How the IAEA Assists Newcomer Countries in Building Their Way to Sustainable Energy
Countries like Jordan, Poland and Turkey work with the IAEA
to develop sustainable nuclear power programmes. (Photo: Jordan Atomic
Energy Commission)
As the world anticipates the climate policies that will
unfold following the 2015 Paris Agreement and the adoption of the
Sustainable Development Goals (SDGs), more countries are likely to
include nuclear power in their national energy mixes. Newcomer States —
countries introducing nuclear power for the first time — are requesting
the IAEA’s assistance in developing the proper infrastructure to
establish safe, secure and sustainable nuclear power programmes and cope
with the challenges posed by the rise in global demand for energy and
the need to mitigate climate change.
“The potential role for nuclear energy has greatly increased since the historic adoption of the SDGs and the Paris Agreement,” said David Shropshire, Head of the IAEA’s Planning and Economic Studies Section. “The decision to use nuclear is now easier since there are only a few other large-scale, uninterrupted energy options that come with small environmental footprints.”
To address this target and the energy–climate challenge (see The energy–climate challenge), several countries are re-evaluating their energy mixes and the potential role of nuclear energy. “Instead of being recognized as just a power source to propel economies, nuclear is now linked to climate action,” Shropshire said. “Countries investing in nuclear power not only get dependable energy but also a key resource to not exceed the 2 ̊C target.”
The Polish answer
Poland, for example, plans to generate nuclear power, not only to ensure long term electricity supply and stimulate national economic growth, but also to mitigate climate change.
“Poland recognizes the importance of the Sustainable Development Goals, including the reduction of emissions of carbon dioxide and other air pollutants from the energy sector,” said Józef Sobolewski, Director of the Nuclear Energy Department at Poland’s Ministry of Energy. “Part of our strategy stipulates that introducing nuclear power — a zero-emission, clean and efficient energy source — is one of the means to achieve that reduction.” A nuclear power programme would also be a strong stimulus for the domestic research and development sector, he added.
The IAEA is an essential resource hub for newcomer States such as Poland and other countries considering nuclear power. They can access the IAEA’s energy planning tools and tap into its knowledge of nuclear power to make informed decisions about the role of this energy source in their countries.
“Once a Member State decides to use nuclear power, the IAEA can provide advice and review the development of the required infrastructure,” Shropshire said.
Reaching milestones step by step
The IAEA’s three-phase ‘Milestones approach’ facilitates the implementation of a nuclear power programme from start to finish. This includes issues for consideration by a Member State before deciding to build a nuclear power plant (NPP), the preparations involved and the construction and commissioning of the NPP. To complement this, Member States often request an Integrated Nuclear Infrastructure Review (INIR) mission, where international experts determine whether the programme is based on an effective national policy and strategy, strong management, a proper legal framework and a skilled workforce. Drawing on this review, the IAEA develops a country- specific integrated work plan to assist newcomer States in addressing gaps in their nuclear infrastructure and conducts follow-up reviews to track their progress.
Poland reached the first milestone this year after implementing the IAEA’s recommendations based on the INIR missions conducted during Phase 1 of the Milestones approach. The country aims to complete construction of the first reactor of its first NPP by 2024 and begin the construction of a second NPP by 2030. A Phase 2 INIR mission is expected to take place in 2017 to review Poland’s progress with its nuclear power programme.
Toward sustainable energy in Jordan
Among other newcomer States, Jordan included nuclear power in its national strategy to mitigate carbon emissions.
“Jordan’s energy is almost totally dependent on imported fossil fuel, which cannot be sustainable for various reasons,” said Khaled Toukan, Chairman of the Jordan Atomic Energy Commission. “The establishment
of a nuclear power plant, among other alternatives, will have a significant positive impact on Jordan from the standpoints of energy cost and reliability, national income, human infrastructure and expertise building, as well as carbon emission reduction.”
Upon Jordan’s request, the IAEA has already conducted three INIR missions since 2009 and has provided Jordan with an action plan based on an evaluation of the country’s nuclear infrastructure and the regulatory framework for nuclear and radiation safety. This year, Jordan will commission its first research and training reactor, and the IAEA will assist the country in building its capacity for future operation and effective utilization.
Nuclear power is also included in Turkey’s energy strategy to mitigate climate change, according to Turkey’s ‘Intended Nationally Determined Contributions’ report submitted under the United Nations Framework Convention on Climate Change. Through INIR missions, the IAEA has assisted Turkey in evaluating its readiness to develop a nuclear power programme. Upon Turkey’s request, IAEA experts provided recommendations for a national action plan and also reviewed the country’s draft nuclear energy laws. Turkey plans to build two NPPs with eight reactors to be operational by 2028 and to start building a third by 2023.
“The potential role for nuclear energy has greatly increased since the historic adoption of the SDGs and the Paris Agreement,” said David Shropshire, Head of the IAEA’s Planning and Economic Studies Section. “The decision to use nuclear is now easier since there are only a few other large-scale, uninterrupted energy options that come with small environmental footprints.”
Poland recognizes the importance of the Sustainable Development Goals, including the reduction of emissions of carbon dioxide and other air pollutants from the energy sector. Part of our strategy stipulates that introducing nuclear power — a zero-emission, clean and efficient energy source — is one of the means to achieve that reduction.The Paris Agreement was adopted at the Paris Climate Change Conference (COP21), at which 195 countries agreed to the first universal, legally binding agreement on climate. The Agreement confirmed the target of keeping the rise in global temperature below 2 degrees Celsius by the end of the century as compared to preindustrial times.
