Overview
Background
Prof Firuz Zare is the Head of School of Electrical Engineering and Robotics and the University Chair of Gender Equity, Diversity and Inclusion in Research and STEMM Committee at Queensland University of Technology and an Honorary Professor at UQ. He was a discipline leader of Power, Energy and Control Engineering at the School of Information Technology and Electrical Engineering. He is also a Fellow of IEEE - the world’s largest association of technical professionals.
He has spent over 20 years in three main organisations - academia, industry and international standardisation committees as a leader, project manager and senior specialist. Prof Zare has team-building, management and leadership experience in emerging and multidisciplinary research and teaching activities, cross-institutional research and technology projects and national and international standardisation committees.
Prof Zare has been collaborating with several international research centres and industry in Australia, Europe, the USA and Japan in the fields of Energy Conversion Systems and Nanosecond Pulsed Power Technology. His core research areas are:
1) Advanced Power Converter Topology and Control in Grid Connected Renewable Energy, Motor Drives and Energy Storage Systems
2) Electromagnetic Interferences and Harmonics in Power Systems
3) Addressing Standardisation and Emerging Issues of Future Grids
4) Pulsed Power Systems for Bioelectrics and Industrial Applications
He has successfully initiated and established emerging cross and multidisciplinary research activities and groups in Nanosecond Pulsed Power fields since 2007. More specifically, he has published, supervised researchers, secured ARC, NHMRC and industry funds and collaborated with other disciplines in the following areas:
- Pulsed Power Technology and Modelling (Electrical Engineering)
- NOx, PM, Ozon applications (Chemical and Mechanical Engineering)
- Water and wastewater decontamination and pollutant control (Environmental Engineering)
- Milk pasteurisation and food processing (Biology, Food and Agriculture)
- Dewatering system and coal seam gas applications (Mining and Civil Engineering)
- Tissue and cell applications and modellings (Biomedical Engineering)
- Biofuel such as Algae and oil extraction (Biotechnology Engineering)
Prof Zare is an academic staff at the University of Queensland in Australia and has published over 280 peer-reviewed journal & conference papers, 40 technical reports and five patents in the area of Power Electronics and Pulsed Power. He has supervised 13 PhD, 10 M.Sc and M.Eng and a high number of B.Eng students to completion. He has mentored and supervised 14 post-docs and research engineers in the field of energy conversion systems. Prof Zare established a joint chapter of the IEEE Power Electronics/Industrial Electronics/ Industry Applications Societies in Queensland in 2017 and has supported the chapter as a committee member till the present.
He has secured several research funds including eight ARCs, one NHMRC and one Danish Research Council competitive research fund and 20 industry-based projects, over AU$ 10M since 2007.
- First Chief Investigator, ARC Linkage grant (2018-2021, LP170100902)
- First Chief Investigator, ARC Linkage grant (2017-2020, LP160101675)
- First Chief Investigator, ARC Future Fellowship (2016-2020, FT150100042)
- First Chief Investigator, ARC Discovery grant (2007-2009, DP0774497)
- First Chief Investigator, ARC Linkage grant (2007-2009, LP0774899)
- One of the Chief Investigators, ARC LIEF grant (2008, LE0883074)
- First Chief Investigator, ARC Discovery grant (2009-2011, DP0986853)
- Second Chief Investigator, ARC Discovery grant (2010-2013, DP0774092)
- First Chief Investigator, the Danish Innovation Fund (2014-2017)
- One of the Chief Investigators, NHMRC Idea Grant (2020-2023, APP1182038)
- One of the Chief Investigators, Global Innovation Linkage (GIL) Fund (2020-2023)
Prof Zare has received several awards such as:
- A paper award in the IEEE 3rd International Conference on “Sustainable Energy and Future Electric Transportation” (SEFET-2023)
- The IEEE Industrial Drives Committee Transactions Paper Awards, which recognise the best papers reviewed by the Industrial Drives Committee and published in IEEE Transactions on Industry Applications in 2022
- Star Associate Editor Award (2020) by the Editorial Board of the IEEE Journal of Emerging and Selected Topics in Power Electronics
- Certificate of Appreciation for Lead Editor Services and Contributions towards the advancement of IEEE Access and the Engineering Professions (April 2020)
- One of the high-quality journal papers of May 2019 nominated by the IEEE Power Electronics (TPEL) Committee
- The 2015 Innovation and Excellence Awards (the 3rd place) under the 10th European Conference on Innovation and Entrepreneurship ECIE 2015, Italy.
