2010
DOI: 10.1016/j.respol.2010.05.010
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An energy system transformation: Framing research choices for the climate challenge

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Cited by 45 publications
(8 citation statements)
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“…The UNFCCC Paris agreement sets out the goal of limiting global average surface temperature rise to well below 2°C and to pursue efforts to limit it to 1.5°C above pre-industrial levels 1 . Consequently, the world is looking to clean, renewable energy solutions 2 : transforming the energy system 3 from being carbon intensive and inefficient 4 to deeply decarbonised 5 , highly efficient 4 and to a large extent renewable 5 . The power sector is leading the decarbonisation charge 6 and by 2050 low or zero carbon electricity could expand to become the dominant form of energy supply 7 .…”
mentioning
confidence: 99%
“…The UNFCCC Paris agreement sets out the goal of limiting global average surface temperature rise to well below 2°C and to pursue efforts to limit it to 1.5°C above pre-industrial levels 1 . Consequently, the world is looking to clean, renewable energy solutions 2 : transforming the energy system 3 from being carbon intensive and inefficient 4 to deeply decarbonised 5 , highly efficient 4 and to a large extent renewable 5 . The power sector is leading the decarbonisation charge 6 and by 2050 low or zero carbon electricity could expand to become the dominant form of energy supply 7 .…”
mentioning
confidence: 99%
“…The challenges to innovation arising from peak oil may seem more amenable to market incentives, but earlier energy and materials transitions have all been driven by the addition of new resources, from charcoal to coal, from coal to petrol and nuclear, and so on. The energy system transformation of today is thus under a very different constraint than that discussed for earlier transformations (Huberty and Zysman 2010). We can agree with Mowery, Nelson, and Martin (2010) that the circumstances and challenges of climate change, and consequently the appropriate policy responses, are quite different from the space race of the Apollo mission, or the However, the other side of the coin to strategic political responses to these challenges as a source of variation, concerns the extent and nature of the lock-in, on a global scale, to the petrochemical technology platform (Unruh 2000).…”
Section: Economy Polity and Nature -Capitalisms Re-directed?mentioning
confidence: 95%
“…To make grid connection possible for feeding back surplus PV electricity at times of high production, Dutch energy companies had to develop norms for the required quality of the PV-produced electricity and the return rates (van Mierlo, 2002). Technological developments across production, distribution, and energy use-such as a redesign of the grid for dynamic demand management, new forms of transportation power, and large-scale energy storage-are needed for decentralized renewable energy options (Huberty & Zysman, 2010). Unruh (2000) speaks of a carbon lock-in, a vicious cycle in which governments allow new generation capacity and grid expansion, thus increasing availability of cheap electricity that, in turn, encourages consumption and development of new applications and end-use technologies.…”
Section: The Emergence Of a Protected Niche For Pv In Housingmentioning
confidence: 99%