It’s time to put nuclear on the offensive – and make it the low carbon energy generation option of choice

Published by mzconsultng on

Have you ever seen something that just amazed you? We were wowed by a recent YouTube video showing what the Chinese have achieved in turning conventional high-rise construction on its head. A 57 story building was built in 19 days – yes – 19 days! Who would ever believe this could be possible? I live in Toronto, a city that has been undergoing a huge hi-rise building boom over the last few years and the time it takes to build these tall towers can be measured in months and years, not days. This just shows what can be achieved when the imagination is let loose and innovation results in outcomes never before thought possible.

We first wrote about the importance of innovation in the nuclear sector last year. In its history nuclear power has shown incredible innovation, leading the way in a range of technologies especially with respect to delivering a level of safety and security not seen in any other industry. More recently there have been dramatic improvements in operations as the global fleet has reached a level of performance never even dreamed of in the early days of the industry. Current new build projects are using the most up to date methodology in modularization and other advanced construction techniques.

And yet when the IEA issued the 2015 version of its Energy Technology Perspectives (ETP 2105) report focusing on the need for energy technology innovation if the world is to address climate change; it doesn’t mention this innovation, nor does it include discussion of potential future innovation with respect to the nuclear option.

As stated, “Energy technology innovation is central to meeting climate mitigation goals while also supporting economic and energy security objectives. Ultimately, deploying proven, cost-effective technologies is what will make the energy system transformation possible. Continued dependence on fossil fuels and recent trends such as unexpected energy market fluctuations reinforce the role of governments, individually and collectively, to stimulate targeted action to ensure that resources are optimally aligned to accelerate progress. Establishing policy and market frameworks that support innovation and build investor confidence over the long term is a first-order task to deliver.”

The report is clear when it says that “Innovation support is crucial across the low-carbon technology spectrum”. The discussion focuses on renewable technologies in the short term due their relative readiness and lack of a need for long term investment in development; and carbon capture (CCS) in the medium to longer term even though it requires substantive investment in development as it remains essential to address the large number of fossil plants being built and still in operation by 2050 that will require decarbonizing.

As usual, the same issues that have plagued nuclear for the last 30 years; primarily public acceptance issues, mute a positive discussion for the nuclear option. While recognizing its importance in achieving increased energy security, diversity of fuel supply and lower emissions, the report goes on to state “this awareness has yet to be translated into policy support for long-term operation of the existing fleet and construction of new plants” … “to recognize the vital contribution that nuclear energy can make.”

Yet the actual IEA scenarios have changed little from last year. As shown below, when considering technologies individually (rather than grouping into “renewables”), nuclear actually plays the largest role of any single technology in meeting carbon reduction targets showing that, even as it is stands today, the nuclear option is absolutely essential to moving to the IEA 2 Degree Scenario (2DS).

ETP2015

This can only be the case if nuclear is currently meeting its responsibility to be economic and reliable while being an essential large scale low carbon option. Given that we know the largest challenges in building new nuclear plants is related to their relatively high capital costs and long project schedules relative to other options; consider the role nuclear can play if improvements similar to those demonstrated in the Chinese YouTube video were implemented. Not marginal improvements, but mind blowing changes in approach that shake current thoughts about the costs and schedules of nuclear projects to their very core. This is the way forward. While discussion of next generation plants and SMRs is of interest, we need continued innovation that takes what we know now and improves it beyond what anyone can imagine.

The report shows that government investment in nuclear R&D has been dropping and in renewables has been increasing. This investment must be refocused on project improvement and innovation rather than the traditional areas of research such as safety and waste management where it has been spent for decades. While important for the nuclear industry, too much of this spending is focused in these areas just to pander to the ongoing public beliefs that safety and waste issues remain unresolved. Rather, emphasis should be on continuing to improve new build project performance. Let’s think about new build nuclear in the same way we think about renewable technologies; that more investment and research will lead to shorter construction schedules and lower costs. It is time to let the innovation genie out of the bottle, stop being on the defensive and move forward with great things. With changes like this, the nuclear share will grow well beyond current expectations bringing a real solution to climate change while keeping electricity bills low and system reliability high.

