Solar Water Heating as a Potential Source for Inland Norway Energy Mix

Hagos, Dejene Assefa; Gebremedhin, Alemayehu; Zethraeus, Björn

doi:10.1155/2014/968320

Cited by 18 publications

(4 citation statements)

References 21 publications

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“…), others will compete for the available roof space, some of these uses already being promoted as sustainable/green practices. For example, solar thermal is a promoted and competitive technology already occupying many suitable locations (Cansino et al, 2011; REN21, 2015) (including in high latitude regions (Hagos et al, 2014)), and needs to be close to consumers due to the technical difficulty of transporting heat over large distances without incurring in high losses, unlike electricity (IEA, 2006). Globally, solar thermal already accounts for about 1.2% of water and space heating in buildings (REN21, 2015).…”

Section: 3mentioning

confidence: 99%

Assessing vulnerabilities and limits in the transition to renewable energies: Land requirements under 100% solar energy scenarios

Capellán‐Pérez

Castro

Arto³

2017

Renewable and Sustainable Energy Reviews

184

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The transition to renewable energies will intensify the global competition for land. Nevertheless, most analyses to date have concluded that land will not pose significant constraints on this transition. Here, we estimate the land-use requirements to supply all currently consumed electricity and final energy with domestic solar energy for 40 countries considering two key issues that are usually not taken into account: (1) the need to cope with the variability of the solar resource, and (2) the real land occupation of solar technologies. We focus on solar since it has the highest power density and biophysical potential among renewables. The exercise performed shows that for many advanced capitalist economies the land requirements to cover their current electricity consumption would be substantial, the situation being especially challenging for those located in northern latitudes with high population densities and high electricity consumption per capita. Assessing the implications in terms of land availability (i.e., land not already used for human activities), the list of vulnerable countries enlarges substantially (the EU-27 requiring around 50% of its available land), few advanced capitalist economies requiring low shares of the estimated available land. Replication of the exercise to explore the land-use requirements associated with a transition to a 100% solar powered economy indicates this transition may be physically unfeasible for countries such as Japan and most of the EU-27 member states. Their vulnerability is aggravated when accounting for the electricity and final energy footprint, i.e., the net embodied energy in international trade. If current dynamics continue, emerging countries such as India might reach a similar situation in the future. Overall, our results indicate that the transition to renewable energies maintaining the current levels of energy consumption has the potential to create new vulnerabilities and/or reinforce existing ones in terms of energy and food security and biodiversity conservation.

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Section: 3mentioning

confidence: 99%

Assessing vulnerabilities and limits in the transition to renewable energies: Land requirements under 100% solar energy scenarios

Capellán‐Pérez

Castro

Arto³

2017

Renewable and Sustainable Energy Reviews

184

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“…These results can provide clues for more detailed radiation budget analyses of shifting vegetation types. For example, considering an average incoming shortwave radiation of 188 W m −2 during July in Norway (Hagos et al 2014), our albedo measurements suggest that the net shortwave radiation can increase locally with a maximum of 39.4 W m −2 (33%) when a hypothetical lichen heath with 100% C. stellaris will turn into shrub vegetation of 100% E. nigrum. A more moderate change, a conversion from a lichen-dominated heath (e.g.…”

Section: Discussionmentioning

confidence: 96%

Shrub encroachment interacts with environmental variation to reduce the albedo of alpine lichen heaths: an experimental study

Reinhardt

Aartsma

Skøyen

et al. 2022

Nordic Journal of Botany

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Global warming causes the replacement of lichens by shrubs in alpine and Arctic ecosystems. Since shrubs have lower albedo than lichens, this shrub encroachment can lead to a positive climatic feedback, resulting in higher temperatures in the surroundings. Therefore, gaining knowledge on the surface albedo of shrubs and lichens is important. Environmental factors also influence the surface albedo, but have often been neglected, potentially leading to biased results. In an experimental setup, we analyzed albedos of the lichen species Cladonia stellaris, Flavocetraria nivalis and Cetraria islandica, and how albedo changes with a stepwise replacement by the dwarf shrub Empetrum nigrum. Albedo was measured with radiometers in a paired set up. By setting certain environmental variables and species composition (monocultures) to be constant, we quantified the impact of environmental factors such as cloud cover, aspect and zenith angle on the surface albedo of two lichen species. Surface albedo (mean values ± SD) differed between C. islandica (0.155 ± 0.015), C. stellaris (0.364 ± 0.019), F. nivalis (0.350 ± 0.022) and E. nigrum (0.154 ± 0.016), and an increase in shrub cover at the expense of lichen cover led to a corresponding decrease in albedo. A 0.6 reduction in clearness index (more clouds) produced a 0.054 albedo decline. On the north‐facing aspect, albedo was 0.023 lower than on the south‐facing aspect. Albedo increased by 0.032 with an increase in zenith angle of 15°. Albedo variations caused by these studied environmental factors significantly affect the radiation budget of alpine and Arctic vegetation. We therefore stress the importance of considering environmental factors when surface albedos are estimated. Likewise, our species‐specific measurements can be a basis for further studies of the impact of climate change on alpine and Arctic vegetation and species‐related feedback mechanisms.

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“…1. Annual solar insolation in Gildeskål area, Norway: 24 kWh/m 2 (after Hagos et al, 2014), i.e. 8.6 E + 07 J/m 2 ; albedo of built environments: 0.1 (Wolf & Lundholm, 2008).…”

Section: Case Study: Eco-innovation For Fish Mortality Disposal and V...mentioning

confidence: 99%

Emergy assessment to assess the ecological sustainability of smolt production and innovative options for the reuse and valorisation of aquaculture discards

Cristiano

Baarset²,

Bruckner³

et al. 2023

Ecological Indicators

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Solar Water Heating as a Potential Source for Inland Norway Energy Mix

Cited by 18 publications

References 21 publications

Assessing vulnerabilities and limits in the transition to renewable energies: Land requirements under 100% solar energy scenarios

Assessing vulnerabilities and limits in the transition to renewable energies: Land requirements under 100% solar energy scenarios

Shrub encroachment interacts with environmental variation to reduce the albedo of alpine lichen heaths: an experimental study

Emergy assessment to assess the ecological sustainability of smolt production and innovative options for the reuse and valorisation of aquaculture discards

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