Friday, January 13, 2017

The Next Big Thing in Nuclear Power: Think Smaller & Safer

Dr. Everett Redmond
The following is a guest post by Dr. Everett Redmond, NEI's Senior Director, Policy Development.

There’s a lot to like about the small modular reactor design that NuScale Power submitted yesterday to the Nuclear Regulatory Commission. Most often people talk about the ability to build such reactors in a factory and ship them by truck or rail, in nearly-finished form, to where they are needed, and to add generating capacity to a plant in modest increments, as demand grows. But it’s easy to overlook another strength of the NuScale design: one of its intrinsic features is a simple way to enhance the safety of the reactor fuel.

There’s a fancy name for this feature: a high surface-to-volume ratio. In plain English, as a container gets smaller, its surface area gets larger relative to its volume, a phenomenon obvious to anyone who cooks. Take a hardboiled egg out of the pot of boiling water and put it into a bowl of cold water, and the egg cools very quickly. It does that because the water draws away the heat much faster than air could, and the area of the egg shell is relatively large compared to volume of the egg. Contrast this with a boiled potato that would take longer to cool because its surface area is smaller in comparison to its volume.
Cooling the NuScale SMR is like chilling a hard boiled egg.*
The NuScale module’s core is about one-twentieth the size of a standard large unit. The NuScale cores each sit in their own containment, a vessel a little like a thermos bottle. The containments are submerged in a huge pool of water. Like a thermos, the NuScale design uses a vacuum between the inner wall and the outer wall of its containment vessel, so the reactor can produce steam without heating up the surrounding water.

If there’s a problem, valves will break the vacuum and the steam from the reactor will flow into that vacuum space, and condense into water. So that space, which used to be a vacuum, and insulating layer, will become filled with water which will conduct heat away from the core. The heat will naturally travel through that water and to the outer wall of the module, and from there into the pool. The heat will bleed away fast enough so that the core can’t heat up to the point of damaging the fuel.

That principle leads to other advantages. The design is intended to be “walk-away safe,” with no short-term actions required by the operators. And existing reactors keep safety-grade backup diesel generators on site, but NuScale does not need these, because it doesn’t need the electricity to pump water or run mechanical systems to draw away heat. In fact this simple design does not use pumps when running normally to move the useful heat out of the core so it can be turned into electricity; that happens through natural convection.

Of course, an inherently safe design is always a good idea. But there’s another advantage here. The NRC has yet to evaluate NuScale’s application, but NuScale’s engineering shows that the emergency planning zone for its plant should extend only as far as the plant fence. The reactor can be located close to where electricity is needed the most.

That will make the NuScale reactor a good candidate for replacement power at old fossil-fueled sites in the United States, and in fast-growing cities around the world that do not have adequate electric local generation or a strong power grid to carry in power from distant places.

*Photo by Andrea Nguyen, provided under a Creative Commons license.

Thursday, January 12, 2017

What the Millstone Nuclear Power Plant Means to Connecticut & New England

The following is a guest post by Matt Crozat, Senior Director, Business Policy at NEI.

Matt Crozat
Occupying less than a square mile along the busy Northeast Corridor between New York and Boston, it’s easy to miss the Millstone Power Station. A new economic impact study released today by NEI documents just how important the two-unit Dominion plant is to Connecticut and the region. Indeed, if Millstone were lost it would be dearly missed.

Millstone, owned and operated by Dominion Resources, provides almost 60 percent of the electricity consumed in Connecticut, and adds nothing to the region’s air pollution. In fact, it displaces fossil-fired plants, which would pollute.

But its role is felt even more deeply when one considers the economic value the plant generates. There are 1,569 full-time employees at the plant, in Waterford, but the economic activity they create supports an additional 1,691 jobs in the state and beyond.

But Millstone’s main role isn’t to provide employment, it is to produce electricity. The Millstone Power Station generates over 17 billion kilowatt-hours of electricity annually which is enough to supply 2 million homes. This generation provides economic benefits to everyone in New England by keeping electricity prices low. Money that families aren’t spending on their power bill can be used for other goods and services that families need, and their spending helps the economy. This report estimates that Millstone provides an additional $1.6 billion in economic activity from lower electricity prices in Connecticut and New England which leads to almost 9,000 jobs across the region.

Each of the nuclear plants in the U.S. has significant economic impacts in their communities. NEI has produced economic benefits reports for Ohio, Illinois and Texas, to name a few. A longer list can be found here.

Tuesday, December 20, 2016

Diversity is Strength in Electricity

The following is a guest post from Matt Wald, senior director of policy analysis and strategic planning at NEI. Follow Matt on Twitter at @MattLWald.

It’s time, says the expert, to step back and take a look at the role of natural gas.