So remember, nuclear power is essential in achieving increased energy security, diversity of fuel supply and lower emissions; and is already expected to have the largest impact on meeting climate goals of any other single technology. Today’s plants are economically competitive and provide safe and reliable electricity. Talking about investing in energy innovation without a discussion of investing in nuclear, when it’s currently the best option available, is absurd. Governments need to recognize the incredible innovation already achieved by the nuclear option, and unleash even greater potential by investing in this well proven technology.

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4 Comments

Jerry Cuttler · May 27, 2015 at 11:54 pm

Milt
I agree that innovation in the nuclear sector is very important; however, social acceptance of nuclear energy is essential. Many are afraid of exposures to radiation from potential releases of radioactive materials. The antinuclear activists, who want to phase out nuclear energy, stoke these fears, so new nuclear projects become very costly. Now is the time to understand more, so that we may fear less.
Jerry

mulp · May 29, 2015 at 12:08 am

Where is the private sector investment in nuclear.

The Solyndra deal involved twice as much private capital as government backed debt, so building nuclear plants with $2 billion of government backed debt should have $4 billion in private capital at risk.

Elon Musk has built a new rocket maker, new car company, and is building a new battery factory, but he and his private investors put up far more capital at risk as these companies and factories and projects were built than the government backed debt, which Elon Musk paid off ahead of schedule.

Musk bet everything multiple times and could have lost everything he had.

So, why won’t the nuclear power advocates willing to commit billions in capital to implement their ideas? Why can’t they convince 50 investors to put in $100 million so they have $5 billion in capital at risk so failure is not an option. Then for the construction loans on production pilot plants, it becomes reasonable to get government backing for debt.

I see conservatives saying nuclear is the future, oppose R&D in wind and solar at a fraction of past nuclear power R&D cost, and then call for massive government subsidies for nuclear, but no requirement rate payers kick in. Its clear that advocates of nuclear want a free lunch, private profit from high capital cost ventures, and taxpayer bailouts on failure so they don’t suffer any losses.

If you really believe government should subsidize corporate power generation using nuclear, then call for hikes in corporate taxes to create the revenue to provide for corporate welfare or for government central planning of industrial policy.

James Greenidge · May 29, 2015 at 7:56 am

Seems to me that if global warming is such a drior environmental emergency for us all, we’d spare no expense exploiting the purest cleanest environmentally (and aesthetically with sacrificing natural heritages) lowest proven mortality nil-footprint energy resource that we can. Nuclear delivers but the people have to KNOW it to accept it — not from info bottled in blogs but out in mass media! It harkens that scene in Dr. Strangelove where Strangelove is chiding the Russian ambassador about Russia keeping the Doomsday Machine a _secret_ when in order for its deterrence effect to work you have to tell the world!

James Greenidge
Queens NY

Steve Aplin · June 3, 2015 at 8:38 am

Milt, nice work. Our (Ontario’s) history suggests that by adding new nuclear generators we could within a decade or so completely de-carbonize our power system. Those who point to the alleged drop in demand for electricity as a disincentive to such a proposal should think of the massive additional carbon reductions achievable by encouraging — through affordable electricity — a switch to electric space heating in this province.

As you know, provincial policy has been exactly the opposite. We’ve been encouraging gasification of space heating. As the most efficient gas heat comes with nearly 200 grams of CO2 per kilowatt-hour, and as Ontario electricity comes with less than 50 grams per kWh, the cleaner choice obviously is electricity. We need to bring back “Live better electrically.”

The IEA, in the chart shown above, demonstrates “inside the box” thinking by suggesting such low (2 percent!) potential carbon reductions via fuel switching and efficiency. The idea should be aggressive electrification of current fossil-fueled processes, while concurrently de-carbonizing electricity. Space heating is one example, but transportation is the real White Whale of electrification. Only nuclear can catch that whale.

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