NUCLEAIRES !ACTUALITE INTERNATIONALE
Nuclear Energy Belongs in the Technology Museum
by Hermann Scheer
November 22, 2004
NUCLEAIRES ! "Nuclear energy is still too expensive and too dangerous.
Huge amounts of water are needed in a time of increasing water shortage.
Uranium supplies are limited. In Europe $1 trillion was spent on nuclear
research while renewable energy fell by the wayside."
- Hermann Scheer, RE Insider
This pro-nuclear argument relies on two-fold inhibition.
Amid contrary facts, the economic advantages are praised. The risks are
minimized or declared technically surmountable. At the same time, renewable
energies are denounced as uneconomical, with their potential marginalized
in order to underscore the indispensability of nuclear energy.
Trivializing the reactor catastrophe at Chernobyl
is part of this strategy. In DIE ZEIT 31/2004, Gerd von Randow wrote that
there have been only 40 deaths and 2000 registered cases of thyroid cancer.
These figures have been provided by advocacy organizations. Independent
studies, such as the report of the Munich Radiation Institute, have identified
70,000 casualties that include desperate suicides and the tens of thousands
of long-term victims additionally projected.
Comparing these victims with the victims of coal
mining and fossil energy emissions is an element of minimization. However,
both the massive nuclear and fossil tragedies necessitate mobilizing renewable
energy as the only prospect for lasting, emission-free, benign, and inexpensive
supplies.
The deployment of nuclear energy is the result of
gigantic mechanisms of subsidization and privilege. Before 1973, OECD governments
spent over $150 billion (adjusted to current costs) in researching and
developing nuclear energy, and practically nothing for renewable energy.
Between 1974 and 1992, $168 billion was spent on nuclear energy and only
$22 billion on renewables. The European Union's extravagant nuclear promotion
efforts are not even included in this calculation. French statistics are
still being kept secret. The total state support amounts to at least a
trillion dollars, with mammoth assistance provided to market creation and
to incentives for non-OECD countries, above all, the former Soviet block.
Only $50 billion has been spent on renewable energy.
Since 1957, the IAEA and Euratom have assisted governments in designing
nuclear programs. By contrast, no international organizations exist today
for renewable energy.
After the middle of the seventies, nuclear energy
was largely burnt out, due more to enormously increased costs than to growing
public resistance. The limitations on construction have become more severe.
Uranium reserves estimated at a maximum 60 years refer to the number of
plants currently in operation. With twice the number, the available time
periods would inevitably be cut in half. The expansion calculated by the
IAEA could not be realized without an immediate transition to the fast
breeders for extending the uranium reserves!
The history of the breeder reactors is a history
of fiascos. Like the Russian reactor, the British reactor achieved an operating
capacity of 15 percent before its shutdown in 1992. The French Super Phoenix
(1200 Megawatts) attained 7 percent and cost 10 billion euros. The much
smaller Japanese breeder (300 Megawatts) cost 5 billion euros and experiences
regular operating problems. Making these reactors fit for operation, if
that were to prove possible, would require incalculably greater add-on
costs. This path of development would be prohibitive without continued
or increased public expenditures. The thousand-year nuclear waste question
remains an unresolved problem with unforeseeable permanent costs.
Four additional reasons speak against the future viability of nuclear
power:
- Their enormous water requirements for steam processes
and cooling conflicts with intensified water emergencies due to climate
change and the water needs of the growing world population.
- The excess heat of nuclear power plants is poorly suited for combined
heat and power generation because of the high financial burdens of district
heating systems appropriate to central nuclear power blocks.
- The danger of nuclear terrorism, not only by missile attacks on reactors,
continues to grow with the intensification of asymmetrical conflicts.
- Full-load operation of capital-intensive nuclear reactors that is
indispensable for their profitability can only be guaranteed if governments
again regulate the electricity markets and obstruct alternatives. The nuclear
economy remains a (concealed) state economy.
All this would have to be accepted given the finite
nature of fossil fuel resources if the possible option of renewable energy
did not exist with an energy supply potential for our planet that is 15,000
times as great as the annual consumption of nuclear and fossil energy.
