Interested in a simple Skills Scan and Learning Progress Tracker tool for the Light water reactor scientist and engineer standard?
Knowledge
K1: Regulatory framework applicable to the nuclear industry
K2: Nuclear reactor failure modes and potential consequences
K3: Different modes of reactor operation
K4: Hazard identification techniques and risk evaluation techniques; the principles ALARP (as low as reasonably practicable) and BAT (best available techniques)
K5: Principles and application of deterministic fault analysis and probabilistic risk analysis
K6: Principles and application of radiological protection and effects of exposure on human health and the environment
K7: Fundamental engineering mathematics and statistical methods
K8: Reactor physics including quantitative analysis of the neutron lifecycle and consequential design of reactor systems; capabilities of models and codes
K9: Thermal hydraulics including multiphase heat transfer, critical heat flux and prediction methods; feedback coefficients and the coupling between reactor physics and thermal hydraulics; capabilities of models and codes
K10: Reactor Materials including properties and selection criteria of reactor materials; the mechanisms of corrosion and degradation and the effects of irradiation on materials including fuel
K11: Chemistry including key functions of chemistry controls on a light water reactor to maintain reactivity controls to maintain the integrity of materials and minimise radioactivity in the primary circuit
K12: Interdependencies of reactor physics, reactor materials, chemistry and thermal hydraulics on the design and operation of reactor systems
K13: Effective leadership, management and mentoring techniques including oral and written communication strategies that incorporate a working knowledge of LWR and regulatory terminology used in this occupation, for example Nuclear and Health and Safety legislation and guidance
Skills
S1: Work competently and safely in a technical nuclear environment to meet regulatory and legislative requirements
S2: Select and use appropriate models, codes, both probabilistic and deterministic, and analytical techniques
S3: Assess and make recommendations for modifications to system and component design throughout the reactor lifecycle, demonstrating the rigour required to contribute to nuclear safety cases
S4: Evaluate plant conditions under all modes of LWR operation, for example shut down, and start up, critical steady state operations
S5: Integrate design principles, hazard identification and risk evaluation techniques into maintenance, repair and modification solutions
S6: Integrate radiological protection principles into technical proposals and solutions
S7: Apply appropriate mathematical statistical methods to enable uncertainties to be clearly expressed and explained to a technical and non-technical audience
S8: Communicate effectively and professionally with all levels within and across the organisation
S9: Carry out calculations for reactor physics and thermal hydraulics
S10: Carry out chemical and radio chemical analyses
S11: Generate and lead teams, physical or virtual, to solve cross-cutting problems; acknowledge the accomplishments of others and the importance of individual contributions to overall performance
Behaviour
B1: Demonstrate reliability, integrity and respect for confidentiality on work related and personal matters
B2: Work autonomously and interact effectively within a wide, multi-disciplinary project team
B3: Understand the impact of work on others, supporting an inclusive environment
B4: Manage time effectively, being able to plan and complete work to schedule
B5: Supportive attitude to change and responds positively to change management processes
B6: Take responsibility for personal development, demonstrating commitment to learning and self- improvement and provide and receive feedback constructively
B7: A strong commitment to personal safety and understanding of the consequences as set out in the nuclear industry requirements
B8: Take responsibility for behaviours and conditions in the workplace to reinforce nuclear, radiological and conventional safety over competing goals to ensure the protection of people and the environment, including challenging unsafe behaviours and practices
B9: Compliance by following rules, procedures and principles to ensure work completed is fit for purpose, sufficiently detailed and is reviewed for accuracy and completeness
B10: Commitment to sustainability in work design and application
B11: An enthusiastic advocate for the nuclear industry with the ability to represent this industry to a variety of audiences
B12: Demonstrates appropriate leadership and management styles dependent on situation, circumstances and environment
B13: Demonstrates a strong commitment to nuclear safety and security, role modelling and sharing good practice