To address this target and the energy–climate challenge (see The energy–climate challenge), several countries are re-evaluating their energy mixes and the potential role of nuclear energy. “Instead of being recognized as just a power source to propel economies, nuclear is now linked to climate action,” Shropshire said. “Countries investing in nuclear power not only get dependable energy but also a key resource to not exceed the 2 ̊C target.”
The Polish answer
Poland, for example, plans to generate nuclear power, not only to ensure long term electricity supply and stimulate national economic growth, but also to mitigate climate change.
“Poland recognizes the importance of the Sustainable Development Goals, including the reduction of emissions of carbon dioxide and other air pollutants from the energy sector,” said Józef Sobolewski, Director of the Nuclear Energy Department at Poland’s Ministry of Energy. “Part of our strategy stipulates that introducing nuclear power — a zero-emission, clean and efficient energy source — is one of the means to achieve that reduction.” A nuclear power programme would also be a strong stimulus for the domestic research and development sector, he added.
The IAEA is an essential resource hub for newcomer States such as Poland and other countries considering nuclear power. They can access the IAEA’s energy planning tools and tap into its knowledge of nuclear power to make informed decisions about the role of this energy source in their countries.
“Once a Member State decides to use nuclear power, the IAEA can provide advice and review the development of the required infrastructure,” Shropshire said.
Reaching milestones step by step
The IAEA’s three-phase ‘Milestones approach’ facilitates the implementation of a nuclear power programme from start to finish. This includes issues for consideration by a Member State before deciding to build a nuclear power plant (NPP), the preparations involved and the construction and commissioning of the NPP. To complement this, Member States often request an Integrated Nuclear Infrastructure Review (INIR) mission, where international experts determine whether the programme is based on an effective national policy and strategy, strong management, a proper legal framework and a skilled workforce. Drawing on this review, the IAEA develops a country- specific integrated work plan to assist newcomer States in addressing gaps in their nuclear infrastructure and conducts follow-up reviews to track their progress.
Poland reached the first milestone this year after implementing the IAEA’s recommendations based on the INIR missions conducted during Phase 1 of the Milestones approach. The country aims to complete construction of the first reactor of its first NPP by 2024 and begin the construction of a second NPP by 2030. A Phase 2 INIR mission is expected to take place in 2017 to review Poland’s progress with its nuclear power programme.
Toward sustainable energy in Jordan
Among other newcomer States, Jordan included nuclear power in its national strategy to mitigate carbon emissions.
“Jordan’s energy is almost totally dependent on imported fossil fuel, which cannot be sustainable for various reasons,” said Khaled Toukan, Chairman of the Jordan Atomic Energy Commission. “The establishment
of a nuclear power plant, among other alternatives, will have a significant positive impact on Jordan from the standpoints of energy cost and reliability, national income, human infrastructure and expertise building, as well as carbon emission reduction.”
Upon Jordan’s request, the IAEA has already conducted three INIR missions since 2009 and has provided Jordan with an action plan based on an evaluation of the country’s nuclear infrastructure and the regulatory framework for nuclear and radiation safety. This year, Jordan will commission its first research and training reactor, and the IAEA will assist the country in building its capacity for future operation and effective utilization.
Nuclear power is also included in Turkey’s energy strategy to mitigate climate change, according to Turkey’s ‘Intended Nationally Determined Contributions’ report submitted under the United Nations Framework Convention on Climate Change. Through INIR missions, the IAEA has assisted Turkey in evaluating its readiness to develop a nuclear power programme. Upon Turkey’s request, IAEA experts provided recommendations for a national action plan and also reviewed the country’s draft nuclear energy laws. Turkey plans to build two NPPs with eight reactors to be operational by 2028 and to start building a third by 2023.
The energy–climate challenge
Without a major transformation of the global energy system,
greenhouse gas (GHG) emissions would severely affect the Earth’s
climate. Energy-related carbon dioxide (CO2) emissions are
projected to increase from their 2013 level by about 20% by 2040. The
dual ‘energy–climate challenge’ over the next 10 to 20 years is to
substantially increase the amount of safe, reliable and affordable
energy while drastically reducing GHG emissions.
Nuclear power is among the energy sources and technologies available today that could help meet the energy–climate challenge. Greenhouse gas emissions from nuclear power plants are negligible, and nuclear power, together with hydropower and wind-based electricity, is among the lowest GHG emitters when emissions over the entire life cycle are considered. It is projected that by 2050 electricity generated through nuclear power could help to eliminate about 3 gigatonnes of CO2 emissions per year. This projection depends in part on assumptions about the relative costs and performance of low carbon technologies.
This article was featured in the IAEA Bulletin, September 2016.
Nuclear power is among the energy sources and technologies available today that could help meet the energy–climate challenge. Greenhouse gas emissions from nuclear power plants are negligible, and nuclear power, together with hydropower and wind-based electricity, is among the lowest GHG emitters when emissions over the entire life cycle are considered. It is projected that by 2050 electricity generated through nuclear power could help to eliminate about 3 gigatonnes of CO2 emissions per year. This projection depends in part on assumptions about the relative costs and performance of low carbon technologies.
This article was featured in the IAEA Bulletin, September 2016.
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