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| NEW NUCLEAR: Cold testing of HTR-PM reactors completed |
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Cold
functional testing was completed yesterday at the second reactor of the demonstration
high-temperature gas-cooled reactor plant (HTR-PM) at Shidaowan in China's Shandong
province. Such tests have already been completed at the plant's first unit.
The aim of the cold tests is to verify the
reactor's primary loop system and equipment as well as the strength and tightness
of its auxiliary pipelines under pressure higher than the design pressure. Those
at the first reactor of the twin-unit HTR-PM began on 6 October and were completed
on 19 October, when cold tests at the second unit were then begun.
Cold functional tests at other types of reactors
use water, while those at the HTR-PM reactor used compressed air and a small amount
of helium as the test medium. This air and helium was pressurised in stages to
a maximum pressure of 8.9 MPa during the primary loop pressure boundary strength
performance test. The leakage rate of the primary circuit was measured whilst
the pressure was maintained at 8.0MPa for more than 24 hours. At the same time,
the deformation and displacement of the primary circuit pressure vessel under
pressure was investigated, and the effectiveness of the supporting system verified.
China National Nuclear Corporation (CNNC)
said the cold testing of the "dual reactor" primary circuit system of the HTR-PM
"effectively tested the equipment manufacturing and engineering quality of the
reactor's main system and laid a solid foundation for accelerating the industrialisation
of high-temperature gas-cooled reactors".
Construction of the demonstration HTR-PM plant - which features two small
reactors that will drive a single 210 MWe turbine - began in December 2012. Helium
gas will be used as the primary circuit coolant. China Huaneng is the lead organisation
in the consortium to build the demonstration units (with a 47.5% stake), together
with CNNC subsidiary China Nuclear Engineering Corporation (CNEC) (32.5%) and
Tsinghua University's Institute of Nuclear and New Energy Technology (20%), which
is the research and development leader. Chinergy, a joint venture of Tsinghua
and CNEC, is the main contractor for the nuclear island.
The pressure vessel of the first reactor was installed
within the unit's containment building in March 2016. The vessel - about 25 metres
in height and weighing about 700 tonnes - was manufactured by Shanghai Electric
Nuclear Power Equipment. The second reactor pressure vessel was installed later
that year. The demonstration plant entered the commissioning phase on 25 July this year.
A further 18 such HTR-PM units are proposed
for the Shidaowan site. Beyond HTR-PM, China proposes a scaled-up version called
HTR-PM600, which sees one large turbine rated at 650 MWe driven by some six HTR-PM
reactor units. Feasibility studies on HTR-PM600 deployment are under way for Sanmen,
Zhejiang province; Ruijin, Jiangxi province; Xiapu and Wan'an, in Fujian province;
and Bai'an, Guangdong province. |
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| NUCLEAR POLICIES: Iranian parliament orders increase in uranium enrichment |
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The Iranian parliament yesterday approved
a bill requiring the Atomic Energy Organisation of Iran (AEOI) to produce at least
120 kg of 20% enriched uranium annually at the Fordow nuclear site, FARS
news agency reports. AEOI is required to start this process within two months
and store the enriched uranium inside the country.
On 5 January, Iran
took its latest step in reducing its commitments to the Joint Comprehensive Plan
of Action (JCPoA), and said it would no longer observe any operational limitations
on its nuclear industry, whether concerning the capacity and level of uranium
enrichment, the volume of stockpiled uranium or research and development. The
E3 - France, Germany and the UK - then triggered the JCPoA's dispute resolution mechanism.
In
June, the International Atomic Energy Agency (IAEA) adopted a resolution calling
on Iran to cooperate fully in implementing its NPT Safeguards Agreement and Additional
Protocol. In August, IAEA Director General Rafael Mariano Grossi held talks with
Ali Akbar Salehi, the head of the AEOI, as well as with President Hassan Rouhani
and Foreign Minister Javad Zarif, on access for IAEA inspectors to the country's
nuclear sites. Grossi's visit to Tehran followed the US Administration's request
to the UN Security Council to initiate the 'snapback' mechanism of the Iran nuclear
deal. This mechanism allows a party to the agreement to seek the re-imposition
against Iran of the multilateral sanctions lifted in 2015 in accordance with resolution 2231.
