The paper reports on the methodology and results of several studies on the long-term efficiency potentials in the two energy transformation steps from primary energy to final and useful energy and, more importantly, from useful energy to energy services. The examination of these potentials considers the lifetimes and periods of refurbishment of manufactured artefacts: Buildings and infrastructure that will save or waste energy in 2050 that are being built or restored today. The paper emphasises the enormous size of energy conservation potentials achievable not only by reducing energy losses but also by decreasing the specific activity levels for several energy services through improved material efficiency and intensified use of products, plants, and vehicles. It also reports on major definitive conclusions on R&D needs and challenges to R&D-policies as well as immediate policy action in OECD-countries in order to realise the vision of reducing primary energy use per capita by two thirds in industrialised countries within the next five decades.
[1]
Eberhard Jochem,et al.
Society, behaviour, and climate change mitigation
,
2000
.
[2]
S. Ramesohl,et al.
Social interactions and conditions for change in energy-related decision-making in SMCs — an empirical socio-economic analysis
,
2000
.
[3]
Eberhard Jochem,et al.
Material Efficiency and Energy Use
,
2004
.
[4]
Ernst Worrell,et al.
Emerging energy-efficient industrial technologies
,
2000
.
[5]
Alexander Wokaun,et al.
Steps towards a 2000 Watt-Society. Developing a White Paper on Research & Development of Energy-Efficient Technologies
,
2002
.
[6]
P. Stern.
What psychology knows about energy conservation.
,
1992
.
[7]
W. Stahel.
The service economy: ‘wealth without resource consumption’?
,
1997,
Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.