Augusta Technical College recently announced a formal Agreement of Understanding with Georgia Power and Savannah River Site management and operating contractor Savannah River Nuclear Solutions (SRNS) in support of the College’s Nuclear Engineering Technology Program. The agreement recognizes SRNS as an industry partner, which means the contractor will collaborate on developing curriculum, support outreach efforts to students and participate on advisory councils.
More than 75 students have graduated since the program began admitting students in the Fall of 2010, and most are currently working at Georgia Power’s Plant Vogtle or at the Savannah River Site.
The Engineering Technology programs at Augusta Technical College are high-tech, associate degree programs that prepare graduates for careers in plant maintenance and operations at commercial nuclear facilities, Department of Energy nuclear facilities such as those at SRS, and other related nuclear support companies. These robust programs span three technical areas to include electrical, mechanical and nuclear specific courses.
About the photo: Jeff Gasser, Site Manager, Plant Vogtle (left), joins Dr. Rick Hall, Vice President of Academic Affairs, Augusta Technical College and Carol Johnson, Savannah River Nuclear Solutions President & CEO, to sign an Agreement of Understanding, creating a mutually beneficial partnership to support the nuclear industry throughout the region.
Los Alamos National Laboratory scientist Jaqueline L. Kiplinger has been selected as the 2015 recipient of the F. Albert Cotton Award in Synthetic Inorganic Chemistry, sponsored by the F. Albert Cotton Endowment Fund.
Kiplinger was honored for her work in establishing synthetic routes to novel uranium and thorium compounds that have opened new frontiers in understanding the nature of bonding and reactivity in actinides. The award recognizes outstanding synthetic accomplishment in the field of inorganic chemistry. A formal announcement of the names of the 2015 ACS National Award Recipients is in the August 11 issue of Chemical & Engineering News. The American Chemical Society will present Kiplinger with the award at the Society’s 249th ACS National Meeting in Denver, Colo., next spring.
Rebecca Chamberlin and Donivan Porterfield, both of Los Alamos National Laboratory’s (LANL) Actinide Analytical Chemistry group, have been selected as 2014 Fellows of the American Chemical Society (ACS).
A specialist in inorganic chemistry and radiochemistry, Chamberlin is currently the co-principal investigator for the development of novel microreactor-based systems for plutonium process chemistry and one-step extraction and separation of rare earths at LANL. She is also managing the startup of newly-constructed nuclear material analysis laboratories in the Radiological Laboratory Utility and Office Building.
Porterfield is a radiochemist engaged in research and development and analytical services supporting stockpile stewardship and nuclear forensics and nonproliferation. His work includes plutonium heat source fabrication for deep space exploration and national security applications, nuclear material safeguards, radiobioassay, environmental monitoring and more.
Madelyn Creedon was sworn in today by Secretary of Energy Ernest Moniz as the Department of Energy’s (DOE) Principal Deputy Administrator for the National Nuclear Security Administration (NNSA).
As NNSA’s Principal Deputy Administrator, Ms. Creedon will support NNSA Administrator Frank Klotz in the management and operation of the NNSA, as well as policy matters across the DOE and NNSA enterprise in support of President Obama’s nuclear security agenda.
Ms. Creedon most recently served as the Assistant Secretary of Defense for Global Strategic Affairs at the Department of Defense (DoD), overseeing policy development and execution in the areas of countering Weapons of Mass Destruction, U.S. nuclear forces and missile defense, and DoD cybersecurity and space issues. She was confirmed to serve in this position by the Senate in August 2011.
For further background, the NNSA press release on her confirmation can be found here.
John Edwards, associate program director for inertial confinement fusion and high energy density science and the ICF program leader at Lawrence Livermore National Laboratory, has received the Leadership Award from Fusion Power Associates Board of Directors.
Edwards was recognized for several scientific contributions to inertial confinement fusion and high energy density plasma physics, as well as for his guidance in research efforts. Of particular note was his leadership "of the scientific program on the National Ignition Facility (NIF) for both high energy density physics and for the eventual achievement of ignition leading toward a commercial fusion power source."
NNSA recently participated in the inaugural Nationwide RadResponder Drill conducted by the Conference of Radiation Control Program Directors. The drill involved more than 200 participants from 38 states, including NNSA’s Consequence Management Home Team and Radiological Assistance Program responders from six of the nine DOE regions. More than 21,000 environmental radiation measurements were collected and validated during this one-day drill .
The RadResponder Network is a mobile, cloud-based radiation data collection system that provides federal and state, local, tribal, and territorial response teams and leadership with a standardized service for managing, organizing, analyzing, and mapping radiation data. The Network is built on the experiences and lessons learned from the Fukushima Daiichi reactor emergency that revealed the need for a coordinated effort across all levels of government when responding to a catastrophic incident. This capability uses data management technology initially developed by NNSA and subsequently extended to state and local responders by FEMA. One of the goals of the drill was to help fully and quickly engage the state and local trained radiation specialists. The ability to collect more timely information for incident commanders is essential to not only save lives and stabilize a radiological event, but also to make better use of support resources.
