Designs, develops, and analyzes components utilized in nuclear applications and nuclear non-proliferation such as reactor fuel, reactor cores, radiation shielding, and instrumentation.
Researches and develops analytical methods and technologies supporting all aspects of the nuclear fuel cycle including R&D activities related to storage, transportation, and disposal of used nuclear fuel and high-level radioactive waste and long-term performance of waste forms.
Supports nuclear regulatory work, risk-informed nuclear regulatory analysis, and probabilistic risk analysis. Addresses facility and process safety needs, principally in the area of nuclear-related construction, operation, and decommissioning.
Development and application of radioactive materials, radioactive isotopes, and radiation generating devices. Studies the effects of interactions of radiation with materials including biological effects. Researches, evaluates, and controls health hazards to permit the safe use of ionizing radiation. Investigates principles by which radiation interacts with matter and living systems.
Studies environmental levels of radioactivity and the effects of radiation on biological systems on earth and in space. Applies knowledge of radiation physics, health physics, biology, instrumentation, and computational modeling in laboratory and field settings to ensure that radiation exposure to researchers, students, industrial workers, patients, and the public is minimized and in compliance with regulations.
Develop nuclear criticality safety evaluations and program documents that meet applicable PNNL and DOE requirements and standards, utilizing nuclear criticality safety software (SCALE and MCNP) as needed.
Perform nuclear criticality safety reviews of existing and proposed facility designs and modifications; and research or processing activities involving fissionable materials.
Participate in the preparation and approval of Criticality Safety Specifications and associated Temporary Variances.
Support of Nuclear Criticality Safety Program implementation and training.
Performs hazards analysis, accident analysis, derives hazard controls, and documents the results in a nuclear facility safety basis (i.e., documented safety analysis and technical safety requirements).
BS/BA with 7 years of experience
MS/MA with 5 years of experience
PhD with 3 years of experience
Professional license and/or certification.
Welcome to the Pacific Northwest National Laboratory, located in Richland, on the sunny eastern side of Washington state. PNNL is one of the U.S. Department of Energy's (DOE's) ten national laboratories, managed by DOE's Office of Science. PNNL also performs research for other DOE offices as well as government agencies, universities, and industry to deliver breakthrough science and technology to meet today's key national needs. Our Laboratory
"provides the facilities, unique scientific equipment, and world-renowned scientists/engineers to strengthen U.S. scientific foundations for fundamental research and innovation
"prevents and counters acts of terrorism through applied research in information analysis, cyber security, and the non-proliferation of weapons of mass destruction
"increases U.S. energy capacity and reduces dependence on imported oil through research of hydrogen and biomass-based fuels
"reduces the effects of energy generation and use on the environment. PNNL currently has approximately 4,900 staff members and a business volume of more than $1.1 billion. The William R. Wiley Environmental Molecular Sciences Laboratory, a DOE Office of Science national scientific user facility, is located on PNNL's Richland campus. PNNL operates a marine research facility in Sequim, and has satellite offices in Seattle and Tacoma, Washington; Portland, Oregon; and Washington, D.C.