According
to the Iranian parliament's new bill, the AEOI must also: increase the enrichment
capacity and production of enriched uranium to at least 500 kg per month; start
the installation of centrifuges, gas injection, enrichment and storage of materials
up to "proper purity levels" within three months, via at least 1000 IR-2m centrifuges
in the underground part of Shahid Ahmadi Roshan facility in Natanz; transfer any
enrichment, research, and development operations of IR-6 centrifuges to the nuclear
site of Shahid Ali Mohammadi in Fordow; start enrichment operation via at least
164 centrifuges and expand it to 1000 by the end of 20 March, 2021 (the end of
the Iranian calendar year); and return the 40-megawatt Arak heavy water reactor
to its "pre-JCPoA condition" by reviving the calandria of the reactor within four
months from the date of the adoption of this law.
The news agency adds
that the government is required to suspend the "nuclear deal-based regulatory
access" beyond the Additional Protocol within two months after the adoption of
this law based on Articles 36 and 37 of the nuclear deal, after three months from
the adoption of this law.
If Iran's banking relations in Europe
and the amount of oil purchases by them from Iran is not "back to normal", the
government is required to stop the voluntary implementation of the Additional
Protocol. If, after three months from the adoption of this law, the nuclear deal
parties "return to fulfill their undertakings", the government is required to
submit a proposal to the parliament for Iran's "reciprocal action", the report said.
"Tehran
has so far rowed back on its nuclear commitments four times in compliance with
Articles 26 and 36 of the JCPoA, but stressed that its retaliatory measures will
be reversible as soon as Europe finds practical ways to shield the mutual trade
from the US sanctions," the report said.
"Tehran has particularly been disappointed
with the failure of the three European signatories to the JCPoA - Britain, France
and Germany - to protect its business interests under the deal after the United
States' withdrawal," it added. |
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| NEW NUCLEAR: Los Alamos spin-off to commercialise space reactors |
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Los
Alamos National Laboratory (LANL) has agreed to license Kilopower space reactor
technology to New Mexico company Space Nuclear Power Corporation (SpaceNukes),
which aims to commercialise the technology for use in space in the next few years.
Kilopower is a small, lightweight fission
power system developed at the US Department of Department of Energy's National
Nuclear Security Administration (NNSA) laboratory in partnership with NASA. The
system was successfully demonstrated in the Kilopower Reactor Using Stirling Technology
(KRUSTY) experiment, which was conducted at the NNSA's Nevada National Security
Site from November 2017 to March 2018. KRUSTY used high-enriched uranium powering
a heatpipe system and Stirling engine to generate electricity.
SpaceNukes offers low-kilowatt reactors to
power deep space missions, middle-range reactors in the tens of kilowatts to power
a habitat on the Moon or Mars, and larger reactors that could make enough propellant
for a rocket to return to Earth after a stay on Mars. The company is pursuing
opportunities with NASA for a lunar surface reactor and has presented its ideas
to the US Air Force and Space Force for reactor concepts for cislunar space.
Patrick McClure was project lead for Kilopower
at Los Alamos and is now a partner in SpaceNukes. "By creating our own company,
we're hoping to be able to reach potential new sponsors who will want to take
this technology to the next level and put it into space," he said.
McClure is listed alongside Dave Poston, who designed the reactor at Los Alamos,
as one of the inventors on the patent that forms the basis of the licensing agreement.
"This licensing agreement demonstrates how tech-transfer should work: the government
and national laboratories invest in technologies that are unproven and advance
them far enough to make them commercially viable," Poston, who is now also a partner in SpaceNukes, said.
Commercialisation of technology is a key mission of Los Alamos National Laboratory,
Jerome Garcia, acting deputy division leader for the Laboratory's Feynman Center
for Innovation said, describing the agreement as a "win" for SpaceNukes, Los Alamos, and the state of New Mexico.