About the graphic:
During the drill, participants collected 21,835, radiation measurements, 200 field samples, and recorded 132 observations. During the drill, measurements were collected using handheld meters, stationary monitoring systems, and soil and water samples.
Douglas Dearolph, acting NNSA Associate Administrator and Chief for Defense Nuclear Security, presented Nevada Field Office employee Susan Christian-Payne with the Bradley A. Peterson Professional of the Year award yesterday.
The award recognizes employees whose contributions to NNSA security programs serve as models for excellence and commitment to the NNSA mission.
This week, NNSA's Office of Acquisition and Project Management hosted a training at the National Training Center in Albuquerque to improve NNSA’s capability to plan and deliver safe, quality construction on budget.
APM's Corporate Project Management program is providing the training, processes, tools, and technology to develop and sustain a Federal workforce capable of managing design and construction contracts for capital asset projects. The tools and trainings include, but are not limited to, the use of project management handbooks, Standard Operating Practices, firm-fixed price contracts, support service contracts, strategic Federal alliances, and an interactive web-based tool for implementing, managing, monitoring, and approving project configuration processes throughout project lifecycle.
NNSA has already made significant investments to strengthen project management through highly qualified, accountable, and responsible federal project directors (FPDs). NNSA is ensuring that as the project progresses from planning to design to construction, the FPDs have the appropriate training, experience, and certification level to successfully execute the project. FPDs must have a sound understanding of the Federal Acquisition Regulations and have a broad knowledge base in order to communicate performance expectations with NNSA’s contracting officers and contractors. NNSA has demonstrated project cost and schedule goals can be achieved, even with the most complex projects, when clear expectations are set, the Federal and contractor site and headquarters teams are aligned, and all parties accept accountability for their roles in project delivery.
Over the past three years, NNSA has delivered its $725M project portfolio approximately $50M - or seven percent - under its original budget. NNSA is saving taxpayer dollars, allowing scarce resources to be reinvested back into mission. GAO and Congress have both recognized NNSA’s improvements. In February 2013, GAO removed all NNSA projects costing under $750M from the High Risk List.
“The Last of the Big Dogs” has a new home after Pantex workers recently delivered one of the few remaining B53 nuclear weapons cases to the Freedom Museum USA in Pampa, Texas.
The final B53, which received its “Big Dog” nickname from dismantlement workers due to its massive size, was dismantled at Pantex on October 25, 2011, in a historic ceremony. The B53 was the oldest, largest and most destructive nuclear weapon in the U.S. arsenal at the time it was retired.
Pantex was looking for a way to preserve the legacy of the B53 and recognize the workers who built, maintained and dismantled it. The Freedom Museum, located about 45 minutes from Pantex, volunteered to take the dismantled weapon on loan to add to its large collection of historical military artifacts.
Monica Graham, Pantex historian, said the move was an important effort to publicly display this iconic weapon that served in secret for decades, helping to ensure the safety of America.
The B53 was first put into service in 1962, a year when Cold War tensions were at their highest during the Cuban Missile Crisis. It served a critical role in the nation’s nuclear deterrent through the end of the Cold War, retiring from the active stockpile in 1997.
The B53 weighed around 10,000 pounds and was about the size of a minivan. Many B53s were dismantled in the 1980s, but a significant number remained in the U.S. arsenal until they were retired in 1997.
The B53 which was delivered this week consisted only of the outer casing of the weapon and is empty on the inside. It is one of only three such museum artifacts in the country built from a stockpile weapon. The others were assembled from training units or spare parts.
The NNSA holds a unique and important place in global nuclear science and technology. Through our laboratories and plants, our scientists conduct specialized research that is recognized internationally as among the best in the world. We should not take this for granted.
America’s National Security Strategy stresses that, “science and technology—and our ability to apply the ingenuity of our public and private sectors toward the most difficult foreign policy and security challenges of our time—will help us protect our citizens and advance U.S. national security priorities.”
That scientific ingenuity is embodied by NNSA’s workforce. Accomplishing our missions of maintaining a safe, secure and effective stockpile and being a world leader in preventing and countering nuclear proliferation and terrorism can only be accomplished with a superb technical base. This base must include resources for basic science to drive technical solutions to security challenges—both today and for decades to come.
That is why it is vitally important for us to assign the highest priority to maintaining the core scientific, technical and engineering (ST&E) capabilities of the Nation’s nuclear security enterprise. Our investment in the ST&E personnel and facilities that make this possible, as well as our commitment to attract and retain the best and brightest talent, must remain consistent and steadfast.
We will continue to emphasize the importance of science because, quite simply, our missions depend on it.
“Mission first, people always."