Markus Biberacher 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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‘Energy landscapes’: Meeting energy demands and human aspirations

Blaschke

Biberacher

Gadocha

et al. 2013

Biomass and Bioenergy

159

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Renewable energy will play a crucial role in the future society of the 21st century. The various renewable energy sources need to be balanced and their use carefully planned since they are characterized by high temporal and spatial variability that will pose challenges to maintaining a well balanced supply and to the stability of the grid. This article examines the ways that future ‘energy landscapes’ can be modelled in time and space. Biomass needs a great deal of space per unit of energy produced but it is an energy carrier that may be strategically useful in circumstances where other renewable energy carriers are likely to deliver less. A critical question considered in this article is whether a massive expansion in the use of biomass will allow us to construct future scenarios while repositioning the ‘energy landscape’ as an object of study. A second important issue is the utilization of heat from biomass energy plants. Biomass energy also has a larger spatial footprint than other carriers such as, for example, solar energy. This article seeks to provide a bridge between energy modelling and spatial planning while integrating research and techniques in energy modelling with Geographic Information Science. This encompasses GIS, remote sensing, spatial disaggregation techniques and geovisualization. Several case studies in Austria and Germany demonstrate a top-down methodology and some results while stepwise calculating potentials from theoretical to technically feasible potentials and setting the scene for the definition of economic potentials based on scenarios and assumptions.

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Regional energy autarky: Potentials, costs and consequences for an Austrian region

et al. 2012

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Power-to-gas and power-to-liquid for managing renewable electricity intermittency in the Alpine Region

et al. 2017

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High-field antiferromagnetic resonance in single-crystallineLa0.95Sr0.05MnO
Pimenov
¹
,
Biberacher
²
,
Ivannikov
³

et al. 2000
Phys. Rev. B
39
5
26
0
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High-field antiferromagnetic-resonance ͑AFMR͒ spectra were obtained in the frequency range 40 GHz ϽϽ700 GHz and for magnetic fields up to 8 T in twin-free single crystals of La 0.95 Sr 0.05 MnO 3 . At low temperatures two antiferromagnetic modes were detected, which reveal different excitation conditions and magnetic field dependencies. No splitting of these modes was observed for any orientation of the static magnetic field excluding the phase-separation scenario for this composition. Instead, the full data set including the anisotropic magnetization can be well described using a two-sublattice model of a canted antiferromagnetic structure.

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