"We believe our team, through NASA's private
enterprise initiatives, can deliver abundant reliable power for space missions
faster and at a much lower cost," said Poston. |
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| ENERGY & ENVIRONMENT: Polish chemicals group looks to USNC micro modular reactor |
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Synthos
Green Energy (SGE) has signed a cooperation agreement with Ultra Safe Nuclear
Corporation (USNC) to assess the feasibility of the micro modular reactor (MMR)
plant design to generate carbon-free hydrogen, heat, and power for use in SGE’s
chemical plants. SGE is part of Synthos SA Capital Group, which includes Synthos
SA, a chemical manufacturer based in Poland, with operations in the Czech Republic,
the Netherlands, and France. The aim is for the MMR Energy System to replace existing
plants that use coal or natural gas.
USNC and SGE have already jointly
applied to the Polish Ministry of Development for project financing from the IPCEI
mechanism (Important Projects of Common European Interest) for projects within
the scope of the value chain of hydrogen technologies and systems. The goal of
the joint project is the development of an economically efficient, zero-emission,
high-temperature heat and power source for the production of hydrogen on an industrial
scale. The efficiency of the cogeneration system in this process is expected to
be about 80-85%, which exceeds the efficiency of renewable energy sources in the
electrolysis process by several factors (25-30%).
"We're committed to identifying leading technologies capable of being
deployed in the near term that will enable us to lower and eventually eliminate
the carbon footprint of our manufacturing facilities and increase competitiveness
of our companies," said Michal Solowow, owner of Synthos SA Capital Group. "The
Ultra Safe Nuclear approach is uniquely suited to our needs as its MMR is exceptionally
elegant and safe, enabling us to implement our decarbonisation strategy and ultimately
make Synthos more competitive. I also firmly believe that MMR technology can be
part of broader solution for the decarbonisation of the Polish industry."
The Ultra Safe Nuclear MMR is planned for
full demonstration at the Chalk River site of the Canadian Nuclear Laboratories,
with the support of Canada's largest nuclear operator, Ontario Power Generation.
In Canada, the MMR is intended for off-grid and industrial applications, supplying
heat and power for clean and reliable energy at a lower cost.
The MMR design features the industry’s "most mature"
high-temperature gas-cooled nuclear reactor technology, SGE said, "providing a
clear path to outcompete fossil fuels for process heat utilisation and hydrogen
production". It allows for nuclear CHP cogeneration plant location directly at
customer sites and can be operated in power and heat island modes.
In addition to the built-in safety of Ultra
Safe Nuclear’s Fully Ceramic Micro-encapsulated fuel and inherently safe design
of the MMR, the cost of bringing an Ultra Safe Nuclear MMR online is projected
to be significantly lower than that of other small modular reactor concepts by
virtue of its smaller size and simpler design, SGE said. Through the use of a
molten salt heat storage unit, operation of the MMR is "simple", it said, requiring
minimal support and maintenance, with no on-site fuel storage, handling, or processing.
Francesco Venneri, CEO of USNC, said the company's
MMR and power plant can be operational "in a matter of months" after the start of construction. |
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| WASTE & RECYCLING: IAEA makes progress on decommissioning reference tool |
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Experts
from around the world met virtually last week to provide feedback for an International
Atomic Energy Agency (IAEA) initiative to catalogue and analyse the status of,
and major challenges faced by, decommissioning programmes worldwide. The Global
Status of Decommissioning project aims to complete a report by the end of next year.
The two-year IAEA project brought together 40 participants representing 20 countries
as well as the OECD Nuclear Energy Agency, the European Commission and the European
Bank for Reconstruction and Development. Gathering online for four days last week
for a technical meeting, the experts discussed decommissioning strategies and
timeframes, and foreseen challenges, including resource needs both in terms of personnel and technology.
Participants in the meeting provided extensive
feedback on the draft report, which they expect will be a useful and necessary
resource both for those with policy responsibility for decommissioning programmes,
as well as for the public and other stakeholders interested in the future management
of liabilities from nuclear activities.
Participants agreed on a range of activities aimed at completing the data
collection efforts to allow completion of the report by the end of 2021 and publication
shortly thereafter, said Patrick O'Sullivan, the IAEA Decommissioning Specialist
leading the project. The IAEA also plans to organise an international conference
on decommissioning in 2023, following its previous conference on that topic held in Madrid in 2016.
The IAEA said it sees increasing work over
the coming decades for decommissioning and associated waste management programmes.
