Scheer Solar Economy Renewable Energy for a Sustainable Global Future (Earthscan, 2005)
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THE SOLAR ECONOMY
Renewable Energy for
a Sustainable Global Future
Hermann Scheer
London • Sterling, VA
First published in English by Earthscan in the UK and USA in hardback in 2002 and in paperback in 2004
Reprinted 2005
Original title: Solare Weltwirtschaft
Copyright © Verlag Antje Kunstmann GmbH, München, 1999
Translated from the German by Andrew Ketley
All rights reserved
ISBN: 1-84407-075-1
Typesetting by MapSet Ltd, Gateshead, UK
Printed and bound in the UK by Creative Print and Design Wales, Ebbw Vale
Cover design by Andrew Corbett
For a full list of publications please contact:
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Earthscan publishes in association with WWF-UK and the International Institute for Environment and Development
A catalogue record for this book is available from the British Library
Library of Congress Cataloging-in-Publication Data
Scheer, Hermann, 1944-.
[Solare Weltwirtschaft. English]
The solar economy : renewable energy for a sustainable global future / Hermann Scheer.
p. cm.
Includes bibliographical references and index. ISBN 1-85383-835-7
1. Renewable energy sources. 2. Sustainable development. I. Title.
TJ808 .S33 2002 333.79'4—dc21
2002006934
This book is printed on elemental-chlorine-free paper
Contents
List of figures and tables |
vii |
|
Foreword |
|
ix |
Acknowledgements |
xviii |
|
List of acronyms and abbreviations |
xix |
|
Scenario |
From fossil fuels to solar power: |
|
|
transforming the global economy |
1 |
|
The power of the pyromaniacs |
5 |
|
Fossil resource dependency: how economic |
|
|
processes have come adrift from their |
|
|
environmental and social bases |
10 |
|
Global competition in place of global |
|
|
environmental policy |
12 |
|
The origins of the fossil-fuel economy |
14 |
|
Accelerating change and global displacement |
15 |
|
Business unbound: cutting loose from nature |
|
|
and society |
19 |
|
Reconnecting business and society through |
|
|
solar resources |
21 |
|
From the political to the economic solar |
|
|
manifesto |
25 |
|
PART I |
|
|
CAPTIVITY OR LIBERATION: FOSSIL FUEL AND |
|
|
SOLAR SUPPLY CHAINS COMPARED |
|
Chapter 1 Ensnared by fossil supply chains |
37 |
|
|
Long supply chains due to limited resources: |
|
|
the logic of globalization |
37 |
|
Fossil resource supply chains and industrial |
|
|
concentration: market destruction through |
|
|
market mechanisms |
44 |
iv THE SOLAR ECONOMY |
|
The spider in the web: the growing influence |
|
of Big Energy and Big Mining |
49 |
The convergence of power: networking, |
|
supercartels and the disempowerment of |
|
democratic institutions |
56 |
Chapter 2 Exploiting solar resources: the new political |
|
and economic freedom |
62 |
The solar supply chain |
66 |
The economic logic of the solar energy |
|
supply chain |
76 |
Solar power: technology without technocracy |
82 |
PART II |
|
THE PATHOLOGICAL POLITICS OF FOSSIL |
|
RESOURCES |
|
Chapter 3 The 21st century writing on the wall: the |
|
political cost of fuel and resource conflict |
93 |
A world in denial: the disregard for limited |
|
reserves |
94 |
Dwindling reserves versus worldwide growth |
|
in demand |
103 |
Arming for the resource conflict |
105 |
Resource reserves, gunboat diplomacy and |
|
the moral bankruptcy of society |
115 |
Chapter 4 The distorting effects of fossil supply |
|
chains |
120 |
The rise and fall of the fossil city |
121 |
The fossil resource trap closes on the |
|
developing world |
128 |
Chapter 5 The mythology of fossil energy |
137 |
Figures of fancy: the inadequacy of |
|
conventional energy statistics |
139 |
The inadequacy of energy forecasts |
143 |
The profligate subsidies for conventional |
|
energy systems |
149 |
CONTENTS v |
|
The feigned productivity of nuclear and |
|
fossil energy |
153 |
Ideology and the physics of energy |
159 |
The fear of the small scale |
166 |
PART III |
|
THROWING OFF THE FOSSIL SUPPLY CHAINS |
|
Chapter 6 Energy beyond the grid |
173 |
Wireless power: the potential of solar |
|
stand-alone and stand-by technologies |
174 |
The potential for natural and technological |
|
solar energy storage |
182 |
Synergistic applications, cross-substitution |
|
and all-load micro-power plants |
195 |
The solar technology revolution and the |
|
solar information society |
201 |
Chapter 7 The untapped wealth of solar resources |
206 |
The higher productivity of biological |
|
materials |
209 |
Replacing fossil with solar resources |
218 |
Solar materials: from agricultural |
|
monocultures to polycultures |
220 |
The real biotechnology: materials science, |
|
not genetic engineering |
225 |
Chapter 8 The profitability of renewable energy and |
|
resources |
231 |
Whose costs? Why solar and fossil resources |
|
cannot be compared on the basis of |
|
economic efficiency calculations |
233 |
Cost avoidance: economical application of |
|
solar resources in a nutshell |
237 |
vi THE SOLAR ECONOMY
PART IV
TOWARDS A SOLAR ECONOMY
Chapter 9 Exploiting solar energy |
251 |
The role of capital allowances – and their |
|
problems |
253 |
Tax-exempt status for solar resources: |
|
overcoming the legitimacy crisis of |
|
environmental taxation |
256 |
Possibilities and problems in the market for |
|
green electricity |
259 |
Green suppliers and municipal |
|
self-sufficiency |
269 |
Creative destruction in the energy industry |
|
and the transformation of the resource |
|
industry |
276 |
Hard roads to soft resources |
280 |
Chapter 10 Regionalization of the global economy |
|
through solar resources |
285 |
Regionalization effects through solar |
|
resources |
288 |
‘Own implementation’ versus ‘joint |
|
implementation’: opportunities for the |
|
developing world |
292 |
Regionalizing trade flows |
296 |
The sustainable economy: global technology |
|
markets, regional commodity markets |
301 |