Electricity demand shifts up or down in a heartbeat, or considerably faster. The hardware that supplies power generally changes slowly, because power plants and transmission lines take years to plan and build. Those two considerations are balanced by an expert organization called the North American Electric Reliability Corporation. NERC looks ahead a decade and projects whether the system will have enough “reserve margin.” That is, will it be able to produce as much power as consumers will demand.

But this year NERC, as it is known, shifted gears. Yes, it raised questions about the adequacy of generating capacity in some regions in the next decade, but it also took notice of a different problem: a huge fraction of that generating capacity uses a single fuel, and that fuel is generally delivered on a just-in-time basis. And that makes the power grid vulnerable.


NERC’s 2016 Long Term Reliability Assessment focuses heavily on natural gas. Gas-fired plants can be built quickly and are relatively inexpensive, and face fewer environmental constraints than coal. They can increase or decrease production rapidly, too, which is becoming more important as intermittent renewables like wind and sun are added to the grid. And for the next few years at least, the price of natural gas is low.

One result is that in New England, by 2021 generators running on natural gas will comprise more than half the capacity required at peak periods. New England has been hit hard by pipeline congestion during cold snaps. In Florida, the figure will be 69 percent. Florida has faced supply crunches because of hurricanes.

Around the country, natural gas is supplanting coal. Each form of electricity generation has various positive attributes to take into consideration, and natural gas has many, but fuel security isn’t one of them. Mostly the fuel goes straight from the pipeline to the burner. In contrast, one of coal’s advantages is that storing enough to run the plant for the next month is easy, or even common.

As the system tilts toward gas, then a single disruption, like the loss of a storage facility or pipeline or processing plant, can jeopardize the reserve margin, FERC said. “For example, the Aliso Canyon outage in Southern California illustrates the effects of a potential single point of disruption,” said the report. “This one underground gas storage facility in SoCal Gas’ service territory contains 86 BCF of gas capacity, providing fuel to approximately 9,800 MWs of electric generation. The facility also supports ramping requirements to accommodate the variability of renewable energy resources,’’ said the report. Ramping means the ability to increase or decrease generation, which is needed to compensate for the variability of wind and sun.

NERC continued, “This outage has the potential to cause rolling black outs in Southern California until the facility is completely operational again or other mitigation approaches have been employed.”

Earlier this year, NERC warned, “The challenges faced in California represent a series of risks that have been layered into the system over the past decade.” Those included more reliance on gas, a just-in-time delivery fuel source, to meet demand and as a partner with wind and sun, because if gas plants ramp up and down, or raise and lower their output quickly, as those intermittent renewables require.

The problem is that electricity generating plants that run on natural gas quickly change their level of demand for fuel, but the gas pipeline system was not built with such fast demand swings in mind.

NERC isn’t the first to observe a growing vulnerability, but it may be the most authoritative. The organization was founded as the North American Electric Reliability Council after the 1965 blackout, which stretched from New York into Canada. After the 2003 blackout that ran from Detroit to New York, NERC changed the last word in its name to Corporation, from Council, and was designated by the federal government to police the system, setting standards of conduct for parties doing business on the high-voltage grid and imposing fines on violators. But as it did before the change into an enforcement body, NERC expends a great deal of careful effort on planning.

Fuel diversity is an odd kind of problem. It can be taken into account in areas of the country that are traditionally regulated, where a public service commission passes judgment on proposals by investor-owned utilities, about what to build and what to retire. But in areas where there is a market system for electricity, companies are paid for energy, for providing capacity, and for several obscure-but-important ancillary functions like keeping the alternating current at precisely 60 cycles, or maintaining voltage. New England has dabbled with market mechanisms that seek to compensate the owners of natural gas-fired plants for maintaining a backup supply of oil, but this has not solved the problem.

One of the benefits that nuclear plants provide is diversity. Another is fuel security; most plants are refueled once every 18 months or every 2 years. At those plants, the threat of running out of fuel is like the threat of going hungry when holding a picnic lunch in a supermarket. Everything you need for an extended period is already at hand.

New England lost one nuclear plant, Vermont Yankee, two years ago this month, and it is scheduled to lose another, Pilgrim, in 2019. Vermont Yankee was replaced mostly with natural gas. The six-state region is trying to add more wind, and more links to Canadian hydroelectricity, but yet more natural gas is likely.

Tuesday, December 13, 2016

Why Quality Assurance Programs Verify Safety of Components at U.S. Nuclear Power Plants

Pam Cowan
The following is a guest post by Pam Cowan, Vice President of Regulatory Affairs at the Nuclear Energy Institute.

Earlier today, the Wall Street Journal published a story concerning manufacturing records and forgings at AREVA’s Le Creusot forge in France. A very limited number of U.S. facilities are using components forged at Le Creusot.