Many of the world's 442 nuclear power reactors currently in operation will be
shut down, while new reactors to be commissioned will need plans to fund their
decommissioning. A total of 189 power reactors have been shut down for decommissioning,
with 17 of them fully decommissioned. In addition, 130 fuel cycle facilities have
been decommissioned as well as about 440 research reactors.
"The nuclear industry faces a challenge over the coming
decades to decommission scores of facilities," said Mikhail Chudakov, IAEA deputy
director general and head of the department of nuclear energy. "This multifaceted
task must be implemented in line with high standards of safety, while also being
cost effective, and address the social and environmental dimension for host communities.
This task is urgent and necessary regardless of whether or not the countries involved
plan to utilise nuclear energy again in the future."
The IAEA assists countries in efforts to plan and implement decommissioning
projects and develops related safety standards and Nuclear Energy Series publications
and other reports on technical and safety related aspects, organises meetings
of experts, collaborative projects, scientific exchanges, training courses and workshops. |
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| NEW NUCLEAR: Multinational team to develop MSR-based marine reactor |
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A
team including Core Power (UK) Ltd, Southern Company, TerraPower and Orano USA
has applied to take part in cost-share risk reduction awards under the US Department
of Energy's Advanced Reactor Demonstration Programme to build a proof-of-concept
for a medium-scale commercial-grade marine reactor based on molten salt reactor (MSR) technology.
Over the next few decades, as many as 60,000
ships must transition from combustion of fossil fuels to zero-emission propulsion,
London-based Core Power said. The United Nations International Maritime Organisation
has mandated that shipping must reduce emissions by 50% of the 2008 total, before
2050, it said, which will mean an actual emission reduction of almost 90% by that
time. MSR technology being developed by the consortium could achieve that goal,
by powering production of green sustainable fuels for smaller ships and providing
onboard electric power for large ships, "with zero emissions as standard", Core Power said.
"The implications of the MSR for transport
and industry could be transformational, as we seek to build scale-appropriate
technology and broad acceptance of modern and durable liquid-fuelled atomic power
to shape the future of how we deal with climate change", Core Power Mikal Bøe said.
The MSR can be the technology that forms the
start of "a second atomic era, where climate change is the main driver of powerful,
inexpensive, and safe new energy solutions", the company said. |
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IN OTHER NEWS:
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South Korea is considering joining
the International Atomic Energy Agency's monitoring of Japan's reported plan to
release treated water from the damaged Fukushima Daiichi nuclear power plant into
the sea, KBS World Radio has reported. In a parliamentary audit today,
Presidential Chief of Staff Noh Young-min said the Seoul government had consistently
asked Japan to transparently disclose information and maintain sufficient communication
and consultations with the international community. He said a task force set up
within the presidential office continues to monitor the issue and discuss countermeasures.
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Cameco's share of production from
the restarted Cigar Lake mine in the last quarter was 0.2 million pounds U3O8
(77tU), the Canadian company announced today, adding that it continues to target
a total share of 2020 production of up to 5.3 million pounds. Production at the
mine in northern Saskatchewan restarted in September after suspension due to the COVID-19 pandemic.
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Holtec International has begun
the NRC licensing process for its SMR-160 small modular pressurised light-water
reactor. A "kick-off" meeting was held with US NRC officials in September and
Holtec's first planned submittal - a Topical Report covering the reactor's essential
safety features - is scheduled "within a few weeks".
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Energy Fuels has announced its
first pilot-scale production of a rare earth element carbonate concentrate as
a by-product of uranium extraction from monazite sands at its White Mesa Mill
in Utah. This thought to be the first REE concentrate produced from monazite sands
in any significant quantity in North America in over 20 years, the company said,
and was recovered in addition to the contained uranium which will be sold into
the nuclear fuel industry. White Mesa is the USA's only currently operating conventional uranium mill.
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A working group has been formed
to start local engagement on whether Copeland - in western Cumbria, England -
could be a suitable location for a geological disposal facility for UK higher
activity radioactive waste. Members of the working group include an independent
chairperson, along with representatives from Radioactive Waste Management and
Copeland Borough Council. Other groups and bodies could be invited to join, including
representatives from the Cumbria Association of Local Councils. Mark Cullinan,
independent Chair of the Copeland GDF Working Group, said the infrastructure investment
potential represented by such a facility could be "transformational" for the eventual host community. | |
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