Scenarios depicting a full supply capability with available technologies
have been compiled repeatedly by the Union of Concerned Scientists in the
USA (1978), the International Institute for Applied System Analysis for
Europe (1981) and the Enquete Commission of the German Bundestag (2002).
While none of these analyses has ever been seriously refuted, all are ignored
by conventional experts.
An electrical generation capacity of 16,000 Megawatts
has evolved in Germany over the last twelve years as a result of the renewable
energy law. New facilities with 3000 Megawatts were realized in 2003 alone.
If this initial rate were reproduced over the next 50 years, a total capacity
of 166,000 Megawatts would result, equivalent to conventional capacities
of 55,000 Megawatts. Nevertheless it is a very widespread fallacy to think
in isolated substitution steps and ignore increasing efficiency potentials.
Renewable Energy has unimagined advantages. Short energy chains replace
long energy chains from the mines to the final consumer with losses of
energy at every step of conversion and transformation. A relatively few
highly centralized power plants will be superseded by many decentralized
facilities. The need for wide-area infrastructure development declines
dramatically.
This path will be blazed by new energy storage technologies
soon to be introduced. Such technologies will remove the alleged permanent
barriers of irregular wind and solar radiation patterns using electrostatic
storage (super condensers), electro-mechanics (flywheels, compressed air),
electrodynamics (supraconducting magnets) or thermal storage with the assistance
of metal hydrides. Energetically self-sufficient residential subdivisions
and businesses supplied continuously by photovoltaic current or wind power
alone will no longer be utopian. Hybrid systems with alternating complementary
power plants (like wind power and biomass generators) are other variations.
The elimination of ongoing fuel costs (except for bio-energy) and the power
transmission expenses that make up the greatest part of the present electricity
price would constitute a milestone development. The entire energy system
including current modes of Renewable Energy employment would thereby be
revolutionized.
Fossil fuel and nuclear costs will inevitably rise
while Renewable Energy becomes continuously cheaper due to series production
and technological optimization. In the last ten years, wind power costs
have fallen by 50 percent and photovoltaics around 30 percent. Today's
higher costs are the cost savings of tomorrow.
Renewable Energy is also the answer to imminent
crude oil and natural gas shortages affecting fuel and heating needs. Meanwhile,
it is the official consensus at DaimlerChrysler, Volkswagen and Ford that
biosynthetic fuels or bio-ethanol, bio-diesel and bio-gas can be introduced
more cheaply and quickly than hydrogen produced from nuclear power, for
which a costly new infrastructure would be necessary. The available potential
could satisfy the fuel needs of the world as declared at the world biomass
conference in Rome in May 2004. Energy-efficient solar construction would
supply complete houses with heating and cooling energy. In Germany, there
are already 3000 houses that do not require external energy sources. The
Reichstag in Berlin is supplied with 85 percent Renewable Energy.
The time has come to bypass structural-conservative
blindness and faint-hearted technological pessimism toward Renewable Energy.
Renewables must be ambitiously explored and promoted in politics, science
and technology as nuclear power was once supported. The combined technological
and economic optimization of Renewable Energy will be easier to realize
than for nuclear power, while avoiding its incalculable risks. The future
age of nuclear/fossil energy should be relegated to technological museums
-- the sooner the better.
About the Author...
Dr. Hermann Scheer is General Chairman of the World
Council for Renewable Energy (WCRE). Recipient of the First World Solar
Prize by the 2nd World Conference on Photovoltaic Solar Energy Conversion
in Vienna, 1998. Recipient of the Alternative Nobel Prize in Stockholm,1999.
Recipient of the World Prize on Bio-Energy by the 1st World Conference
on Biomass in Sevilla, 2000. Member of the German Parliament since 1980
and member of the Parliamentary Assembly of the Council of Europa since
1987. Since 1988 President of the European Association for Renewable Energies
EUROSOLAR. University studies in Heidelberg and Berlin, PhD at FU Berlin,
Dr. h.c. of Technical University Varna, Bulgaria.
