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
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... consumption of natural resources . This means for the of energy sector : Innovations should help us to reconcile the ... energy resources , which must not give rise , however , to an inappropriate consumption of other resources . The ...
... energy in the com- ing decades . Meanwhile , at international conferences , among other places , one is concerned ... energy consumption . Experts also point out the political risk of depending on mineral oil and remind us of the fact ...
... consumption , so that a lower consumption of such limited stocks will suffice in the future , the chances to utilize such declining resources can be maintained or even improved in some cases . The possibility of such chances , however ...
... energy was extended by Einstein in his theory of special relativity , which includes mass as a form of energy . ) Hence , energy consumption actually means energy degradation i.e. transforming valuable or available energy ( exergy ) ...
... energy system Objectives Concretization Availability of resources Period of secure practice Energy system Environment Reliability ( end user ) , openness of options , risk avoidance Climate change , emissions , surface consumption ...
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 |