Statements of the Director General
16 July 2007 | Bangkok, Thailand
6th Congress on Science and Technology for Development
Nuclear Power: An Engine for Development
by IAEA Director General Dr. Mohamed ElBaradei
Humanity today faces two urgent and daunting challenges: the pressing need for development in many parts of the world; and the desire for a more effective system of international security. What is not always understood is how these two challenges - development and security - are interlinked.
Energy is essential for development. Nearly every aspect of development - from reducing poverty to improving health care - requires reliable access to modern energy services. When these development needs remain unaddressed, the resulting misery often leads to conflicts and violence, which in turn affect development efforts and impact on regional and global stability.
In this context, it is important to consider the global energy imbalance. Roughly 1.6 billion people live without access to electricity, and 2.4 billion rely on traditional biomass because they have no access to modern fuels. I have seen this firsthand on my visits to many countries, particularly in Africa. In some African countries the per capita electricity consumption is around 50 kilowatt-hours per year. That translates to an average availability of 6 watts - less than a normal light bulb - for each person.
To put this in perspective: the developed countries that make up the Organisation for Economic Cooperation and Development (OECD), on average, consume electricity at a rate per capita of 8600 kilowatt-hours per year - roughly 170 times higher.
The expanded G8 Summit in St. Petersburg last summer emphasized the importance of "global energy security". During my participation at this summit, I emphasized, however, that in my view, global energy security means fulfilling the energy needs of all countries and peoples - including the one-quarter of our fellow human beings I just mentioned who have no access to modern energy systems.
In Thailand, electricity consumption per capita is about 2100 kilowatt-hours per year, significantly higher than most developing countries, but still below the average in developed countries. Thailand has benefited greatly from its offshore natural gas deposits. About 70 percent of Thailand´s electricity comes from natural gas, with the rest supplied by oil, coal and hydropower. But with natural gas reserves decreasing - and electricity demands forecast to continue increasing by about 7% per year for the next two decades - Thailand has begun looking at other possibilities to reduce future dependence on oil imports.
Of course, it is not only in Thailand where energy demand is expected to rise sharply. Each year, the International Energy Agency of the OECD publishes an analysis of global energy trends. According to their World Energy Outlook 2006, if current consumption trends and government policies continue, we will see a 53% increase in global energy consumption by 2030 - and 70% of the coming growth in demand will be from developing countries. The International Energy Agency has also said that the increased use of nuclear power would help to meet the increase in energy demand, enhance the security of energy supply and mitigate carbon emissions.
Naturally, nuclear energy alone is not a panacea, but it is likely in the near future to have an increasing role as part of the global energy mix. Today I would like to consider why we are witnessing a resurgence of interest in nuclear power, and then review some of the challenges that lie ahead for a country considering a nuclear power programme.
The Current Global Status
There are currently 437 nuclear power reactors in operation in 30 countries. These reactors supply about 15.2% of the world´s electricity.
To date, the use of nuclear power has been concentrated in industrialized countries. In terms of new construction, however, the pattern is different; 16 of the 30 reactors now being built are in developing countries, and most of the recent expansion has been centred in Asia. China, for example, currently has four reactors under construction, and plans a more than five-fold expansion in its nuclear generating capacity over the next 15 years. India has seven reactors under construction, and plans roughly a seven-fold increase in capacity by 2022. Japan, Pakistan and the Republic of Korea also have plans to expand their nuclear power capacity.
In the near future, we may well see additional countries in the Asia-Pacific region choosing the nuclear power option. Vietnam, intends to begin construction of its first nuclear power plant in 2015. Indonesia plans to build two 1000 megawatt reactors in central Java.
Here in Thailand, as you know, the Government´s latest 15-year Power Development Plan calls for consideration of nuclear as an energy source. Just last month, the Energy Generating Authority of Thailand announced plans to build two large nuclear plants, with construction to begin in 2015 and operation approximately six years later.
But the resurgence of interest in nuclear power is not limited to Asia. Other countries such as Turkey and Jordan are seriously considering the introduction of nuclear power programmes, and many others, such as Argentina, Bulgaria, Kazakhstan, and South Africa, are at work to expand existing programmes.
Reasons for the Renewed Interest in Nuclear Power
Energy Diversity and Energy Security
For many countries, nuclear power is a way to enhance the security and diversity of their energy supplies. This was also true in the 1970s, when concerns about energy security, triggered by disruptions in oil supply, were a major cause of nuclear expansion in countries such as Japan and France. Today, France depends on nuclear power for 78% of its electricity supply. In Japan the figure is 30%.
Energy security concerns are with us again. For some, diversifying a country’s suppliers and sources of energy is an essential buffer against fluctuations in the market prices of fossil fuels. For others, energy security concerns may be rooted in the potential instability of political relationships with large oil and natural gas producers.
Nuclear energy has an advantage in this respect. Uranium costs make up only about 5–15% of the costs of nuclear generated electricity, so fluctuations in market prices are of lesser concern. And given the relatively large number of uranium producers, ensuring a reliable supply of nuclear reactor fuel has generally not been a problem.
