CERE
Pusat Kecemerlangan Tenaga Boleh Diperbaharui
(Centre of Excellence for Renewable Energy)
(Centre of Excellence for Renewable Energy)
ABOUT CERE
CERE which is previously known as Electrical Energy and Industrial Electronic Systems (EEIES) Research Cluster was established on 2012 and consists of five research groups which are Power Electronics, Control & Optimization, Electrical Machines & Drives, Power Systems & High Voltage, Green Technology & Energy Efficiency and also Applied Electromagnetic. CERE strengthens its research area in the aspects of renewable energy. Various products and publications have been produced for commercialization and reference purposes.
Ketua CERE
Tempoh Penubuhan CERE (Semasa)
12 Tahun
Pencapaian Utama CERE
Jumlah Dana diterima bagi tahun 2022-2023: RM1.34 Juta
Alamat
Aras Bawah, Blok 1 Bangunan FKTE 2
Fakulti Kejuruteraan & Teknologi Elektrik,
Kampus Pauh Putra,
Universiti Malaysia Perlis (UniMAP),
02600 Arau, Perlis
Fakulti Kejuruteraan & Teknologi Elektrik,
Kampus Pauh Putra,
Universiti Malaysia Perlis (UniMAP),
02600 Arau, Perlis
NICHE
1. Future Energy: Development of new and enhanced energy/renewable energy technologies.
2. Photovoltaics: Exploration of cutting-edge advancements in photovoltaic technology.
3. System Integration: Integration of renewable energy systems with existing infrastructure, with a focus on power electronics converters.
4. Energy Storage: Development of advanced energy storage technologies.
5. Power Grids: Innovative solutions to enhance the power grid's reliability, efficiency, and sustainability.
IMPAK CERE
PROJEK PENYELIDIKAN BERIMPAK (2022-2023)
CHARACTERIZATION OF HYBRID ACTIVE COOLING TECHNIQUE WITH NATURAL INSPIRED ALGORITHM OF FLOATING SOLAR PHOTOVOLTAIC MODULE FOR LOW CARBON CLEAN.
FUNDAMENTAL RESEARCH GRANT SCHEME: RM132,000
FUNDAMENTAL RESEARCH GRANT SCHEME: RM132,000
THE CONTROL OF CHARGE ADSORPTION ON METAL SURFACES TO IMPROVE CORROSION PROTECTION RELIABILITY.
FUNDAMENTAL RESEARCH GRANT SCHEME: RM189,989
FUNDAMENTAL RESEARCH GRANT SCHEME: RM189,989
NEW EFFICIENCY-FOCUSED DROOP CONTROL STRATEGY USING DYNAMIC CONSENSUS COMPENSATION LOOP FOR ECONOMIC OPERATION OF ISLANDED AC MICROGRID.
FUNDAMENTAL RESEARCH GRANT SCHEME: RM115,500
FUNDAMENTAL RESEARCH GRANT SCHEME: RM115,500
NEW PREDICTIVE MODEL OF SOILING POWER LOSSON PHOTOVOLTAIC PANELS USING DEEP LEARNING ALGORITHM.
FUNDAMENTAL RESEARCH GRANT SCHEME: RM111,700
FUNDAMENTAL RESEARCH GRANT SCHEME: RM111,700
FORMULATING INTERNAL GRID-FORMING CAPABILITY FOR ENHANCED DYNAMIC PERFORMANCE OF GRID-FOLLOWING
INVERTERS USING STATE VARIABLES OF RESONANT CURRENT CONTROLLER.
FUNDAMENTAL RESEARCH GRANT SCHEME: RM142,150
INVERTERS USING STATE VARIABLES OF RESONANT CURRENT CONTROLLER.
FUNDAMENTAL RESEARCH GRANT SCHEME: RM142,150
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