- Pasteur Program 2015 leadership program, Harvard Business School in Boston, USA and Denmark, Jan-Dec 2015
- Innovation Competition at Danfoss Company in 2015.
- Recipient of the National Safe Work Australia Award by Queensland Government, (2011)
- Dean’s Commendation Award for high-quality supervision of two PhD graduate students (2011)
- Recipient of the Australian Academy of Science International Linkage Fellowship (2010)
- Recipient of a prestigious QUT Vice-Chancellor’s Research Fellowship (2009)
- Recipient of the John Madsen Medal from the Australian Institute of Engineers for the best journal paper (2009)
- Certificate of Appreciation for an outstanding contribution to symposium workshops and tutorials at Asia-Pacific Symposium on Electromagnetic Compatibility in conjunction with the 19th International Zurich Symposium on Electromagnetic Compatibility (Singapore, 2008)
- Recipient of QUT Early Career Research Award (2007)
- Awarded the Australian Academy of Technological Science Symposium Fellowship by the Australian Academy of Technological Science (2001)
- Awarded Cigre student paper prize at AUPEC 2000 conference in Australia (2000)
National and International Assessor:
- Australian Research Council
- Chilean National Research Agencies
- Czech Science Foundation
- Dutch Research Council; Netherlands Organisation for Scientific Research (NWO) - Applied and Engineering Sciences (AES)
- Kyoto Prize Nominator (Lifetime achievement in: Advanced Technology, Basic Sciences and Art; rewards: 100 million yen and a 20-karat 250 g gold medal)
Editorial Membership:
- Editor in Chief of International Power Electronics Journal, July 2016 - August 2019
- Senior Editor of IEEE Access journal, Jan 2021- present
- Associate Editor of IEEE Journal of Emerging Topics in Power Electronics, Sep 2014 -present
- Associate Editor of IEEE Access journal, Dec 2015-Dec 2020
- Associate Editor of IET Generation, Transmission & Distribution, March 2020 -present
- Associate Editor of MDPI Journal of Electronics, April 2020 -present
- Editorial Board member of an International Electronic Engineering Journal (AIMS Press), Sep 2017- present
- Editorial Board member of International Power Electronics Journal, August 2019 - present
- Guest Editor, IEEE Journal of Emerging Topics in Power Electronics, SPECIAL SECTION on Modelling and Analysis of Interaction between Grids and Grid-Connected Power Electronics Converters in Distribution Networks (2020)
- Guest Editor, IEEE ACCESS SPECIAL SECTION on POWER QUALITY AND HARMONICS ISSUES OF FUTURE AND SMART GRIDS (2018)
- IEEE Journal of Emerging Topics in Power Electronics SPECIAL SECTION EDITORIAL Board Member: on Harmonics Stability and Mitigation in Power Electronics (2016)
Memberships
- IEEE Fellow for contribution to power converters and leadership role in standardization
- Member of Danish Standardization Committee (2013-2016)
- Member of International IEC Committee Working groups 1, 8 and 9 (2013-Present)
- Member of Australian Standardization Committee (2017-present)
Leadership Training
- Management Essentials, Harvard Business School (Oct-Dec 2020)
Management Essentials provides participants with key tools and techniques to become more effective managers and get things done.
- Technology Leadership, Harvard Business School (Jan-Dec 2015)
Prof Zare has a leadership certificate from Harvard Business School, Boston, USA (Jan-Nov 2015). He was awarded a technology leadership program by the Danish Innovation Council, to attend one year program delivered by Harvard Business School. The goal of this program was to educate innovators on how to develop new technologies. In his leadership roles, he has explored and discussed many challenging issues from project management to academic staff interaction and from different disciplines to maintain and expand collaborations relevant to these themes:
- Strategy & Innovation
- Negotiations, Organizations and Markets
- Commercialising Science
- Project Management
- Leadership & Networking
- Technology Leadership in Denmark (2014)
Industry project management and leadership training - from Lab to Product. Supported by Man on the Moon program at global Danfoss Drive research and development centre.