Trade not talk: beyond the energy industry |
308 |
Chapter 11 The visible hand of the sun: blueprint for a |
|
solar world |
312 |
Forwards: towards the primary economy |
316 |
Work and the solar economy |
320 |
From the bounty of the sun to global |
|
economic prosperity |
323 |
References |
326 |
Index |
341 |
List of figures and tables
|
Figures |
|
2.1 |
Comparison of electricity generation from fossil |
|
|
fuels and renewables |
79 |
2.2 |
Internal processing steps involved in solar and |
|
|
fossil fuel/nuclear electricity generation |
81 |
3.1 |
Estimated duration of crude oil and natural gas |
|
|
reserves |
105 |
7.1 |
The ‘petrochemical snake’ |
212 |
7.2 |
Comparison of solar and petrochemical resources |
213 |
7.3 |
The range of applications of a solar raw material |
222 |
9.1 |
Energy supply structures incorporating renewable |
|
|
energy |
274 |
9.2Model for the future: municipally/regionally integrated energy supply incorporating renewable
|
energy |
275 |
|
Tables |
|
1.1 |
Geographical concentration of mineral reserves |
43 |
2.1 |
Characteristics of solar resources |
68 |
2.2 |
Can industrial concentration and monopoly |
|
|
structures be avoided? |
88 |
3.1 |
Mineral reserves |
102 |
3.2 |
Growths rates for fossil energy use in Asia, in |
|
|
millions of tonnes |
112 |
4.1 |
Energy imports as a percentage of export revenue, |
|
|
selected developing countries |
134 |
6.1 |
Stand-by power consumption and equivalent PV |
|
|
panel area |
180 |
6.2 |
Energy storage technologies |
193 |
viii |
THE SOLAR ECONOMY |
|
6.3 |
Energy regulation strategies in biological systems, |
|
|
compared with existing and potential architectural |
|
|
applications (selected examples) |
198 |
7.1 |
Comparison of market prices for fossil and |
|
|
regenerable resources |
214 |
7.2 |
Comparative evaluation of products manufactured |
|
|
from fossil and solar raw materials |
216 |
10.1 Regional distribution of economic activity: |
|
|
|
renewable and non-renewable resources compared |
290 |
F O R E W O R D
Preventing climate change: beyond the Kyoto Protocol
‘LET’S IMPROVE THE atmosphere’ – that was how the German government greeted delegates to the conference on climate change held in Bonn in July 2001, the eighth such conference since 1992. Yet even before the conference took place, it was abundantly clear that even if the Kyoto Protocol were to be implemented in full through to 2012 without being watered down, the most it could achieve would be to bring emissions back down to the already dangerously high levels of 1990. On the basis of existing agreements, the objective was no longer to improve matters, but merely to prevent them getting any worse.
Matters have not been improved by either the discussions in Bonn or the follow-up conference three months later in Marrakech, held to hammer out further details on how the Kyoto Protocol is to be implemented. If implementation were to proceed as planned, the result would be a paltry 2 per cent emissions reduction in those industrialized countries that have signed up. The USA, responsible for 25 per cent of global emissions, would not be taking part. Across the globe, however, total emissions would continue to rise by a further 10 per cent. The gulf between the targets that must be met and the measures that have been agreed is vast. The UN-endorsed Intergovernmental Panel on Climate Change (IPCC) has stated that emissions reductions of 60 per cent by 2050 are vital if the global climate is to be stabilized. There is surely no-one who seriously imagines this can be achieved by prolonging the Kyoto process beyond 2012. The Kyoto debate would appear to have run its course.
x THE SOLAR ECONOMY
In reality, it is now time to open up the debate. When reporting to the public, politicians face understandable pressure to present even minimal results as a success. The truth is, however, that holding international conferences has proved to be an inadequate response to the dangers and challenges that climate change presents. Despite the general consensus that we have to stick to the path originally chosen, it is now past time we asked whether these conferences have not in fact done more harm than good. While the delegates have been debating over the past decade, emissions have been rising by an unprecedented 30 per cent. We can no longer afford to measure the success of climate change conferences in terms of agreements reached. In view of the consensus assumption that such conferences represent the international instrument par excellence for tackling climate change, it is fair to ask how much has been neglected, postponed, cut, omitted or mishandled since they began. The roll-call of failure is so long that it would be irresponsible not to look for a better way forwards. ‘Let’s improve the policy’ should be the new leitmotiv.
At first glance, the case for global climate change conferences appears convincing. Global problems need global – and thus consensual – solutions. All governments must recognize that they have a direct responsibility to tackle climate change, and their commitments must be binding. The right way to achieve such an outcome is to hold global negotiations to decide on a joint programme of action on which no-one can renege. The apparently common-sense nature of this approach, however, is blinding us to basic questions – questions which the now parlous state of the Kyoto Protocol imbues with new urgency. Why should we expect comprehensive, fast and effective policy responses to emerge from what is the most long-winded political decision process imaginable, namely consensus-orientated negotiations between the parties to an international treaty? What were the reasons for the success or failure of other international treaty negotiations? But above all, is it even possible to achieve international agreement on the technological and structural transformation of the energy sector that a successful climate change strategy would require?