Reflections on the 2015 Future of Nuclear Conference

On Tuesday, November 10th, experts, leaders, and academics from a range of disciplines joined together for the Future of Nuclear 2015 conference. The conference, organized by Mindfirst Inc., focused on the topic of decommissioning and dealing with the various scientific and social dimensions of the nuclear power life-cycle.

While we can’t address every topic or idea discussed during the conference in this short review, we want to focus on a just a few key takeaways and impressions of the event.

When Dialogue is More Than Mere Discussion

Perhaps the most important theme explored by our speakers and guests was that of community engagement and public relations. It is an obvious point, perhaps, that the communities directly impacted by nuclear energy operations should have a say in the plans of industry. But, it is worth bearing in mind the various forms that consultation can take. At one level, we can think about the required environmental and local consultations that take place. These are, without a doubt, necessary for the development of new plants, the decommissioning of old ones, and the building of waste handling facilities.

However, at another level, we have a closer, more intertwined relationship between all of the parties impacted by the nuclear power life-cycle. This represents, in short, a more respectful and sympathetic level of engagement. We learned that many parties involved in discussions should not simply be deemed “stakeholders” – a phrase so often used in business that it often begins to lose meaning. Rather, many hold deep and complex emotions and ideas relating to the complex plans of industry. We are talking about First Nation people, employees, local residents, and others.

It is therefore incumbent that whenever a project is proposed, a schematic drawn, or a debate waged – that all parties communicate not from a position of distrust and cynicism, but from one of mutual and earned respect. These are not new lessons, in fact many signs point to this new approach already being taken in industry planning today, but they are lessons we must return to and remind ourselves of frequently.

They Blinded Me with Science

The second major theme of the conference related to the use and understanding of scientific knowledge relating to radiation. Indeed, ideas about radiation – whether fact or folk – are inexorably tied to the debates surrounding nuclear energy development and decommissioning. Over the last century, we have learned a great deal about radiation. We learned about the constant level of radiation that surrounds us, the possible curative and diagnostic uses of radiation in medicine, and, yes, about its tremendous potential to produce energy for good and for ill.

Those within the industry and scientists who are experts in nuclear technologies know well the myths that surround their work. Many people think first of Bruce Banner and the Hulk when they hear the word radiation. Or, they may immediately turn to thoughts of Fukushima, Chernobyl, or Three Mile Island. As experts and insiders have noted, it is often difficult to contextualize or dispel these impressions and intuitions.

A quote often attributed to Arnold H Glasow observes that: the fewer the facts, the stronger the opinion. The question is, can more facts weaken opinions, or change them? This question is too thorny, and too tangential, to review here. But, what we can say for now is that many years of study and fact finding has lead to a great deal of information on nuclear energy and it’s effects on humans, the environment, and the economy. However, that wealth has not always been enjoyed by the public as world events, war, and periodic disaster has intervened to obfuscate the scientific, big-t “Truth” (which is itself a moving, fluid reflection of current knowledge and research) with many varied and thorny small-t truths.

How does industry and science overcome this? That remains an open question. But discussion, education, and engagement is a start and we hope that the conference played a role in just that.

Conclusions and Next Steps

It is a joke in academia that every paper ends with a call for more research. While indeed funny, this trope signals a larger principle at play in all scientific, academic, and industry work. We are constantly making and remaking history. As many speakers noted, we have a duty to not only deal with the mistakes and decisions of the past but to plan for the future. No one knows for sure what the next chapter may bring for nuclear energy, but we cannot wait to let it be written in haste decades from now.

Technologies and ideas exist to deal with nuclear waste, to recycle and safely store it, to harness it for good and prevent it from being used for bad. Nothing is 100% certain or foolproof, no reasonable person believes that. We are constantly in a process of perfecting processes, ideas, and technologies. But often, we must make a decision to go forward with projects after we’ve collected all the evidence and studied every facet that we can. We do so while remaining flexible and open to change. That is the most sensible way. 

The story of the future of nuclear remains to be told, but we can be sure that the people who joined us Tuesday are going to be part of that story and we hope that wherever you, our readers, may be, that you too may be able to help guide the way.

News in Depth: Visualizing Public Opinion on Nuclear Energy

Development of nuclear power can be said to be just as much a public relations problem as it is an engineering one. This, of course, is not news to any government, company, or organization involved in nuclear energy projects. However, what is often missing in discussions is a long-term view supported by hard public opinion data.