- Ethos Leadership Program (Feb-Dec 2009)
He has also an Academic Leadership certificate from Ethos Australia.
Availability
- Professor Firuz Zare is:
- Available for supervision
- Media expert
Fields of research
Research interests
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Power Electronics and Control
Power electronics refers to control and conversion of electrical power - from milliwatts to hundreds of megawatts - using semiconductor power devices operating in switching mode. Among the variety of power electronics applications; renewable energy, pulsed power, and industrial systems have been mainly taken into consideration in power electronics research area.
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Renewable Energy Systems
In this century, electric power production will face dramatic changes in both physical infrastructure and control systems. A shift will occur from relatively large concentrated generation centres to more diverse and distributed generation systems. Power Electronics is a key technology to utilize renewable energy systems for smart and future grids. Single-phase and three-phase Active Front End (AFE) systems are key bidirectional technologies which are utilized in all modern renewable energy systems. Developing an advanced control system with an optimum front end filter are the main challenging issues of grid connected renewable energy systems.
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EMI/EMC and Harmonics
Pulse width modulation (PWM) is a strategy which is used to control magnitude and/or frequency of output voltage in power electronic converters. It varies duty cycle of the converter switches at a switching frequency to achieve desired voltage and/or current waveform with minimum harmonics and ripples. Fast switching transients (which produce high dv/dt and di/dt) generated by power converters interact with parasitic capacitive and inductive couplings in different parts of power converters - including heatsink, cables and electric motors. These can cause many unwanted problems such as: grounding and leakage currents, shaft voltage and resultant bearing currents, conductive and radiated Electromagnetic Interference (EMI) and over voltages. Current and voltage harmonics at different frequency ranges are generated by Power Electronics systems both at load and grid sides which need to be suppressed by proper active and passive methods.
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Pulsed Power
Pulsed voltage with short duration and high amplitude - known as pulsed power - has a diverse range of applications such as in ozonising, sterilizing, recycling, medical and military systems. Power electronics systems are utilized in many applications in order to provide a flexible and a reliable pulsed voltage with controlled energy level suitable for many applications.
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Wide Band Gap Devices
For several decades, Silicon (Si) based power electronics switches have been used in many different low and high power electronics systems. New developments in semiconductors have allowed Si semiconductor technology to approach the theoretical limits of the Si material but these switches cannot fulfil new requirements such as operating at higher switching frequencies with fast switching transients. To overcome these limitations, new semiconductor materials for power device applications are needed. Over the past two decades, significant efforts and development have been performed on new semiconductor materials called Wide Band Gap (WBG) semiconductors, such as Silicon Carbide (SiC), Gallium Nitride (GaN) due to their superior electrical and thermal performances compared to silicon power switching devices. It is challenging to develop and design a compact high power converter based on WBG devices due to reliability and packaging issues of the whole system.
Research impacts
Professor Zare has integrated important design factors with fundamental research concepts and mathematical analysis to address "Emerging Issues of Future Grids" based on inter-disciplinary research projects. His research contributions have supported real-world projects in power engineering and have advanced knowledge in:
- Grid-connected inverters for renewable energy systems
- High efficient energy conversion systems (Motor Drive Systems)
- Grid robustness and power quality of future grids (0 - 2 kHz and 2 - 150 kHz)
- Impact of high penetration of grid-connected power electronics on distribution networks
International Project Leader:
Professor Zare was nominated, then elected by the International Electrotechnical Commission (IEC), Technical Committee 77 (Harmonics) in 2013 as a convenor and Task Force Leader in the area of “Grid-Connected Renewable Energy Systems”. His remit has been to manage and prepare a new standard for solar inverters and wind turbines to be utilised in all power networks around the world. This has been a very prestigious and challenging position, leading over 30 senior industry representatives from international companies in his team. His significant contribution has been the preparation of several technical reports, in collaboration with the members, which will be published as a new international standard IEC 61000-3- 16. The first edition of this standard has been developed based on many years of research work in the area of power quality and energy efficiency, in close collaboration with international partners.
