Improved Capacitor Voltage Balance for Multicell Power Electronic Converters Controlled by Spectrally Optimal Modulation. There is a growing demand for high power and medium voltage energy conversion systems in a wide range of applications, including Rail, Renewable Energy, Defence and Electricity Distribution. Multicell-type multilevel converters are a very attractive means of satisfying this demand, but only if the cell voltages can be precisely regulated so as to ensure protection of the conv ....Improved Capacitor Voltage Balance for Multicell Power Electronic Converters Controlled by Spectrally Optimal Modulation. There is a growing demand for high power and medium voltage energy conversion systems in a wide range of applications, including Rail, Renewable Energy, Defence and Electricity Distribution. Multicell-type multilevel converters are a very attractive means of satisfying this demand, but only if the cell voltages can be precisely regulated so as to ensure protection of the converter while simultaneously ensuring the synthesis of switched waveforms with the required spectral quality. This project offers the potential to eliminate this barrier to the use of Multicell converter technology. In addition this project emphasises the development and training of people skilled in the design and development of this technology.Read moreRead less
Capacity Enhancement, Energy-Loss Reduction and Voltage Control for Remote Three-Phase Distribution Feeders Supplying Electrical Power to Single-Wire Earth-Return Systems. Long distribution feeders supplying electrical energy to Single-Wire Earth-Return (SWER) systems are unique sub-systems of the electric power network in Australia. The SWER systems are inherently unbalanced and use conductors with high resistance values resulting in high energy losses. The capital costs of these systems are hi ....Capacity Enhancement, Energy-Loss Reduction and Voltage Control for Remote Three-Phase Distribution Feeders Supplying Electrical Power to Single-Wire Earth-Return Systems. Long distribution feeders supplying electrical energy to Single-Wire Earth-Return (SWER) systems are unique sub-systems of the electric power network in Australia. The SWER systems are inherently unbalanced and use conductors with high resistance values resulting in high energy losses. The capital costs of these systems are high due to the low area density of loads and the systems are challenged by increasing loads. New methods will be developed for load balancing, controlling losses and improving the power quality. Comparisons will be made between the new technologies and the reconstruction or augmentation of the feeders. It is expected that substantial economic and greenhouse emission benefits will result.Read moreRead less
Optimal Control of Modular Multilevel Power Electronic Converter Systems for Electrical Distribution Networks. This project will improve the national capability to use multilevel power electronic converter systems to help operate and maintain more efficient electrical distribution networks. The outcomes of the project will also contribute to the implementation into electrical distribution systems of renewable and distributed energy generation systems, and hence will help to reduce greenhouse ga ....Optimal Control of Modular Multilevel Power Electronic Converter Systems for Electrical Distribution Networks. This project will improve the national capability to use multilevel power electronic converter systems to help operate and maintain more efficient electrical distribution networks. The outcomes of the project will also contribute to the implementation into electrical distribution systems of renewable and distributed energy generation systems, and hence will help to reduce greenhouse gas emissions. In addition, it is anticipated that the control strategies to be investigated could lead to subsequent commercial developments with local industries. Finally, the project will foster and develop international links in power electronics between Monash University, and leading-edge international research groups in the area around the world.Read moreRead less
Power system composite load modeling. Load modelling remains an open problem (and probably the most important unsolved problem) for the power industry world wide and is a priority for the research community in Australia. Without reliable load models it is impossible to perform accurate power system security assessment, which may lead to power system blackouts causing billions of dollars and hinder national security. This project aims at developing a composite load model and tackles all the up-to ....Power system composite load modeling. Load modelling remains an open problem (and probably the most important unsolved problem) for the power industry world wide and is a priority for the research community in Australia. Without reliable load models it is impossible to perform accurate power system security assessment, which may lead to power system blackouts causing billions of dollars and hinder national security. This project aims at developing a composite load model and tackles all the up-to-date most challenging problems using existing resources and expertise. It will provide one of the most valuable tools for the Australian power industry.Read moreRead less
Frequency and Voltage Stabilisation in Grid-connected Wind Farms Using Pitch-controlled Doubly Fed Induction Generators (DFIGs). Australian power systems are well developed but currently stretched to their maximum capacity and often over loaded. Development of a pitch controlled doubly-fed induction generator (DFIG) wind farm is a practical solution to extend the capacities of large interconnected power systems. This research ensures that Australian Power Systems are able to incorporate pitch-c ....Frequency and Voltage Stabilisation in Grid-connected Wind Farms Using Pitch-controlled Doubly Fed Induction Generators (DFIGs). Australian power systems are well developed but currently stretched to their maximum capacity and often over loaded. Development of a pitch controlled doubly-fed induction generator (DFIG) wind farm is a practical solution to extend the capacities of large interconnected power systems. This research ensures that Australian Power Systems are able to incorporate pitch-controlled DFIG without sacrificing operational simplicity and flexibility. It allows large scale penetration of renewable wind power into the grid, thereby reducing huge amount of green house gas emissions and delay capital expenditure on critical national assets.Read moreRead less
The development of new techniques for partial discharge monitoring and location in high voltage underground power cables. Increased utilization factors have caused a significant increase in the loading of high voltage distribution cables. This increased loading subjects cable insulation to increased stress which can degrade the insulation, cause cable failure and power loss to consumers. On-line cable insulation monitoring is required and partial discharge monitoring in cables provides a viable ....The development of new techniques for partial discharge monitoring and location in high voltage underground power cables. Increased utilization factors have caused a significant increase in the loading of high voltage distribution cables. This increased loading subjects cable insulation to increased stress which can degrade the insulation, cause cable failure and power loss to consumers. On-line cable insulation monitoring is required and partial discharge monitoring in cables provides a viable technique, but technical problems have prevented its application in on-line operation.
