About the MSc in Future Power Networks, The course content draws on our last 10 years of research expertise in the areas of power system control, economics and power electronics. From studying this degree you will gain: an understanding of operating practice, design standard and regulatory policies in the electricity supply industry, knowledge of power transmission and distribution grid operation code, competency in the advanced modelling and analysis of a large system, competency in advanced signal and data analysis, operating knowledge of commonly adopted power system simulation tools (Dig Silent, EMTDC-PSCAD, Matlab, PSSE and Power System Toolbox).
Graduates will be equipped to pursue careers that involve design, modelling, analysis and control, and the business aspects of bulk electric power supply systems. You will take four compulsory core modules four optional modules. You study for these modules in the Autumn (October-December) and Spring (January-April) terms. Modules are taught through a blend of lectures, tutorials and practical coursework. You will take written exams on the studied modules in May-June. You will also carry out an individual research project: three months part-time (January-March) and four months full-time (June-September). The project gives you the opportunity to carry out research the deepens your knowledge of an area in which you have a special interest. It also develops your report writing, presentation and time management skills. You will have an academic supervisor who will mentor you. The project is assessed by a written report and poster presentation in September.
Imperial College London, United Kingdom
About the MSc in Future Power Networks, The course content draws on our last 10 years of research expertise in the areas of power system control, economics and power electronics. From studying this degree you will gain: an understanding of operating practice, design standard and regulatory policies in the electricity supply industry, knowledge of power transmission and distribution grid operation code, competency in the advanced modelling and analysis of a large system, competency in advanced signal and data analysis, operating knowledge of commonly adopted power system simulation tools (Dig Silent, EMTDC-PSCAD, Matlab, PSSE and Power System Toolbox).
Graduates will be equipped to pursue careers that involve design, modelling, analysis and control, and the business aspects of bulk electric power supply systems. You will take four compulsory core modules four optional modules. You study for these modules in the Autumn (October-December) and Spring (January-April) terms. Modules are taught through a blend of lectures, tutorials and practical coursework. You will take written exams on the studied modules in May-June. You will also carry out an individual research project: three months part-time (January-March) and four months full-time (June-September). The project gives you the opportunity to carry out research the deepens your knowledge of an area in which you have a special interest. It also develops your report writing, presentation and time management skills. You will have an academic supervisor who will mentor you. The project is assessed by a written report and poster presentation in September.
Imperial College London, United Kingdom