Kathleen Weldon, Research Coordinator for the Roper Center for Public Opinion, recently wrote an article in the Huffington Post covering just such data. Her analysis provides us with a unique example of how public opinon on nuclear energy has evolved in the US over the last half-century. In this week’s News in Depth, we explore these trends and reflect on what they mean for the industry both in US and abroad.

The Key Numbers and Trends

Weldon sets up the article with this question: “Do Americans seea nuclear plant as a devastating accident waiting to happen – or the solution to climate change?” The Roper Center’s data stretches back to 1945, when 48% of people polled said they expected atomic power to be put to general use within ten years. In 1957, another survey found that 56 percent thought it could help if used wisely.

These generally positive early numbers shifted slightly lower after the construction of the US’s first nuclear power plant in 1958, with a poll saying that 45 percent believed that the development of nuclear power is beneficial to mankind.

However, over the next few decades the Three Mile Island, Chernobyl, and Fukushima Daiichi incidents would have serious repurcussions on the public’s attitude towards nuclear power.


(Image Source: Roper Center via the Huffington Post)

While the responses to the poll were still split in the 1979, right in the heart of th energy crisis, the public was increasingly weary of futher plant construction throughout the 1980s and early 1990s.

However, the broad trend throughout the late 1990s and early 2000s was for increasing support of using nuclear energy as a way to provide electricity in the US. The most recent data, from 2015, shows the lowest level of support in decades owing in part to the Fukushima Daiichi incident in 2011.


(Image Source: Roper Center via the Huffington Post)

Analysis and Conclusions

As Weldon notes, the history and opposition to nuclear power has been defined not just by a series of accidents, but also by the industry’s role in reducing air pollution and greenhouse gas emmissions. Interestly, the story is one of the public’s misunderstanding of the role and effect of nuclear energy on the environment. She writes that

polls over the last decade have shown that most Americans do not make strong associations between nuclear energy and climate change solutions. Furthermore, 44 percent believe that nuclear plants contribute a lot or some to global warming.

That last figure is worth repeating: as of 2010, 44% of respondents believed that nuclear plants contribute to “a lot or some” to global warming.

What we see then is a disconnect between public knowledge and the reality of nuclear power. While there are definite challenges in the industry – including safety, decommisioning, and waste handling – one the clear benefits is that it is effectively a zero-carbon emmission energy source.

Thus, one of the biggest projects facing the industry and policy makers alike is one of education and public engagement. As Weldon concludes, if the “public came to associate nuclear energy closely with preventing climate change, support for nuclear would likely increase.” Such association in the public consciousness will take time, but it is a important goal and one that will make the process of development more inclusive and effective in the US and abroad.

Randall Kahgee, former Chief of Saugeen Ojibway Nation and negotiator on DGR to give Keynote at Future of Nuclear 2015

PSTBiosIndivid-RandallWe are excited to announce that Randal Kahgee, former Chief of the Saugeen Ojibway Nation, Partner at Pape, Salter Teillet LLP, and First Nations negotiator on the DGR near Kincardine, Ontario, will give the keynote speech at this year’s Future of Nuclear conference on November 10, 2015!

Kahgee served four terms as Chief of the Saugeen Ojibway Nation and is a specialist in aboriginal rights law and government-government negotiations.  He has extensive first-hand experience with negotiations between First Nations communities and federal and provincial governments on the construction of nuclear plants, transmission lines, and wind farms, and is currently involved in the negotiations on OPG’s deep geological repository, which is located on Saugeen Ojibway land.

To learn more about the conference speakers and topics, and to register to attend, click the link below:

News in Depth: Returning to Yucca Mountain

Recently, Ken Ritter of the Houston Chronicle reported on the renewed debate over the proposed nuclear waste repository at Yucca Mountain in Nevada. The Yucca mountain story stretches back decades, and Ritter’s report highlights many of the points of friction which continue to delay the project. In this week’s News in Depth, we’ll take a look at this report and the story of the proposed Yucca Mountain repository.

Background: The Yucca Mountain Story

Yucca Mountain was officially selected to be the national repository for spent-fuel and high-level radioactive waste in 2002. President George W. Bush approved the site choice, but the governor of Nevada, Kenny Guinn, then vetoed the decision. That veto was subsequently overturned by Congress.

In 2008, the US Department of Energy submitted a license application for the Yucca Mountain site. The initial plan called for a facility that could hold upwards of 77,000 tons of waste for up to 1 million years.