This project will develop techniques for such on-line monitoring. High frequency electrical sensors will be used to reduce interference and improve signal levels. Both a coarse alarm and a higher sensitivity monitor will be developed.
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Development of High Frequency and High Power Density Magnetics and its Integrated Magnetic Circuit for Solar Renewable Energy Conversion Systems. The proposed project will result in theoretical and practical contributions to the field of high frequency (HF) magnetics and computational electromagnetics based computer modelling technologies for the power converter used in solar PV systems and high power density converters. The project will provide industry with several novel HF magnetic structures ....Development of High Frequency and High Power Density Magnetics and its Integrated Magnetic Circuit for Solar Renewable Energy Conversion Systems. The proposed project will result in theoretical and practical contributions to the field of high frequency (HF) magnetics and computational electromagnetics based computer modelling technologies for the power converter used in solar PV systems and high power density converters. The project will provide industry with several novel HF magnetic structures and the associated design methodology, and an innovative technology to industry and society with following major benefits: a) increased productivity and minimization of product risk, b) faster project management cycles through the use of cost-effective new design methodology, and c) an improved problem solving environment for scientific research and commercial applications.Read moreRead less
Vegetable Oils as Dielectric Liquid for Oil Filled Distribution and Power Transformers. A new transformer cooling and insulating liquid is proposed from vegetable oil seeds available in Australia. The proposed liquid will be fully biodegradable and non-toxic and will cause no harm in the event of explosions or accidental leakage from a transformer. Approximately, 30 to 40 billion liters of oils are in use in transformers worldwide. The development of this liquid requires selection of suitable ve ....Vegetable Oils as Dielectric Liquid for Oil Filled Distribution and Power Transformers. A new transformer cooling and insulating liquid is proposed from vegetable oil seeds available in Australia. The proposed liquid will be fully biodegradable and non-toxic and will cause no harm in the event of explosions or accidental leakage from a transformer. Approximately, 30 to 40 billion liters of oils are in use in transformers worldwide. The development of this liquid requires selection of suitable vegetable oil base;thermal and oxidation stabilization; electrical performance,biodegradability,and endurance testings, viscosity and pour point improvements, compatibility tests with existing oils, and characterization of its gassing phenomena. The development of this new liquid from local oil seeds will provide the Australian industry huge export potentials. The prject will also provide Australian farmers a new avenue for their oilseed market.Read moreRead less
Emergency Control of Catastrophic Disturbances in a Power System. Following the tragic events of 11 September 2001, there are increased concerns about the security and robustness of power systems to evolving spectra of threats, such as natural disasters (e.g., earthquakes and hurricanes), equipment failure, human error, or deliberate sabotage and attack by terrorists. In this project, pattern recognition of local parameter changes in distributed monitoring systems will be used to identify any th ....Emergency Control of Catastrophic Disturbances in a Power System. Following the tragic events of 11 September 2001, there are increased concerns about the security and robustness of power systems to evolving spectra of threats, such as natural disasters (e.g., earthquakes and hurricanes), equipment failure, human error, or deliberate sabotage and attack by terrorists. In this project, pattern recognition of local parameter changes in distributed monitoring systems will be used to identify any threatened breakdown in the power system. Once identified, methods based on intelligent agents will be used to trigger the appropriate countermeasures to maintain the integrity of transmission grids.Read moreRead less
An intelligent integrated energy communication system. This multidisciplinary research project is an essential step towards transforming Australia's electricity infrastructure to become more intelligent. The real time monitoring of the power quality and energy usage will add value to the grid's operation, reducing planning and maintenance costs. Our intelligent grid technologies will contribute to the safeguarding of one of Australia's most critical infrastructures. Our technologies will contrib ....An intelligent integrated energy communication system. This multidisciplinary research project is an essential step towards transforming Australia's electricity infrastructure to become more intelligent. The real time monitoring of the power quality and energy usage will add value to the grid's operation, reducing planning and maintenance costs. Our intelligent grid technologies will contribute to the safeguarding of one of Australia's most critical infrastructures. Our technologies will contribute to the reduction of energy consumption and address environmental concerns. Training of postgraduate students in a multidisciplinary environment will create a capable new generation of researchers.Read moreRead less