Energy Blue Print
Archive 2008

Moving from principles to action for energy supply that mitigates against climate change requires a long-term perspective. Energy infrastructure takes time to build up; new energy technologies take time to develop. Policy shifts often also need many years to take effect. In most world regions the transformation from fossil to renewable energies will require additional investment and higher supply costs over about twenty years

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electricity generation

The development of the electricity supply sector is characterised by a dynamically growing renewable energy market and an increasing share of renewable electricity. This will compensate for the phasing out of nuclear energy and reduce the number of fossil fuel-fired power plants required for grid stabilisation. By 2050, 77% of the electricity produced worldwide will come from renewable energy sources. ‘New’ renewables – mainly wind, solar thermal energy and PV – will contribute over 60% of electricity generation. The following strategy paves the way for a future renewable energy supply:

  • The phasing out of nuclear energy and rising electricity demand will be met initially by bringing into operation new highly efficient gas-fired combined-cycle power plants, plus an increasing capacity of wind turbines, biomass, concentrating solar power plants and solar photovoltaics. In the long term, wind will be the most important single source of electricity generation.
  • Solar energy, hydro and biomass will make substantial contributions to electricity generation. In particular, as non-fluctuating renewable energy sources, hydro and solar thermal, combined with efficient heat storage, are important elements in the overall generation mix.
  • The installed capacity of renewable energy technologies will grow from the current 1,000 GW to 9,100 GW in 2050. Increasing renewable capacity by a factor of nine within the next 42 years requires political support and well-designed policy instruments, however. There will be a considerable demand for investment in new production capacity over the next 20 years. As investment cycles in the power sector are long, decisions on restructuring the world’s energy supply system need to be taken now.

To achieve an economically attractive growth in renewable energy sources, a balanced and timely mobilisation of all technologies is of great importance. This mobilisation depends on technical potentials, cost reduction and technological maturity. Figure 21 shows the comparative evolution of the different renewable technologies over time. Up to 2020, hydro-power and wind will remain the major contributors to the growing market share. After 2020, the continuing growth of wind will be complemented by electricity from biomass, photovoltaic and solar thermal (CSP) energy.