However, in 2011, the Obama administration cut funding for the project and, effectively, left the U.S. without a long-term storage plan for civilian nuclear waste. In response to the Obama administrations cancellation of the project, a handful of U.S. states and organizations “filed suit in the U.S. Court of Appeals for the District of Columbia Circuit asking for a writ of mandamus requiring the Nuclear Regulatory Commission (NRC) to restart licensing proceeding for Yucca Mountain.” The court granted their request, and as a result the NRC restarted the review process for the DOE’s original application.

In 2014, the NRC approved the final part of the DOE proposal. As Eli Kintisch reported at the time on the Science Insider blog,

The 781-page report concludes that the proposed site… includes “multiple barriers to isolate radioactivity from the environment” for hundreds of thousands of years, commission staff said in a statement. That should allow it to comply with standards to protect ground water and people in the distant future.

Today, the debate continues over the Yucca Mountain site. While the initial environmental assessment has largely been completed, questions still remain as to land ownership over the site and other environmental, social, and political issues. To add to the difficulty of the situation, a federal appeals court ruled two years ago now that the NRC has to either approve or reject the license application.  The process for the approval will likely take years.

The Debate Today

Ken Ritter’s recent report expands on many of the key issues related to the project. For the people quoted in the piece, the biggest issue is perhaps that of ground-water contamination. As one opponent to the project put it:

The only question to be answered is, ‘Can waste emplaced in Yucca Mountain be isolated and not contaminate groundwater?'” said Judy Treichel, an opponent since the 1980s of the project who heads an entity called the Nevada Nuclear Waste Task Force. “The answer is, ‘No.'”

However, at the article points out, “a report released in August by the NRC acknowledged a small chance of contamination, but said someone drinking two liters of groundwater a day would still not accumulate as much radiation as they do from natural and background sources.”

Overall, it seems that the fear of radiation, no matter how small of a projected risk, is fueling much of the debate. In addition, opponents highlight the logistics of transportation, construction, and maintenance, arguing that the costs are far too high.

As a 2014 New York Times piece by Matthew Wald put it, Yucca Mountain “was never described as the best place for burying nuclear waste, only an acceptable one about which a consensus could be achieved.” Is this a case of politics trumping science, as some critics argue? If we are to believe that, does it not discount the research and regulatory study that has gone in to the project? 

One potential way to reset the conversation is to think about the alternatives. If Yucca Mountain is scrapped, what’s next? This isn’t to say that alternatives should not be considered, or that the current site’s momentum is a rationale for its continued front-runner status. Rather, it’s a question of thinking about asking what is truly realistic. On balance, do the negatives outweighs the positives? And in either case, what are the next steps? Those are the questions worth answering.



News Analysis: Exploring Viewpoints on the Future of Nuclear

On September 2, the BBC World Service Inquiry programme published transcripts of four expert’s viewpoints on the future of nuclear energy technology. In this week’s News in Depth, I will discuss this article and take a critical look at the perspectives shared by the interviewees.

Four Viewpoints, One Theme

First, we hear from Tatsujiro Suzuki – Director of Research Centre for nuclear weapons abolition at Nagasaki University and former Vice-Chairman of Japan’s Atomic Energy Commission. Mr. Suzuki was Chair of the Commission at the time of the 2011 Japanese earthquake and subsequent Fukushima disaster. His recent career change – from nuclear regulatory official to nuclear critic – reflects the difficult journey Japan has faced in the last four years.

I personally felt very responsible for the event and I felt very sorry for the Fukushima people… This kind of accident has a serious social, ethical, political impact on their lives.

He is pessimistic that the people of Japan will be able to support any serious return to nuclear energy, saying that

In the public mind there was no clear connection between the peaceful use of nuclear energy and nuclear weapons… [Fukushima] is a huge, huge loss of public trust.

Next, Miranda Shreuers – a research director at the Free University in Berlin and a member of the commission to determine Germany’s nuclear policy – unequivocally states that she doesn’t believe Germany “could every again live with nuclear power.”

Gabrielle Hecht – a Professor of History at the University of Michigan – then speaks to the growth of nuclear energy in developing nations across Africa and argues that’s the path of those countries is similar to western nations in the 1950s,

The prospect of having abundant electricity in place where there are very often electricity brownouts and blackouts, and where large parts of the country are not electrified, is huge.

However, Hecht believes that new nuclear plants should not be built and that these countries should look for other solutions.