He is an expert in harmonic and Electromagnetic Interference (EMI) issues in Power Electronics systems and has developed device and system simulation tools (virtual design approach) at the micro and macro levels. He has successfully completed many national and international projects to mitigate harmonics and EMI and analyse failure modes in grid-connected motor drives and inverters such as:
- shaft voltage and ball bearing analysis
- active and passive EMI and power filters
- high-frequency modellings of cables, AC machines and transformers
Innovative Teaching Design
His commitment to innovative teaching design and development to support power electronics engineers and scientists, as well as undergraduate and postgraduate students, is further evidenced by his development of a comprehensive Power Electronics Education E-Books (www.peeeb.dk). He published two books: introduction and advanced power electronics - which includes a virtual lecture with all teaching and simulation materials and interactive tutorials. Since 2007, on average, over 5,600 students and engineers from 75 different countries visit the website each year and download the free-access teaching materials. Its influence has been pervasive with copies sent to more than 300 universities.
Professor Zare proposed a new teaching approach for Entrepreneurship and presented to the 10th European Conference on Innovation and Entrepreneurship in Italy in 2015 received the third-place Innovation and Excellence Award. This concept introduces an innovative industry-based active learning, available to all students to be able to understand real-world project and challenges. The main aim is to connect Innovation and Entrepreneurship teaching content, and create active teaching and learning culture at the undergraduate level across all disciplines to:
- encourage students to practice innovation in an interactive way
- create dynamic synergy and communication between different disciplines.
Works
Search Professor Firuz Zare’s works on UQ eSpace
2011
Conference Publication
Voltage unbalance sensitivity analysis of plug-in electric vehicles in distribution networks
Shahnia, Farhad, Ghosh, Arindam, Ledwich, Gerard and Zare, Firuz (2011). Voltage unbalance sensitivity analysis of plug-in electric vehicles in distribution networks. 21st Australasian Universities Power Engineering Conference (AUPEC), Brisbane, QLD, Australia, 25-28 September 2011. Piscataway NJ United States: IEEE.
2011
Book
Electromagnetic interference issues in power electronics and power systems
Zare, Firuz (2011). Electromagnetic interference issues in power electronics and power systems. United Arab Emirates: Bentham Science Publishers Ltd.. doi: 10.2174/97816080524001110101
2011
Journal Article
A hybrid cascade converter topology with series-connected symmetrical and asymmetrical diode-clamped H-bridge cells
Nami, Alireza, Zare, Firuz, Ghosh, Arindam and Blaabjerg, Frede (2011). A hybrid cascade converter topology with series-connected symmetrical and asymmetrical diode-clamped H-bridge cells. IEEE Transactions On Power Electronics, 26 (1) 5226591, 51-65. doi: 10.1109/TPEL.2009.2031115
2011
Conference Publication
Tutorial: Lecture 2 Pulse Width Modulated Voltage Issues in Motor Drive Systems
Zare, Firuz (2011). Tutorial: Lecture 2 Pulse Width Modulated Voltage Issues in Motor Drive Systems. 20th IEEE International Symposium on Industrial Electronics (ISIE), Gdansk Poland, 27-30 June 2011. Piscataway NJ United States: IEEE. doi: 10.1109/ISIE.2011.5984421
2011
Book Chapter
Preface
Zare, Firuz (2011). Preface. Electromagnetic Interference Issues in Power Electronics and Power Systems. (pp. ii-ii) Sharjah, United Arab Emirates: Bentham Science Publishers. doi: 10.2174/9781608052400111010100ii
2011
Conference Publication
Tutorial: Lecture 4 Pulse Width Modulated Voltage Issues in Motor Drive Systems
Zare, Firuz (2011). Tutorial: Lecture 4 Pulse Width Modulated Voltage Issues in Motor Drive Systems. 20th IEEE International Symposium on Industrial Electronics (ISIE), Gdansk Poland, 27-30 June 2011. Piscataway NJ United States: IEEE. doi: 10.1109/ISIE.2011.5984421
2011
Conference Publication
A new unequal DC link voltage configuration for a single phase multilevel converter to reduce low order harmonics
Ghasemi, Negareh, Zare, Firuz, Langton, Christian and Ghosh, Arindam (2011). A new unequal DC link voltage configuration for a single phase multilevel converter to reduce low order harmonics. 14th European Conference on Power Electronics and Applications (EPE 2011), Birmingham, UK, 30 August-1 September 2011. Piscataway NJ United States: IEEE.
