The global technical potential of bio-energy in 2050 considering sustainability constraints
▶ Food demand, agricultural technology and conservation constrain bio-energy supply. ▶ Global bio-energy crop potentials in 2050 may be 44–133EJ/yr. ▶ Total global primary bio-energy potentials in 2050 may be 160–270EJ/yr. Bio-energy, that is, energy produced from organic non-fossil material of biol...
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| Veröffentlicht in: | Current opinion in environmental sustainability 2010-12, Vol.2 (5-6), p.394-403 |
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| creator | Haberl, Helmut Beringer, Tim Bhattacharya, Sribas C Erb, Karl-Heinz Hoogwijk, Monique |
| description | ▶ Food demand, agricultural technology and conservation constrain bio-energy supply. ▶ Global bio-energy crop potentials in 2050 may be 44–133EJ/yr. ▶ Total global primary bio-energy potentials in 2050 may be 160–270EJ/yr.
Bio-energy, that is, energy produced from organic non-fossil material of biological origin, is promoted as a substitute for non-renewable (e.g., fossil) energy to reduce greenhouse gas (GHG) emissions and dependency on energy imports. At present, global bio-energy use amounts to approximately 50EJ/yr, about 10% of humanity's primary energy supply. We here review recent literature on the amount of bio-energy that could be supplied globally in 2050, given current expectations on technology, food demand and environmental targets (‘technical potential’). Recent studies span a large range of global bio-energy potentials from ≈30 to over 1000EJ/yr. In our opinion, the high end of the range is implausible because of (1) overestimation of the area available for bio-energy crops due to insufficient consideration of constraints (e.g., area for food, feed or nature conservation) and (2) too high yield expectations resulting from extrapolation of plot-based studies to large, less productive areas. According to this review, the global technical primary bio-energy potential in 2050 is in the range of 160–270EJ/yr if sustainability criteria are considered. The potential of bio-energy crops is at the lower end of previously published ranges, while residues from food production and forestry could provide significant amounts of energy based on an integrated optimization (‘cascade utilization’) of biomass flows. |
| doi_str_mv | 10.1016/j.cosust.2010.10.007 |
| format | Article |
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| title | The global technical potential of bio-energy in 2050 considering sustainability constraints |
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