Finally, the BBC spoke with Steve Kidd – a nuclear energy consultant with East Cliff Consulting in the UK who has over over 18 years experience working for the The World Nuclear Association (WNA). While a proponent of nuclear, Mr. Kidd is pessimistic that nuclear energy can “take on that role that’s been left open for it.” His belief is that the industry’s core issue is that it has failed to communicate effectively,

The industry has tried to counter [public fear] with a factional approach, almost saying to the public, ‘you’re stupid, you’re irrational’, but in fact the development of their beliefs has been wholly rational, based on what they’ve seen and heard over the years, and something like the Fukushima accident obviously gives credence to such fears.

In summary, these four experts share a common idea: that nuclear energy as we know it faces a difficult future. For everyone but Mr. Kidd, it seems that that future is one of full decommissioning – a future in which nuclear is part of medicine and scientific study but not energy production. However, is this narrative of decline and the supremacy of fear over fact unchangeable? What, if anything can be done?

A Living Narrative

It turns out that Mr. Suzuki, quoted earlier from the BBC transcript, provides us with a useful starting point for thinking about the power of narrative and the ways in which we talk about nuclear. In March, he penned a lead essay for the East Asia Forum, in which he made the argument that the best strategy for Japan’s nuclear energy regulator and industry to regain trust is a simple one, honesty.

Transparency in policymaking is essential. The public needs to be involved in decision making… The current Japanese policy debate is completely polarized between advocates for and opponents against nuclear energy. An independent organization is required to help adjudicate between the two sides, and it needs to be one that the public can trust.

In other words, what is needed to overcome the fear, uncertainty, and doubt that surrounds nuclear energy in Japan – and arguably elsewhere – is intense, unwavering honesty and dialogue.

This leads me to forward a thesis – the nuclear energy story, or narrative, as we know it is in crisis, and the only way forward is for proponents and opponents to work together in good faith. What does this mean? It means that the narrative is not something that simply is but rather something we do. We, as individuals and as groups, shape and reshape the story of nuclear. For some, they believe that it is a story that should end. For others, myself and many of our readers included, we believe that the story is simply evolving. For some places, maybe nuclear is not the best solution. But for others, the technology may unlock vast amounts of human potential.

We must work together to find out what the story may bring next. The BBC piece that started this discussion is part of that, but of course it is but one small part of the story. The people quoted here have a viewpoint, and we can take it and build upon, but we can’t stop there. Many people, and many voices have to be involved in this messy process, but we will can continue to write this story together, one line at a time.


Save the date: Future of Nuclear 2015 Conference November 10

Mark your calendars for the third annual Future of Nuclear conference, to be held on November 10th at Torys LLP in downtown Toronto!

The Future of Nuclear conference is an annual, full-day event bringing together experts from the Canadian and global nuclear industry, nuclear regulatory bodies, and academia, for a discussion on the most current and important topics in Nuclear energy, policy, and science.

Save the date, and check in to for updates on speakers, topics, and tickets.

News in Depth: Nuclear, the Next Generation

In our continuing effort to explore what’s next for nuclear, we turn this week to the recent announcement that China will begin construction on a 600 MWe fourth generation fast neutron reactor. While details of the project are few, there is speculation that this project may be the first successful partnership between China and TerraPower, the Washington state based energy firm founded and chaired by Microsoft co-founder and philanthropist Bill Gates.

In this week’s News in Depth, we will take a look at the technology behind fourth generation fast neutron reactors, the story of TerraPower, and China’s efforts to be at the forefront of nuclear energy development and deployment.

Next Generation Technology

As the World Nuclear Association (WNA) notes, fourth generation fast neutron reactors (FNRs) have been in development for decades. As of 2010, over 400 reactor-years of operation have been logged with approximately 20 reactors in different periods. The WNA also provides a useful summary of the initial motivation behind FNR tech:

The FNR was originally conceived to burn uranium more efficiently and thus extend the world’s uranium resources – it could do this by a factor of about 60. From the outset, nuclear scientists understood that today’s reactors fuelled essentially with U-235 exploited less than one percent of the energy potentially available from uranium. Early perceptions that those uranium resources were scarce caused several countries to embark upon extensive FBR [Fast Breeder Reactor] development programs.

The technology is incredibly complex, but for reference note that

Natural uranium contains about 0.7% U-235 and 99.3% U-238. In any reactor some of the U-238 component is turned into several isotopes of plutonium during its operation. Two of these, Pu-239 and Pu-241, then undergo fission in the same way as U-235 to produce heat. In a FNR this process is optimized so that it ‘breeds’ fuel. Some U-238 is burned directly with neutron energies above 1 MeV.