Carbon Emissions and Environmental Concerns
But another factor driving the interest in nuclear power is that it emits almost no greenhouse gases. The complete nuclear power chain - from mining the uranium and manufacturing the fuel to constructing and operating the reactor and disposing of the waste - emits only 1–6 grams of carbon equivalent per kilowatt-hour. This is about the same negligible emission rate as wind and hydropower and many times less than coal, oil and natural gas.
Increasing international attention is being given to the impacts of carbon emissions from fossil fuels, including pollution and climate change effects, which could lead to higher global temperatures, rising sea levels that would threaten to submerge coastal regions, prolonged droughts and more frequent violent storms. The G8 this year said it would work to bring the major greenhouse gas emitting economies into a new international emissions-reductions framework in the near future, and would consider a goal of cutting global emissions in half by 2050. Given its low emissions, nuclear power is seen by many as part of the solution.
An important factor also driving the renewed interest in nuclear power is its strong performance record. Nuclear power is a mature technology with more than half a century of operating experience. And the past two decades have seen significant improvements in nuclear power plant reliability - the percentage of time the plants are actually online producing electricity - as well as lower operating costs and a progressively improved safety record.
Key Aspects: Safety, Security, Waste and Non-Proliferation
But for nuclear power to continue to be viable as a source of energy, a number of the concerns about nuclear power will need to continue to be addressed.
First, consider nuclear safety. The Chernobyl accident in 1986 was clearly a setback to nuclear power. Many lives were lost. Thousands suffered major health impacts, and there were significant environmental and social impacts. The accident was the result of an old reactor design, compounded by gross safety mismanagement. But ironically, this event also prompted major improvements in our approach to nuclear safety.
A key change was the development of a so-called international "nuclear safety regime". International conventions were put in place, creating legally binding norms to enhance the safety of nuclear activities. The IAEA updated its body of safety standards to reflect best industry practices. And, importantly, both the IAEA and WANO, the World Association of Nuclear Operators, created international networks to conduct peer reviews and exchange operating information to improve safety performance.
The international nuclear safety regime over the years has produced many insights on how to minimize safety risks. But we should not rest on our laurels. As nuclear power technology continues to spread to new countries, as new reactor designs are developed and put to use, and as the licences of many existing plants are extended, it is essential that existing safety standards, operational practices and regulatory oversight are adapted - and in some cases strengthened - to ensure enhanced levels of safety into the future.
Nuclear security has also become a major concern in recent years. The indiscriminate attacks by extremist groups in many regions has led to the re-evaluation of security in every industrial sector, including the nuclear sector. In the past five years, the IAEA in cooperation with many nations, including Thailand, has worked on every continent to help countries better control their nuclear material and radiological sources and protect their nuclear facilities. Here, too, the international community is making good progress. While much remains to be done, nuclear installations around the world are now better protected against security risks and vulnerabilities.
Management of Spent Fuel and Disposal of High Level Radioactive Waste
The management of spent fuel and disposal of high level radioactive waste remain a challenge for the nuclear power industry. The amount of spent nuclear fuel produced annually - about 10 000 tonnes - is actually small when contrasted with the nearly 28 billion tonnes of carbon dioxide waste from fossil fuels that is released directly into the atmosphere, which, as I have noted, is the main source of climate change concerns. Experts agree that the geological disposal of high level radioactive waste is safe and technologically feasible. But public opinion will likely remain skeptical - and nuclear waste disposal will likely remain controversial - until the first geological repositories are operational and the disposal technologies fully demonstrated.
The greatest progress on deep geological disposal has been made in Finland and the United States, where disposal sites have been chosen and pre-construction work is underway. But it will still be more than a decade before the first such facility is operational. In the meantime, the trend has been to construct and use above-ground interim storage facilities, and many countries are exploring the feasibility of interim storage for 100 years or more.
At the same time that we are seeing rising expectations for nuclear power, we are equally witnessing concerns regarding the spread of nuclear weapons and of sensitive nuclear technology.
Last year´s nuclear test by the DPRK and international concern about the nature of Iran´s nuclear programme are two cases in point.
In my view, we are at a crossroads. It is essential and urgent for all parties to renew their commitments to the Nuclear Non-Proliferation Treaty (NPT). The Treaty rests on two pillars: non-proliferation and disarmament. That is, the commitment by non-nuclear weapon States party to the Treaty not to pursue nuclear weapons; and the equal commitment by nuclear-weapon States to move towards nuclear disarmament. These commitments are mutually reinforcing.
The pace of nuclear disarmament has been slow. We still have 27 000 warheads in existence. And it is becoming painfully clear that, as long as some countries place strategic reliance on nuclear weapons, other countries will be tempted to emulate them. We cannot delude ourselves into thinking otherwise.
On the nuclear non-proliferation front, the IAEA plays a central role. Under NPT safeguards agreements, we inspect countries to verify that their peaceful nuclear programmes are not used as a cloak to divert material to non-peaceful uses. But to be effective, it is essential that we are provided with the necessary authority, information, advanced technology, and resources.
As more countries industrialize, controlling the spread of technology is becoming increasingly difficult. Particularly sensitive are nuclear operations such as enrichment and spent fuel reprocessing - activities that are part of a peaceful nuclear programme, but also can be used to produce the high enriched uranium and plutonium used in nuclear weapons. Countries that have such operations are only a short step away from a nuclear weapons capability.