After an investigation by AREVA in coordination with the affected plants, it was determined that the components were safe and met required quality standards. Additionally, the U.S. Nuclear Regulatory Commission to date has not identified any safety significance at U.S. plants, stating, “examination of the evidence, to this point, fails to raise a safety concern.”

Here's more from AREVA:
Significant progress has been made on both investigations, including the identification of components that may have been affected in the United States, and the review and verification of the quality and safety of those components.

AREVA contacted the U.S. utilities that may have had affected components and, after completing the U.S. evaluations, followed up with component status confirmations to its U.S. utility customers regarding both investigations.
U.S. nuclear plants are built and operated with a defense in depth approach that ensures plant safety is maintained at all times. When it comes to safety-related components at U.S. nuclear power plants, the industry’s quality assurance programs are rigorous all the way from manufacturing to installation and operation. These components are also routinely monitored and inspected before, during and after they’ve been installed to assure that their performance is not compromised.

Safety is our first priority, and the industry will continue to follow this issue closely.

Friday, December 09, 2016

What the Trump Administration Could Do to Help the Nuclear Energy Industry

Maria Korsnick
The Nuclear Energy Institute’s chief operating officer, Maria Korsnick, made the following statement in response to a Bloomberg News report today that President-elect Donald Trump’s advisers “are looking at ways in which the U.S. government could help nuclear power generators being forced out of the electricity market.”

“Americans will benefit immensely from the incoming administration’s focus on existing nuclear generating plants as part of maintaining and improving our nation’s critical infrastructure. Federal and state leaders must act urgently to preserve at-risk nuclear energy facilities, just like lawmakers and agency officials in Illinois and New York have done, to help achieve a stronger economy, cleaner air and enhanced energy diversity and security. Thanks to the actions taken recently in Illinois and New York, thousands of jobs have been saved and consumers will be spared the cost of replacing the carbon-free electricity generation reliably provided by nuclear power plants central to their infrastructure.

“Those tailored state solutions – welcome as they are – are only a bridging strategy to the broader electric market fixes that are needed to properly value nuclear energy’s benefits. As bitterly cold weather descends on much of the nation, it is a good time to remember that, beyond their around-the-clock generation of emission-free electricity, nuclear energy facilities ensure that electricity is available for all Americans by having their fuel supplies already on site inside the reactor core to ensure that lights stay on and homes are heated in extreme weather conditions.

Thursday, December 08, 2016

NEI CEO Marv Fertel on the Closing of Palisades Power Plant

Marv Fertel
The following statement is from NEI President and CEO Marv Fertel concerning the closing of Palisades Power Plant.

"Palisades has been churning out emissions-free electricity since the end of 1971. It provides 600 people with well-paid, year-round jobs, and it is the largest taxpayer in Van Buren County, in southwestern Michigan. It helps stabilize the grid, and provides a vital hedge against severe weather (like most of the U.S. is experiencing now) or other events with a potential to interrupt fuel supplies."

"But the market does not value the plant for providing any of those benefits. Nuclear plants are operated by corporations, with an eye on the bottom line. What is not paid for does not endure. Governor Rick Snyder called it 'a major employer and economic engine for the region.' We hope that some other source of employment will follow on that spot, on the sand dunes of Lake Michigan, and that it will be as quiet, safe and clean."

Wednesday, December 07, 2016

Gov. Bruce Rauner Signs Future Energy Jobs Bill at Quad Cities Ceremony

It's a great day in Illinois, as Gov. Bruce Rauner has signed the Future Energy Jobs bill at a ceremony at Quad Cities nuclear plant. With his signature, Gov. Rauner has helped save over 4,200 jobs at the Quad Cities and Clinton nuclear power plants. Watch the video below.

Next, the governor is headed to the Clinton nuclear power plant for a second rally. For more on how support for the bill came together, read this blog post from our Matt Wald.



How the U.S. Nuclear Industry Is Countering Cyber-Threats

Today in Vienna, the Nuclear Threat Initiative released a report on cyber security at nuclear energy facilities.

While we've yet to have the chance to review the research in depth, it's important to note that efforts to address cyber security at nuclear facilities got underway in earnest shortly after the 9-11 attacks in September 2001, when an industry task force to address the issue was formed that exists to this day. As of the end of 2012, working at the behest of the Nuclear Regulatory Commission, every U.S. nuclear plant had implemented a raft of programs to address a wide variety of cyber-threats.

So how do those programs measure up? In October 2015, the U.S. Department of Homeland Security published an unclassified version of a report that analyzed cyber security in the broader U.S. nuclear sector, including radioactive materials and waste facilities. The report concluded that the sector's programs, “combined with the industry’s exacting standards and culture of back-up safety systems, will make it extremely difficult for an external adversary to cause a radioactive release.”