Development and performance evaluation of a magnetically levitated solar motor
The purpose of developing the magnetically-levitated solar motor is to investigate and evaluate the performance of the solar motor in terms of its efficiency. Magnetic levitation with almost similar applications is being used as test subjects in the study of frictionless support particularly in the...
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| Published in | AIP conference proceedings Vol. 3069; no. 1 |
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| Main Authors | , , , , , |
| Format | Journal Article Conference Proceeding |
| Language | English |
| Published |
Melville
American Institute of Physics
01.08.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0094-243X 1551-7616 |
| DOI | 10.1063/5.0206573 |
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| Abstract | The purpose of developing the magnetically-levitated solar motor is to investigate and evaluate the performance of the solar motor in terms of its efficiency. Magnetic levitation with almost similar applications is being used as test subjects in the study of frictionless support particularly in the design of the vertical axis wind turbine. The current application for support involves mechanical components such as bearing, stator and rotor. By using magnetic levitation, friction can be minimized which eventually contribute to better efficiencies in applications that involve mechanical support and movements. The experiment is more focused on investigating the effects of NdFeB magnet sizes that are used as the rotating base for the motor. Analytical methods by way of theoretical calculations are used to evaluate the results obtained from the experiments. It is then discovered that the efficiency is higher using a bigger size of NdFeB magnet of the same N35 grade. Mass factor also affects the performance of the motor as it can observed that the motor reaches its failure point at lower mass when using bigger size of magnet base as compared to the smaller magnet base. Additionally, there are other factors that were affected by the sizes of the magnet such as the clearance distance (vertical) between the motor and the base, z, and the rotational speed of the motor. The levitated motor design was applied to a solar magnetic fan. Experiment were conducted and the data will be validated and evaluated. The voltage data taken shows a fairly accurate accuracy which is 97.44% of the actual value. The value of RPM also shows the fastest which is 3700rpm. These results also show that the rotation of this fan is faster than the fan that uses USB or battery is as much as 1700rpm available in the market. |
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| AbstractList | The purpose of developing the magnetically-levitated solar motor is to investigate and evaluate the performance of the solar motor in terms of its efficiency. Magnetic levitation with almost similar applications is being used as test subjects in the study of frictionless support particularly in the design of the vertical axis wind turbine. The current application for support involves mechanical components such as bearing, stator and rotor. By using magnetic levitation, friction can be minimized which eventually contribute to better efficiencies in applications that involve mechanical support and movements. The experiment is more focused on investigating the effects of NdFeB magnet sizes that are used as the rotating base for the motor. Analytical methods by way of theoretical calculations are used to evaluate the results obtained from the experiments. It is then discovered that the efficiency is higher using a bigger size of NdFeB magnet of the same N35 grade. Mass factor also affects the performance of the motor as it can observed that the motor reaches its failure point at lower mass when using bigger size of magnet base as compared to the smaller magnet base. Additionally, there are other factors that were affected by the sizes of the magnet such as the clearance distance (vertical) between the motor and the base, z, and the rotational speed of the motor. The levitated motor design was applied to a solar magnetic fan. Experiment were conducted and the data will be validated and evaluated. The voltage data taken shows a fairly accurate accuracy which is 97.44% of the actual value. The value of RPM also shows the fastest which is 3700rpm. These results also show that the rotation of this fan is faster than the fan that uses USB or battery is as much as 1700rpm available in the market. |
| Author | Jamaludin, Azman Bin Yusof, Amy Azlina Saputra, Hendri Maja Zain, Mohd Zarhamdy Md Wahid, Mastura Ab Nor, Nur Safwati Mohd |
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| Editor | Amelia, Lia Habibie, Muhammad Haekal Andini, Ade |
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| References | Thomas, Varghese, Jayalakshmi, Savy, George, Varghese (c2) 2016; 5 Dhareppagol, Konagutti (c3) 2013; 1 Gao, Yan, Zou, Li, Peng, Meng, Zhang (c7) 2020; 64 Malik, Ahmad, Rahman, Islam (c9) 2019; 7 Hutterer, Wimmer, Schrödl (c9) 2022; 166 Akangire, Borse, Dalvi, Dhanwate (c4) 2017; 5 Yaseen, Abd (c8) 2018; 8 Gao, Wang, Wang, Wang (c5) 2018; 220 Patil, Kumbhar, Siddarth, Rohit, Wagle (c1) 2017; 04 Ahmad, Amin (c6) 2017; 101 |
| References_xml | – volume: 7 start-page: 173230 year: 2019 ident: c9 article-title: Integral Backstepping and Synergetic Control of Magnetic Levitation System publication-title: IEEE Access – volume: 8 start-page: 153 year: 2018 ident: c8 article-title: Modeling and control for a magnetic levitation system based on SIMLAB platform in real time publication-title: Results in Physics – volume: 5 start-page: 377 year: 2017 ident: c4 article-title: Implementation of Maglev Turbine and Solar Power for Streetlights and CCTV publication-title: . – volume: 04 start-page: 2543 year: 2017 ident: c1 article-title: Magnetic Vertical Axis Wind Turbine publication-title: . – volume: 220 start-page: 86 year: 2018 ident: c5 article-title: Experimental investigation of non-linear multi-stable electromagnetic-induction energy harvesting mechanism by magnetic levitation oscillation publication-title: Applied Energy – volume: 166 start-page: 108431 year: 2022 ident: c9 article-title: Control of magnetically levitated rotors using stabilizing effects of gyroscopes publication-title: Mechanical Systems and Signal Processing – volume: 5 start-page: 194 year: 2016 ident: c2 article-title: Magnetically Levitated Wind Turbine for Power Generation publication-title: . – volume: 101 start-page: 286 year: 2017 ident: c6 article-title: Design, construction and study of small-scale vertical axis wind turbine based on a magnetically levitated axial flux permanent magnet generator publication-title: Renewable Energy – volume: 64 start-page: 44 year: 2020 ident: c7 article-title: Magnetic levitation using diamagnetism: Mechanism, applications and prospects publication-title: Science China Technological Sciences – volume: 1 start-page: 51 year: 2013 ident: c3 article-title: Regenedyne Maglev Wind Power Generation |
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| SubjectTerms | Design analysis Magnetic levitation Mechanical components Performance evaluation Permanent magnets Vertical axis wind turbines |
| Title | Development and performance evaluation of a magnetically levitated solar motor |
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