2011
Journal Article
A new family of multi-output DC-DC converter topologies to supply an asymmetrical four-level diode-clamped inverter
Boora, Arash Abbasalizadeh, Zare, Firuz and Ghosh, Arindam (2011). A new family of multi-output DC-DC converter topologies to supply an asymmetrical four-level diode-clamped inverter. COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 30 (2), 451-482. doi: 10.1108/03321641111101023
2010
Journal Article
A new pulsed power supply topology based on positive buck-boost converters concept
Zabihi, Sasan, Zare, Firuz, Ledwich, Gerard, Ghosh, Arindam and Akiyama, Hidenori (2010). A new pulsed power supply topology based on positive buck-boost converters concept. IEEE Transactions on Dielectrics and Electrical Insulation, 17 (6) 5658245, 1901-1911. doi: 10.1109/TDEI.2010.5658245
2010
Journal Article
Practical approach to model electric motors for electromagnetic interference and shaft voltage analysis
Zare, F. (2010). Practical approach to model electric motors for electromagnetic interference and shaft voltage analysis. IET Electric Power Applications, 4 (9), 727-738. doi: 10.1049/iet-epa.2009.0305
2010
Journal Article
A novel high-voltage pulsed-power supply based on low-voltage switch-capacitor units
Zabihi, Sasan, Zare, Firuz, Ledwich, Gerard, Ghosh, Arindam and Akiyama, Hidenori (2010). A novel high-voltage pulsed-power supply based on low-voltage switch-capacitor units. IEEE Transactions on Plasma Science, 38 (10) 5551231, 2877-2887. doi: 10.1109/TPS.2010.2060364
2010
Journal Article
Droop control of converter-interfaced microsources in rural distributed generation
Majumder, Ritwik, Ledwich, Gerard, Ghosh, Arindam, Chakrabarti, Saikat and Zare, Firuz (2010). Droop control of converter-interfaced microsources in rural distributed generation. IEEE Transactions on Power Delivery, 25 (4) 5437331, 2768-2778. doi: 10.1109/TPWRD.2010.2042974
2010
Journal Article
Operation and control of a hybrid microgrid containing unbalanced and nonlinear loads
Shahnia, Farhad, Majumder, Ritwik, Ghosh, Arindam, Ledwich, Gerard and Zare, Firuz (2010). Operation and control of a hybrid microgrid containing unbalanced and nonlinear loads. Electric Power Systems Research, 80 (8), 954-965. doi: 10.1016/j.epsr.2010.01.005
2010
Journal Article
Analysis of phasor measurement method in tracking the power frequency of distorted signals
Zadeh, R. Agha, Ghosh, A., Ledwich, G. and Zare, F. (2010). Analysis of phasor measurement method in tracking the power frequency of distorted signals. IET Generation, Transmission and Distribution, 4 (7) IGTDAW000004000007000759000001, 759-769. doi: 10.1049/iet-gtd.2008.0646
2010
Journal Article
Online estimation of distorted power system signal parameters
Zadeh, R. Agha, Ghosh, A., Ledwich, G. and Zare, F. (2010). Online estimation of distorted power system signal parameters. IET Generation, Transmission and Distribution, 4 (6) IGTDAW000004000006000746000001, 746-755. doi: 10.1049/iet-gtd.2009.0090
2010
Journal Article
Power management and power flow control with back-to-back converters in a utility connected microgrid
Majumder, Ritwik, Ghosh, Arindam, Ledwich, Gerard and Zare, Firuz (2010). Power management and power flow control with back-to-back converters in a utility connected microgrid. IEEE Transactions On Power Systems, 25 (2) 5340642, 821-834. doi: 10.1109/TPWRS.2009.2034666
2010
Journal Article
Calculations of capacitive couplings in induction generators to analyse shaft voltage
Adabi, J., Zare, F., Ghosh, A. and Lorenz, R. D. (2010). Calculations of capacitive couplings in induction generators to analyse shaft voltage. IET Power Electronics, 3 (3), 379-390. doi: 10.1049/iet-pel.2008.0332