TerraPower‘s Travelling Wave Reactor (TWR) leverages the knowledge gained from decades of FNR research to produce what they describe as “Generation IV, liquid sodium-cooled fast reactor.”


Image Source: TerraPower

China’s New Project

According to the WNA, China first began research FNR reactors in 1964 and, in 2003, built “a 65 MWt fast neutron reactor – the Chinese Experimental Fast Reactor (CEFR) – … near Beijing [in partnership with] Russia’s OKBM Afrikantov [and] OKB Gidropress, NIKIET and Kurchatov Institute.”

This new project is part of China’s efforts to have, according to CIAE projections, fast reactor capacity progressively increasing from 2020 to at least 200 GWe by 2050, and 1400 GWe by 2100. As noted in the opening, TerraPower’s involvement in the project is still unconfirmed, but industry and media sources seem to be coalescing around such a partnership as Gates himself recently travelled in February of this year to China to meet with “with Nur Bekri, a vice chair of China’s National Development and Reform Commission, and with China National Nuclear Corp chairman Sun Qin.”

In any event, what we are seeing here are the early stages of what looks like a new phase in nuclear technology. 4th Generation reactors – in this case, sodium FNRs – have been in development for over a decade and now we are seeing an example of one of the these new designs taking shape. Development is slow, yes, but it is happening and happening at in increasing pace in China. We can only now wait to see what comes next and, hopefully, to see confirmation that this project marks the first partnership between China and Gate’s TerraPower.


News Brief: China’s Nuclear Energy Developments

Last week, Mike Orcutt at MIT Technology Review wrote an update on China’s nuclear energy development plans.

China is rapidly moving up the global nuclear power leaderboard. Since 2012, as the traditional leaders in nuclear energy production have remained stagnant or backed off of their reliance on nuclear in the wake of Fukushima, China has added 11 new reactors and over 11 gigawatts of nuclear generating capacity.

As Orcutt notes, by the end of this year China is expected to pass South Korea and Russia to become the fourth largest producer of nuclear energy in the world. He links to an interesting infographic that highlights the differential in nuclear energy growth around the world.

graphitix860_6 copy

Image Source: MIT Technology Review

China is clearly in the lead when it comes to capacity growth, with Russia and India not far behind. However, as the infographic notes, it will be important to keep an eye on those nations that have yet to produce nuclear energy but plan to do so. As we’ve highlighted here at Future of Nuclear, those countries – and the new technologies they apply – will be interesting to watch.

News in Depth: Reflecting on the World Nuclear Industry Status Report


In this week’s News in Depth, we take a look at the World Nuclear Industry Status Report 2015, linked here (and reported on by Katherine Tweed at The Energy Collective). The report’s author’s lay out a number of statistics and cover developments in nuclear energy around the world, concluding that innovation is lacking and progress slow. We will look at some of the report’s key findings in brief here and hope that you, the readers, can voice your feedback on the report and its findings.


To start, here is a selection of key points from the report:

  • Nuclear plant construction starts plunge from fifteen in 2010 to three in 2014
  • Three quarters of all reactor construction projects worldwide are delayed. Five units have been “under construction” for over 30 years
  • The share of nuclear power in the global electricity mix is stable at about 11% (and has been for three years now)
  • Since 1997, when the Kyoto Protocol was signed, 694 TWh of wind power and 185 TWh of solar power capacity have been built. Nuclear has only added 147 TWh
  • The average age of reactors is now 28.8 years. In the U.S., one third (33) of reactors have operated for more than 40 years


Source: World Nuclear Industry Status Report 2015

Jonathon Porritt, a well known British environmentalist, wrote the forward to the report. His conclusion from the data was that any hope of a global nuclear renaissance was being eclipsed by the rapid development of decentralized renewable energy and storage technologies. In other words, the issue for nuclear in his opinion is its pace of change, or lack thereof.

As Porritt puts it,

The consistent history of innovation in the nuclear energy industry is one of periodic spasms of enthusiasm for putative breakthrough technologies, leading to the commitment of untold billions of investment dollars, followed by a slow, unfolding story of disappointment caused by intractable design and cost issues.

Porritt remains skeptical that future innovations will ever translate to effective applications for energy production (he specifically references Small Modular Reactor (SMR) technology, Generation IV reactors, and thorium technology). In the report itself, many issues relating to the real-world applications of nuclear power are highlighted. In a review of the UK Hinkley Point C project and Areva’s recent financial troubles, the report concludes that “few have started to radically adjust to new circumstances.”

