Purpose:
The Postgraduate Diploma in Industrial Physics is a qualification on National Qualifications Framework (NQF) Level 8. It seeks to enhance and deepen skills gained in qualification and thus prepare learners for careers in industrial and applied physics fields. This will be achieved through a teaching and learning programme designed to impart deep knowledge of the fundamental elements of the core of physics and selected topics in applied physics, and to strengthen and deepen not just the physics skills in learners, but transferable skills as well. Practicals performed on site and field visits to industrial partner institutions will complement the teaching and learning of the theoretical concepts introduced in lecture sessions. A holder of this qualification will be equipped with the requisite theoretical, practical and technical physics principles to ensure competence and effectiveness as a technologist in any of Photovoltaic Technology, Nanotechnology, Industrial Ventilation, Vacuum Technology and either of Photonics or the Nuclear Science and Technology disciplines. Learners will also be introduced to research methods and techniques to prepare them for further studies and careers in applied physics or closely related field.
The content of the modules that will be offered by the department will cover topics such as Photovoltaic (PV) system simulation, design and testing. These modules will equip learners with knowledge and skills that will make them marketable researchers and professionals in this exciting PV industry.
Rationale:
Industrial Physics is a term used to describe a wide spectrum of physics-based vocations in industry. Physics, due to its broad nature, finds applications in a wide range of industries in the Science, Engineering and Technology (SET) landscape. South Africa as a country is in need of skilled technologists in 'high-tech' industries such as, Photovoltaics, Nanotechnology, Photonics, Nuclear Technology, Industrial Ventilation and Vacuum Technology. The qualification aims to groom suitable learners to meet the current need for highly skilled technicians and technologists that can function independently or with minimal supervision in various occupations in SET industries. The qualification has been developed with input from industry through formal and informal discussions with representatives of different industry partners.
Global energy demands are forever growing and the past few decades have seen an ever increasing shift towards the development of (green) renewable energy sources. In South Africa there has been a notable increase in the development of renewable energy (RE) technologies. Most noticeably Photovoltaic (PV) technology has been leading the RE mix. This surge in the utilisation of PV technologies in South Africa (SA) has advanced interest into PV research and development work. Currently, the Independent Power Producers (IPPs) have relied on international organisations to provide the necessary skills and knowledge for installation and operation of PV systems. The Department of Physics at the institution has recently established collaboration with the Centre for Scientific and Industrial Research (CSIR) Energy Centre. The main aim of the collaboration is to enhance support in the development of PV technologies as well as PV system design and optimisation in SA and globally. PV technology modules in the Advanced and the Postgraduate qualifications will provide in-depth theoretical and practical knowledge to learners in solving the energy needs of the country.
Photonics is listed as a scarce skill according to the National Scarce Skills List for South Africa published by the Ministry of Labour. While a ubiquitous technology, there is a need for qualified and skilled people in the use and development of photonics in varied fields such as telecommunications, information science, medicine, construction and optical metrology. The Photonics Initiative of South Africa (PISA) has support from the Department of Science and Technology to develop a national strategy on Photonics, which should inter alia present a roadmap for the future of photonics in the country. The development of human capital is one of the key requirements for the success of this initiative. The photonics electives of the qualification aim to further deepen knowledge in Optical Design and Laser and Fibre Optics, and to impart transferable skills to learners enrolled in this elective area of study.
Nuclear Science and Technology find applications in a wide range of industries, including manufacturing, mining, energy, agriculture and health. There is a growing need for well qualified and skilled nuclear technologists in the country as the nuclear industry develops. Underpinning the use of nuclear technology, among others, is the role played by Radiation Protection Officers (RPOs). A solid foundation in nuclear science and radiation protection is a critical requirement for any practising RPO. The International Atomic Energy Agency (IAEA), the world's centre for cooperation in the nuclear field, cites the development of human capital in radiation protection and nuclear safety as particularly important. The nuclear technology electives of the qualification aim to further deepen knowledge in the physics and use of Accelerators and Nuclear Reactors as high-tech applications of nuclear science and technology, as well as to instil a heightened awareness of Radiation Protection Dosimetry practices and ethos in various contexts. Learners entering the nuclear industry with this qualification would qualify to be registered with the South African Bureau of Standards (SABS) as radiation workers.
Industrial Ventilation and Vacuum Technology may be regarded as crucial support functions in many industries. This is especially true of the mining industry where proper ventilation is of vital importance. In other fields, for example in nuclear technology applications and nanofabrication, there are many processes and measurements that can only take place in a vacuum environment. Certain optical investigations are better carried out in gases under partial pressure in photonics. It is important therefore that technologists who work with ventilation and vacuum systems in their field of practice should have a well-grounded knowledge of these systems.
The Postgraduate Diploma in Industrial Physics qualification is well-aligned with the general ethos of the institution in that it delivers a qualification that will enable industrial physics learners to further their professional/specialised qualification in industrial physics. The qualification is in line with government policies to provide the necessary professional career paths for learners to get access to higher education qualifications in science, engineering and technology. In this case the focus is on PV Technology, Photonics and Nuclear Technology.
Potential learners into this qualification will come from graduates of the Advanced Diploma in Industrial Physics qualification, as well as Bachelor of Science (BSc) Physics major's graduates who want a qualification of a professional nature, qualifying as technicians in Photonics and PV Technology, Radiation Safety and Protection Officers who want to further their discipline-specific and practical knowledge. The base of the qualification, Industrial Physics, will prepare learners for technician jobs in any of Solar Energy, Nanotechnology, Industrial Ventilation and Vacuum Technology industries. Holders of this qualification could also be absorbed by Research and Innovation institutions and companies as Research Assistants/Technicians. Learners specialising in the field of Photonics may work as Optical Instrument Technicians, Lens Coating Technicians, Optical Fibre Technicians, Laser Technicians and Optical Metrologists. Learners specialising in the field of Nuclear Technology may be employed as General Nuclear Technicians, Radiation Protection Officers, Radiation Metrologists, Waste Management Technicians, Radiation Inspectors and Contamination Risk Technicians. |
