Operators and Instrumentation and Control Technicians have transferable skills that allow them to also build a career in vital industries such as energy generation wind, hydro, gas and oil , process operations and manufacturing.
Students working toward an Associate of Applied Science degree earn a one year certificate in Nuclear Technology upon successful completion of their first-year requirements. CBC works closely with the nuclear industry, both locally and nationally.
This includes ensuring the program offerings are consistent with the established standards for accredited utility training programs so that all graduates have the same basic knowledge necessary to be successful power plant workers. There is no room for error in the nuclear industry. These exacting standards are transferred to the education and training programs by requiring high-level competencies in math, reading and English. To be considered for CBC's Nuclear Technology program, the following placement testing results are recommended:.
Qualified applications will be evaluated for acceptance each fall. Final selection of students are made after all transcript screenings and evaluations are complete. General education courses make up a significant portion of each of the three degree tracks.
This quarter-by-quarter plan will be created based on your previous educational attainment and the requirements still necessary to complete the desired degree. Contact me! Nuclear Technology. During your studies in the Nuclear Technology program, you will learn about: nuclear power plant operating and processing facilities nuclear waste disposal laboratories radiation protection electrical operations.
The program emphasizes the instrumentation and control systems that are applicable to the nuclear industry. The program takes an innovative approach to the increasing need for a well-trained workforce as they strive to prepare the students at the technician, maintenance, and non-licensed operator levels. Beginning each summer and fall, the nuclear technology program is designed using a planned sequence of courses which meets all requirements set by the Industry of Nuclear Power Operations.
The coursework for the 67 credit program covers the theory and application principles that are related to industrial and engineering technology disciples, and also includes quality control, welding, and various metallurgical inspection procedures. Students in the program will also be able to take advantage of a cooperative work experience at a nuclear power plant. The curriculum integrates the theory and concepts of molecular imaging techniques with hands-on learning experiences.
The students have access to classrooms and laboratories fully equipped with modern nuclear medicine imaging and non-imaging equipment. Upon completion of the program, graduates are eligible for all needed certifications to enter the field as a nuclear medicine technician. Students learn in a traditional classroom setting. The collaboration between students of the technical schools results in better learning outcomes, including workplace-ready skills.
Students are encouraged to develop their technical and transferable skills since these have equal weight in professional settings. This is a two-year degree program consisting of six semesters and 62 credits. The curriculum consists of general education courses, electives, and major courses designed to equip students with industry-specific knowledge.
Students learn about nuclear systems and sources, general and radiation physics, and reactor theory and operations. Radiation safety internships are integral to student success and, thus, are required in most semesters.
Blackhawk offers an exceptional AS in Nuclear Technology program where students undergo rigorous training that prepares them for a career as nuclear technicians.
The credit hour program has a flexible format in that students can choose between online and in-person options for several classes. The specialized training emphasizes the safe and effective handling, storage, and disposal of radioactive materials. The associate degree is sufficient for entry-level jobs related to nuclear technology.
Many students go on to pursue higher education in radiation and health physics. This is also a collaborative program between Blackhawk and LTC. The classes are conducted in a traditional classroom setting or via ITV link instruction between the two technical colleges. Students should inform the school about these supervised activities, too.
Students build on their general education knowledge during advanced classes in nuclear technology, including nuclear waste disposal, radiation protection, and electrical operations. The curriculum also emphasizes reactor plant operations and equips students with the basics of nuclear math and physics.
The latter two tracks are designed for students who want transferable skills that can be used in other industries, including renewable energy generation, manufacturing, and process operations.
Students earn a certificate in nuclear technology after completing their first year of the program. Students learn under the supervision of experienced nuclear technicians and other related professionals. The internship must allow students to apply theory to practical settings and acquire practical skills. The internship component is complemented by an industry project where students also apply their knowledge in workplace settings.
Students must complete credits of an industry project. A single credit equals 33 hours in the field. Students learn from experienced instructors with extensive backgrounds in nuclear power technology and, thus, acquire basic skill sets.
Only students with current employment in the nuclear power industry can enroll in the first track. Students who have a NUPT degree from Bismarck may also complete the first track but not be awarded another degree.
While the curriculum has a heavy technical emphasis, students in non-technical positions will benefit from its training. Students have access to a specially designed full-fidelity nuclear simulator, thus, allowing them to translate theory into practice.
Apprentices without level 2 English and maths will need to achieve this level prior to taking the end-point assessment. You may re-use this information not including logos free of charge in any format or medium, under the terms of the Open Government Licence. Visit www. Search the Apprenticeship Standards Nuclear technician Nuclear technician.
Due to Covid, it has been agreed that all methods of assessment can be delivered remotely. Duration The apprenticeship will typically be 42 months to provide a balanced and comprehensive approach for work based learning and academic achievement to meet the requirements of the occupation role Level 5 O ccupational profile: A Nuclear Technician will have a good technical understanding of processes and procedures for the day to day operational requirements in nuclear facilities and will use the knowledge, skills and behaviours developed to carry out a broad range of technical, scientific and engineering tasks to operate systems and equipment safely, efficiently and in an environmentally sustainable way, meeting the requirements set out by the employer and industry regulators.
E nt r y Requirements: Employers will set their own entry requirements. O ccupational Knowledge: A Nuclear Technician must be able to know and understand: The concepts, principles and theories of engineering science relevant to the interdisciplinary fields of nuclear technology.
Relevant stakeholders, commercial and business acumen, business improvement process, project and business management techniques relevant to the nuclear industry. Science or engineering discipline knowledge to support the development of operation, maintenance and progression of technologies for example in Decommissioning e. How to engage with and support the successful outcome of nuclear projects. How to analyse and apply the results of research and information gathering to evaluate and to propose solutions to a particular nuclear technology application.
The regulatory requirements for both national and international and its relevance to the job role. The nuclear industry past, present and future and the business, political and community environment in which the company operates including personal role within the organisation, ethical practice and codes of conduct.
How to implement methods of determining the root cause of problems and demonstrating knowledge of learning from experience LFE processes. The technology, safety, environmental and economics for a variety of nuclear scenarios for example the nuclear fuels, the nuclear fuel cycle.
0コメント