Another noted issue area is that of nuclear’s centralized generation paradigm. As the report notes, nuclear is in some ways incompatible with the decentralized model of energy production that has many cost advantages and flexibility.  Amory Lovins, Chief Scientist at the Rock Mountain Institute, is quoted saying that renewables, which are in their own nature small and modular, can scale down much faster and leverage economies of scale much more effectively. In his words, “Nuclear SMRs can never catch up.”

It’s hard not to read the report, and Porritt’s forward, as a kind of epitaph for the nuclear sector. Porritt’s description of a “static, top-heavy, monstrously expensive” world of nuclear reads so negatively that the future seems bleak. However, with the report’s main points and Porritt’s view in mind, we must ask new questions. What is left unsaid in the report? What are the positive attributes of nuclear energy that are not discussed? Is the analysis of the numbers in the report biased in any way? In the end, what then is the future of nuclear?


We hope that this report can be a starting point for discussion in the industry and beyond. While experts may be familiar with many of these figures and facts, they are still new to many. As a result, this can be an opportunity to talk, reflect, and work towards a better future. Nuclear energy presents many challenges – from initial design to waste storage – and they are not solved overnight. Indeed, these things take time. Sometimes, more time than desired. But the last half-century has seen many moments of rapid progress and achievement. They are moments punctuated by stasis, yes, but it is over the long run that we see great progress.

We welcome your thoughts on these issues and many more. Here’s to what comes next.





News in Depth: Should Singapore reconsider their “no” to Nuclear?

On Friday, July 4, Peter Schwartz, business strategist and member of Singapore’s Research, Innovation and Enterprise Council, said in a panel at the Institute of Policy Studies that Singapore needs to consider turning to nuclear power as a key part of its strategy against climate change.

Mr. Schwartz, who is also a SVP at and a co-founder of the Global Business Network, framed it in the context of Singapore’s current reliance on natural gas;

You’re going to continue to need electricity, and renewables will be insufficient. You’re either going to have to continue using natural gas or move to nuclear power.

In this week’s News in Depth, we look at the current state of energy sector in Singapore and consider Mr. Schwartz’s call for the country reconsider its current stance against nuclear power.

Singapore’s Current Energy Landscape and Policy on Nuclear

As the Channel News Asia report on Mr. Schwartz’s talk explains, in 2012 the Singapore government concluded that nuclear power was not suitable for the small industrialized country, owing mainly to the safety risks. The “nuclear pre-feasibility study” – a summary is available here – provides some useful context to our analysis.

Singapore, the study notes, lacks indigenous energy resources and generates around 80% of its electricity from imported natural gas from Malaysia and Indonesia. The study also notes that renewable sources such as solar and wind can only augment the energy supply, as the country simply lacks the space for large-scale renewable installations. As a result, the country is challenged with finding a reliable energy source that can provide a stable baseload of capacity while also moving the country towards a low-carbon energy system.

The government initiated the study in response to these challenges, but the study found that “nuclear energy technologies presently available are not suitable for deployment in Singapore.” Despite the findings, the report did state the Singapore should play an active role in the future of nuclear technologies and safety. In other words, the door may be closed for now, but they did not throw away the key.

Reconsidering Nuclear Energy in Singapore

This renewed call to consider nuclear comes at a crucial time in the global energy industry. With the world’s attention this year on climate change in the lead up to the UN Convention in Paris, perhaps it is time to reconsider what may be possible in Singapore.

Mr. Schwartz argues that nuclear energy technology has advanced a great deal, and believes that nuclear power plants could be built on offshore barges, underground, or potentially on partnering island who have more space and may be willing to share in the benefits of a new nuclear power plant. These ideas echo similar stories we have previously explored. In May, we looked at Dunedin Energy Systems’ idea of deploying SMR (Small Modular Reactors) technology onboard ships in Canada’s arctic. The concept there, and here potentially, is to think of nuclear options that are smaller, safer and perhaps even mobile. In addition, in the last five years more advanced reactor technologies have increased safety and relability, take Westinghouse’s AP1000 PWR as an example.

In short, in the three years since Singapore said “no” to nuclear, the landscape has indeed shifted. Of course, policies don’t change overnight, but perhaps it is time for Singapore to once again consider nuclear and the new applications of safety and operational technology that are emerging today.