Today the NRC announced that it would be cancelling next week's annual Regulatory Information Conference (RIC). See the official announcement below:
Introducing “Nuclear Power: Let’s Keep It Running,” a fundraiser to support students in nuclear science and technology.
To raise awareness about safe, clean, and reliable nuclear energy and enrich the experiences of students in nuclear science and technology, ANS student sections around the country will soon be hosting a first-ever 5K fundraiser.
“Nuclear Power: Let’s Keep It Running” is launching on Earth Day (April 22) and will consist of an online donation platform where student sections can form teams, organize runs, and connect to donors within their communities and throughout the country. Proceeds will support ANS student section activities and the ANS Student Program.
On February 27, Sens. Lisa Murkowski (R., Alaska) and Joe Manchin (D., W.Va.) introduced the American Energy Innovation Act (AEIA), a 555-page piece of policy legislation that incorporates over 50 energy-related bills considered and individually reported by the Senate Energy and Natural Resources Committee last year—measures sponsored or cosponsored by more than 60 senators from both sides of the aisle.
The Risk-informed, Performance-based Principles and Policy Committee (RP3C), a special committee of the ANS Standards Board, has launched a Community of Practice (CoP) to support risk-informed, performance-based (RIBP) methods in ANS standards. The CoP consists of interested professionals who can contribute to standards development priorities identified in the Standards Committee Strategic Plan and in ANS Position Statement #46, “Risk-Informed and Performance-Based Regulations for Nuclear Power Plants.”
FirstEnergy Solutions (FES) announced on February 27 that it has emerged from bankruptcy and officially taken the new name Energy Harbor Corporation. Originally the unregulated power generation arm of Akron, Ohio–based FirstEnergy Corporation, Energy Harbor remains headquartered in Akron but is no longer affiliated with FirstEnergy Corporation. The name chosen to represent the newly independent business was announced last November (NN, Jan. 2020, p. 16).
Following a comprehensive and open national consultation, the United Kingdom’s Radioactive Waste Management (RWM) organization on February 18 published its approach to evaluating possible sites in England and Wales for a deep geological disposal facility. A wholly owned subsidiary of the U.K. government’s Nuclear Decommissioning Authority, RWM will be responsible for the siting, construction, operation, and eventual closure of a disposal facility for the United Kingdom’s high- and intermediate-level radioactive waste.
In its ongoing effort to keep its criteria relevant, ABET has revised its student outcome and curriculum requirements.
ABET, originally an acronym for the Accreditation Board for Engineering and Technology, is a nonprofit, nongovernmental organization that accredits college and university programs in the disciplines of applied and natural science, computing, engineering, and engineering technology. ABET accredits degrees at the associate, bachelor’s, and master’s levels. Over the years, the organization has expanded its domestic and global accreditation presence, and it currently accredits over 4,000 programs in 32 countries.
Nuclear to see more time in the limelight. Here are seven hearings this week to keep on your radar:
International Atomic Energy Agency member states operating or having previously operated a research reactor are responsible for the safe and sustainable management of associated radioactive waste, including research reactor spent nuclear fuel (RRSNF). Management includes storage and ultimate disposal of RRSNF, or the corresponding equivalent waste generated and returned following reprocessing of the spent fuel. Currently, there are 259 research reactors operating, planned, or under construction around the world [1]. An additional 147 research reactors are in extended or permanent shutdown, or under decommissioning.
One key challenge to developing general recommendations for RRSNF management options lies in the diversity of spent fuel types, locations, and national or regional circumstances, rather than mass or volume alone, particularly since typical RRSNF inventories are relatively small. Currently, many countries lack an effective long-term strategy for managing RRSNF. Many research reactor organizations know they have responsibility for the spent fuel, however, they do not know how to decide among multiple options for its management. A methodical review and compilation of technology options for RRSNF management is needed.
Our ANS Nuclear Cafe matinee feature this week is a fascinating in-depth look at the fabrication of major components for, and the construction of, the Shippingport Atomic Power Station. In this film you’ll get to see some very interesting, rarely seen things; I will add some comments above and beyond what’s described in the film below.
Certificates commemorating 25 or 50 years of ANS membership are being delivered to the members listed below. The Gold certificate recipients are celebrating 50 years of ANS membership in 2020, having joined in 1970. The Silver certificate recipients, who joined ANS in 1995, have maintained ANS membership for 25 years.