For some time, I have been advocating that we should consider a multinational approach to enrichment and reprocessing - to ensure that no one country has the capability to independently produce sensitive nuclear material. This would occur in two steps.
The first step would create a mechanism for the "assurance of supply" of nuclear fuel, possibly including a fuel bank to be managed by the IAEA.
For countries that use nuclear fuel for electricity generation, this mechanism would serve as a supplier of last resort, thereby removing the risk of having their fuel supply interrupted for non-commercial reasons.
The second step would seek to bring any new operations for uranium enrichment and plutonium separation under multinational control. Over time, these multinational controls would also be extended to facilities that already exist - to ensure that all countries are treated equally in terms of their nuclear capabilities.
The future of nuclear power will also be greatly impacted by technological innovation - the development of new reactor and fuel cycle technologies. As might be expected, current nuclear R&D projects are focused on enhancing nuclear safety, reducing proliferation risks, minimizing waste generation and improving economic performance.
The IAEA´s International Project on Innovative Nuclear Reactors and Fuel Cycles (INPRO) works to ensure that the future needs of all countries, in particular developing countries, are understood and taken into account when innovative nuclear systems are evaluated and developed.
Many developing countries have been particularly interested in efforts to develop small and medium-size reactor designs. These designs allow a more incremental investment than is required for a big reactor, and provide a better match to grid capacity in many developing countries. They are more easily adapted to applications such as district heating and seawater desalination. Many countries are currently working on developing new reactor designs in this size range, which may well be in high demand in the future.
Infrastructure Needs for New Nuclear Programmes
As a sophisticated technology, nuclear power requires a correspondingly sophisticated infrastructure. For new countries considering nuclear power, it is essential to ensure that the necessary infrastructure will be available. "Infrastructure" includes many components - from industrial infrastructure such as manufacturing facilities, to the legal and regulatory framework, to the institutional measures to ensure safety and security, to the necessary human and financial resources.
When it comes to new nuclear infrastructure, there are three important questions. How much and what sort of infrastructure is needed? What is the desired timing for acquiring it? And should a country develop this infrastructure domestically, or should some parts be imported or shared with other countries?
Naturally, each country must make its own decisions. The IAEA is, however, ready and able to provide expert assistance in this area if requested. Last year, when Thailand hosted an IAEA regional seminar on nuclear power development, it attracted over 400 international experts and participants from our Asian and the Pacific Member States. Many countries are also making use of our recently published guidance on Considerations to Launch a Nuclear Programme, and we are now preparing more detailed guidance on milestones for the development of a national nuclear power infastructure.
Public Perceptions of Nuclear Power
I would note one final aspect that will be important in determining the future of nuclear power. That aspect is public perception.
The public´s perception of risk has a strong influence on a country’s energy choices. As with civil aviation, bioengineering, or any other advanced technology, nuclear power does not come with absolute safety guarantees. What is important is that the risks and benefits are clearly understood.
All members of the nuclear community - scientists, operators and safety regulators - should make every effort to provide accurate and easily understood information to improve public understanding of the risks and benefits of nuclear energy. Unfortunately, misconceptions can significantly influence public acceptance of nuclear power. It is essential that the nuclear community be seen as transparent and open in its activities, to increase understanding and confidence in the safe operations of nuclear facilities.
Thailand and the IAEA: An Active Partnership
For many years, Thailand has been a strong and supportive partner of the IAEA. On the non-proliferation front, Thailand is party to the Nuclear Non-Proliferation Treaty, with a comprehensive safeguards agreement in force. In September 2005, Thailand also signed the additional protocol to its safeguards agreement. In the field of safety, Thailand is a party to the conventions on early notification and assistance in the case of an accident or radiological emergency. Thailand also participates in the Asian Nuclear Safety Network.
The IAEA has a large and active technical cooperation programme in Thailand. This technical cooperation includes many peaceful nuclear applications. For example, the IAEA has been supporting the use of the sterile insect technique to control fruit flies in the provinces of Ratchaburi and Pichit, which has paved the way for increased exports of mangoes to world markets. Last year we were also active in the health sector in Thailand, supporting training and workforce development in the use of positron emission tomography, and working to enhance the quality of radiotherapy services for the diagnosis and treatment of cancer. Several new strains of crops have been developed with IAEA cooperation - including an improved variety of soybean released last year. This year we are beginning a project in isotope hydrology, to use nuclear techniques to help assess and manage Thailand´s groundwater resources.
Thailand and the Agency have also begun work on a technical cooperation project on sustainable energy development and nuclear power, to analyse and address human resource and other infrastructure needs in support of Thailand´s plans in the energy sector.
The need to ensure adequate and reliable energy supplies is directly relevant to development, and to national and international security. As such, energy will continue to be an important part of the global agenda for the foreseeable future.
In considering nuclear power as a way of expanding its energy mix and enhancing its energy security, Thailand has much to consider. At the IAEA, we stand ready to assist you in finding the solutions that are best suited to your needs and priorities.