Table 14 Production of biofuel and bioelectricity, and estimates of GHG mitigation