Sustainable Development and Innovation in the Energy SectorSpringer Science & Business Media, 2005 - 267 pages Almost every energy scenario assumes an enormous growth in the demand for energy in the coming decades. Meanwhile, at international conferences and other venues, the primary concern is massive reduction of greenhouse gas emissions, especially of the CO2 produced by fossil-fuel energy consumption. Experts also point out the political risk of depending on petroleum and remind us of the fact that resources are not inexhaustible. This timely book explores: how these conflicting scenarios could be reconciled; how can we shape a more sustainable energy system from the existing one; and possible technological progress and innovations to enable a brighter future. It also addresses the reality that there exists no consensus on the extent to which innovations can really contribute to reconciling ever-growing energy consumption, availability of resources and the environment, and the structural demands on any energy system. |
From inside the book
Results 1-5 of 67
... possible developments and effects 117 5.5 Conclusions : What can be learned from history ? 124 5.5.1 Sustainable energy technologies in the innovation trap 5.5.2 Substitution of energy carriers ... 124 126 5.5.3 Final conclusions 127 6 ...
... Possible ways of shaping the energy system following the ECJ judgment on the Stromeinspeisungsgesetz . 146 6.3.6 Competition and environmental protection 148 6.4 Energy - relevant research and technology policies of the European Union ...
... possible according to scientific criteria . This involves comparing various possible defini- tions of the concept and asking the question which concrete conclusions follow for the central research question of our investigation for each ...
... possible in a particular case , one must look for justifications for the trade - offs ( balances ) between different options . The question whether issues of intergenerational distribution - which are perti- nent to the debate on ...
... possible to halve , compared to the present situation , the total demand for energy by the year 2050. This calculation takes into account further economic growth and a slow turnover of capital stocks . Such a reduction in the energy ...
Contents
II | 17 |
III | 19 |
IV | 20 |
V | 23 |
VI | 24 |
VII | 27 |
VIII | 30 |
IX | 31 |
LVI | 141 |
LVII | 142 |
LVIII | 143 |
LIX | 146 |
LX | 148 |
LXI | 149 |
LXII | 155 |
LXIII | 158 |
X | 32 |
XI | 34 |
XII | 35 |
XIII | 37 |
XIV | 43 |
XV | 45 |
XVI | 51 |
XVII | 52 |
XVIII | 55 |
XIX | 56 |
XX | 57 |
XXI | 60 |
XXII | 61 |
XXIV | 62 |
XXV | 65 |
XXVI | 71 |
XXVII | 75 |
XXVIII | 76 |
XXIX | 77 |
XXX | 79 |
XXXI | 81 |
XXXII | 82 |
XXXIII | 85 |
XXXIV | 89 |
XXXV | 96 |
XXXVI | 99 |
XXXVII | 101 |
XXXVIII | 105 |
XL | 106 |
XLI | 112 |
XLII | 117 |
XLIII | 124 |
XLIV | 126 |
XLV | 127 |
XLVI | 129 |
XLVIII | 131 |
LI | 135 |
LII | 136 |
LIII | 137 |
LIV | 139 |
LV | 140 |
LXIV | 159 |
LXV | 160 |
LXVI | 161 |
LXIX | 163 |
LXX | 167 |
LXXI | 171 |
LXXII | 173 |
LXXIV | 175 |
LXXV | 176 |
LXXVI | 178 |
LXXVII | 179 |
LXXVIII | 180 |
LXXIX | 183 |
LXXX | 185 |
LXXXI | 187 |
LXXXII | 188 |
LXXXIII | 190 |
LXXXIV | 193 |
LXXXV | 200 |
LXXXVI | 203 |
LXXXVII | 206 |
LXXXVIII | 211 |
LXXXIX | 212 |
XC | 214 |
XCI | 217 |
XCII | 218 |
XCIII | 221 |
XCIV | 223 |
XCV | 224 |
XCVI | 225 |
XCVII | 233 |
XCVIII | 239 |
XCIX | 241 |
C | 242 |
CI | 245 |
CII | 249 |
251 | |
CIV | 263 |
CV | 265 |