2010
Journal Article
Improvement of stability and load sharing in an autonomous microgrid using supplementary droop control loop
Majumder, Ritwik, Chaudhuri, Balarko, Ghosh, Arindam, Majumder, Rajat, Ledwich, Gerard and Zare, Firuz (2010). Improvement of stability and load sharing in an autonomous microgrid using supplementary droop control loop. IEEE Transactions on Power Systems, 25 (2) 5306080, 796-808. doi: 10.1109/TPWRS.2009.2032049
2010
Journal Article
Load frequency control for rural distributed generation
Majumder, Ritwik, Ghosh, Arindam, Ledwich, Gerard and Zare, Firuz (2010). Load frequency control for rural distributed generation. Electric Power Components and Systems, 38 (6), 637-656. doi: 10.1080/15325000903489652
2010
Journal Article
Asymmetrical DC link voltage configuration for a diode-clamped inverter
Nami, Alireza, Zare, Firuz and Ghosh, Arindam (2010). Asymmetrical DC link voltage configuration for a diode-clamped inverter. IEEJ Transactions on Industry Applications, 130 (2), 195-206. doi: 10.1541/ieejias.130.195
Funding
Supervision
Availability
- Professor Firuz Zare is:
- Available for supervision
Before you email them, read our advice on how to contact a supervisor.
Available projects
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Bioelectrics and Industrial Applications
Pulsed power systems deliver energy over very short durations, resulting in huge peak powers released in the form of pulsed electromagnetic waves, plasmas, shock waves, radicals and light. The pulse signal has different parameters: polarity, magnitude, pulse width, frequency and rise and fall time. These various forms of highly compressed energy present many new, partially and unexplored opportunities for practical uses in industry, bioprocessing and medicine.
Industrial applications of pulsed power show potential in many and disparate fields, including recycling (concrete and e-waste), pollutant control (reduction of gas and particulate matter), defence (electromagnetic waves and underwater shock wave) and plasma physics (sputtering and materials processing). The application of high-repetition and high-performance pulsed power to living organisms provides novel physical and chemical stress to biological systems, opening a new field known as Bioelectrics. By varying pulse properties, the cell membranes or the internal mechanisms inside the cell cytoplasm or nucleus can be affected. Bioelectrics may be applied to target cells, bacteria and complex environments and ecosystems including plant and animal species. Bioelectrics applications of pulsed power are still primitive but include decontaminations and sterilizations (water, wastewater and juice), food processing (pasteurization of milk, wine processing, advanced plant processing) and biotechnology (algae and waste treatment). However, there are potentially many more including barely explored biomedical uses.
Project topics:
- Water treatment and decontamination
- Food processing (milk, wine, juice,..)
- Agricultural applications
- NOx, PM and pollutant control
- Mining dewatering
- Unconventional Gas Reservoir stimulation
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Pulsed Power and High Frequency Converters: topology and applications
When an electrical energy is stored in a system over a long time and is released over a short time, a huge amount of peak power can be delivered to a load. This is known as pulsed power, a powerful pulse with a short pulse width. There are two different types of energies which can create pulsed power such as a) switching of voltage (electric field) stored in a capacitor and b) switching of current (magnetic field) stored in an inductor.