ANS Executive Director/CEO Craig Piercy offered ANS members an update on Change Plan 2020 on February 24. If you missed the live webinar, you can visit the ANS Member Center to view it now.
Yesterday afternoon Energy Secretary Dan Brouillette testified on the proposed FY2021 DOE budget before the House Appropriations Committee's Subcommittee on Energy and Water Development (EWD). You can view the hearing here. Secretary Brouillette's next stop with the budget request will be before the Senate Energy and Natural Resources (ENR) Committee on March 3.
An updated polymer gel from Argonne National Laboratory proves to be effective in removing radioactive contaminants from a legacy site.
The gel is applied to an area (left), where it is allowed to work for two to three hours before being removed. The final activity of the cleaned area (right) was counted using HPGe and Ludlum alpha/beta radiation detectors. Photos courtesy of ANL.
Current techniques for radiological decontamination often involve debasing or demolishing structures to contain contaminated dust and haul debris away. This is a costly method of decontaminating buildings and structures. If, however, effective nondestructive methods can be found, significant savings are possible. One such method, based on new research from engineers at the Department of Energy’s Argonne National Laboratory in Lemont, Ill., is now available.
The American Nuclear Society was formally accepted as a Nuclear Innovation: Clean Energy Future (NICE Future) initiative partner organization in January, joining ten countries and 14 partner organizations to direct the global conversation about the roles nuclear energy can play in clean energy systems of the future.
The ANS Standards Committee has just published ANSI/ANS-19.6.1-2019, “Reload Startup Physics Tests for Pressurized Water Reactors” (revision of ANS-19.6.1-2011). The standard, approved December 19, 2019, provides guidance for verifying the nuclear characteristics of a commercial pressurized water reactor core following a refueling or other alteration of the reactor core for which nuclear design calculations are required. The standard provides the minimum acceptable startup physics test program, while recognizing that additional tests may be required by special design features of a particular core.
This week I had some considerable interaction on social media in the area of replacing fossil power at existing sites with micro reactors or SMR’s (Small Modular Reactors.) As we see real progress happening now in these exciting reactor fields (NuScale and Oklo come to mind first, but there are others!) I’d like to share five things to think about as we begin to seriously consider replacing fossil power (coal, oil) at particular sites with nuclear.
NextEra Energy announced on February 11 that its bid to buy South Carolina’s public utility, Santee Cooper, is the “recommended purchase proposal” following a formal bid invitation called for by the state’s General Assembly in May 2019 (NN, June 2019, p. 9). Competing with NextEra’s purchase offer is a reform plan put forward by Santee Cooper in an attempt to avoid a sale as the utility continues to grapple with the failed Summer-2 and -3 nuclear construction project and the $3.6 billion in debt incurred before the project was halted in July 2017.
A report from the South Carolina Department of Administration published on February 11 outlined the competing plans and factors that the General Assembly may want to take into consideration as it mulls the plans. A third option, a proposal by Dominion Energy to take over the management, but not the ownership, of Santee Cooper was also evaluated.
A study released by Energy Northwest on January 30 concludes that more and different electricity sources, including nuclear, will be needed to maintain energy reliability and achieve a carbon-free energy system in the state of Washington by 2045. The study used published conservation and efficiency projections and costs and examined the value of creating additional solar and wind facilities, as well as extending the operation of the Columbia nuclear power plant beyond 2043 and deploying small modular reactors.
“Completing this study is simply the first step in a much larger decision-making process,” said Brad Sawatzke, Energy Northwest’s chief executive officer. “Any decision to invest in new resources will take time and will only be done in the best interest of our member utilities, the people of Washington, and, of course, the environment.”
The Department of Energy was directed by the Nuclear Energy Innovation Capabilities Act of 2017 to establish the Advanced Reactor Demonstration (ARD) Program to stimulate commercial enterprises in advanced reactor deployment and facilitate U.S. private industry’s demonstration of several advanced reactors with the capability to achieve reliable, cost-effective, and licensable designs. The ARD program was launched on February 5 with a request for information (RFI) and notice of intent (NOI) issued by the Office of Nuclear Energy’s Office of Reactor Fleet and Advanced Reactor Deployment.