Search results
Results from the WOW.Com Content Network
Nuclear engineering is the engineering discipline concerned with designing and applying systems that utilize the energy released by nuclear processes. [ 1 ] [ 2 ] The most prominent application of nuclear engineering is the generation of electricity.
ASME NQA-1 (Nuclear Quality Assurance-1) is an industry consensus standard created and maintained by the American Society of Mechanical Engineers (ASME). [1] The latest edition was issued on July 24, 2024 (NQA-1-2024). However, the most commonly used version in the supply chain is NQA-1-2008 with the NQA-1a-2009 addendum or newer.
Nuclear Power School (NPS) is a technical school operated by the U.S. Navy in Goose Creek, South Carolina as a central part of a program that trains enlisted sailors, officers, KAPL civilians and Bettis civilians for shipboard nuclear power plant operation and maintenance of surface ships and submarines in the U.S. nuclear navy. [1]
A bachelor's degree in engineering, engineering technology, or physical science is required unless the operator has had 1 year of experience as a licensed reactor operator or 2 years of experience qualified in certain senior watch stations in the Naval Nuclear Propulsion Program (including that of a naval reactor operator).
Regulation and licensure in engineering is established by various jurisdictions of the world to encourage life, public welfare, safety, well-being, then environment and other interests of the general public [1] and to define the licensure process through which an engineer becomes licensed to practice engineering and to provide professional services and products to the public.
Nuclear engineers develop and research methods, machinery and systems concerning radiation and energy in subatomic levels. [12] They require on-site experience and a bachelor's degree in engineering. These engineers work in Nuclear Power plants and require licenses for practice while working in the power plant.
First is process engineering and management. Secondly, selecting the appropriate tools and environment for the system. This allows the system developer to effectively test the system by emulation and observe its effectiveness. Thirdly, address any legal and regulatory requirements, such as Federal Aviation Administration requirements for aviation.
Nuclear criticality safety is a field of nuclear engineering dedicated to the prevention of nuclear and radiation accidents resulting from an inadvertent, self-sustaining nuclear chain reaction. [1] Nuclear criticality safety is concerned with mitigating the consequences of a nuclear criticality accident.