Project topics:
- High voltage pulsed power generators
- Nanosecond pulsed power technology
- high power and high frequency converters
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Advanced Power Electronics Systems and Control
There are a number of projects in different fields of power electronics technology and applications:
- Grid connected inverters (control and stability)
- DC grids (control, system architecture and protection)
- Grid robustness and energy efficiency of future grids
- Power quality and harmonic emissions in distribution networks: 2-150 kHz
- Electromagnetic Interferences in Power Electronics Systems (modelling and analysis)
- High frequency modelling of transformers, cables and AC machines
- Failure mode analysis of converters, adjustable AC drives, cables, transformers and renewable energy systems
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PhD Scholarships:
The candidate(s) will have a master’s degree or 1st Class Honours degree or equivalent in Engineering and/or Science depending on one of the above PhD project topics (biomedical, electrical, mechanical or chemical engineering, biotechnology or biology)
Domestic applicants should be eligible for an Australian Postgraduate Award (APA) or equivalent (for more information, please visit: http://www.uq.edu.au/grad-school/domestic-student-scholarships).
International applicants must meet the University of Queensland's English Language Proficiency (ELP) requirements detailed at http://www.uq.edu.au/grad-school/english-language-proficiency-requirements.
These projects are in collaboration with other research centres and schools at UQ and national and international research partners.
Supervision history
Current supervision
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Doctor Philosophy
Most Suitable Smart Grid Implementation for Indonesia with Anticipation of Electric Vehicle and Internet of Thing
Associate Advisor
Other advisors: Associate Professor Rahul Sharma, Dr Md Mejbaul Haque, Professor Mithulan Nadarajah
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Doctor Philosophy
Developing Advanced Non-Thermal Processing Technique for Sustainable Food Production
Associate Advisor
Other advisors: Dr Negareh Ghasemi, Associate Professor Nidhi Bansal
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Doctor Philosophy
Modelling and Optimisation of Steady-State Operation of Residential Power Grids with PV, EV and BESS
Associate Advisor
Other advisors: Professor Mithulan Nadarajah
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Doctor Philosophy
Bioactive breastmilk pasteurised by nanosecond pulsed electric field
Associate Advisor
Other advisors: Professor Nick Shaw, Dr Negareh Ghasemi, Associate Professor Nidhi Bansal
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Doctor Philosophy
Parallel Rectifiers in Adjustable Speed Drive systems: Analysis, Modelling and Control
Associate Advisor
Other advisors: Associate Professor Rahul Sharma
Completed supervision
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2023
Doctor Philosophy
Analysis and modelling of harmonics generated by multiple motor drive systems in distribution networks
Principal Advisor
Other advisors: Professor Dirk Kroese, Associate Professor Rahul Sharma
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2022
Doctor Philosophy
Harmonic Investigation and mitigation of Multiple Grid-tied Inverters with LCL filter
Principal Advisor
Other advisors: Professor Mithulan Nadarajah
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2022
Doctor Philosophy
Electromagnetic Interference Analysis and Modelling in Motor Drive Systems
Principal Advisor
Other advisors: Dr Konstanty Bialkowski, Professor Amin Abbosh
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2021
Doctor Philosophy
Analysis of Harmonics Generated by Power Converters in Power Networks: Impacts and Mitigation Techniques
Principal Advisor
Other advisors: Associate Professor Rahul Sharma
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2021
Doctor Philosophy
Optimal output filter design for grid-tied inverters with GaN-based switching devices
Principal Advisor
Other advisors: Professor Tapan Saha, Associate Professor Rahul Sharma
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2024
Doctor Philosophy
Active Front End Power Electronics converter: modeling, control and analysis
Associate Advisor
Other advisors: Professor Dirk Kroese, Associate Professor Rahul Sharma
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2022
Doctor Philosophy
Transcranial Magnetic Stimulation System for Deep Brain Stimulation
Associate Advisor
Other advisors: Professor Amin Abbosh
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2021
Doctor Philosophy
Modelling and Design of DC Microgrid with Renewable Energy for Stability Analysis
Associate Advisor
Other advisors: Associate Professor Rahul Sharma, Professor Mithulan Nadarajah
Media
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