Your search keyword '"Mohammad Khairul Azwan"' showing total 5 results

1. Design and optimisation of magnetically-tunable hybrid piezoelectric-triboelectric energy harvester

Author

Satish Rao Ganapathy, Hanim Salleh, and Mohammad Khairul Azwan Azhar

Subjects

Medicine, Science

Abstract

Abstract The demand for energy harvesting technologies has been increasing over the years that can be attributed to its significance to low power applications. One of the key problems associated with the available vibration-based harvester is the maximum peak power can only be achieved when the device frequency matches the source frequency to generate low usable power. Therefore, in this study, a magnetically-tunable hybrid piezoelectric-triboelectric energy harvester (MT-HPTEH) was designed and optimised. Four key design factors: mass placement, triboelectric surface area, extension length and magnetic stiffness were investigated and optimised. The voltage generation from piezoelectric and triboelectric mechanisms was determined individually to understand the effect of each design factor on the mechanisms. An output power of 659 µW at 180 kΩ at 44 Hz was obtained from the optimised MT-HPTEH with a theoretical–experimental discrepancy of less than 10%. The added magnetically-tunable feature enabled the harvester to work at the desired frequency range with an open circuit voltage between 7.800 and 20.314 V and a frequency range from 38 to 54 Hz. This MT-HPTEH can power at least six wireless sensor networks and can be used for low power applications such as RFID tags. Future work may include designing of energy-saving and sustainable harvester.

Published

2021

2. Rotational Piezoelectric Energy Harvesting: A Comprehensive Review on Excitation Elements, Designs, and Performances

Author

Haider Jaafar Chilabi, Hanim Salleh, Waleed Al-Ashtari, E. E. Supeni, Luqman Chuah Abdullah, Azizan B. As’arry, Khairil Anas Md Rezali, and Mohammad Khairul Azwan

Subjects

piezoelectric, rotational energy harvesting, energy harvester excitation elements, rotational energy harvester design, factors affecting energy harvester performance, Technology

Abstract

Rotational Piezoelectric Energy Harvesting (RPZTEH) is widely used due to mechanical rotational input power availability in industrial and natural environments. This paper reviews the recent studies and research in RPZTEH based on its excitation elements and design and their influence on performance. It presents different groups for comparison according to their mechanical inputs and applications, such as fluid (air or water) movement, human motion, rotational vehicle tires, and other rotational operational principal including gears. The work emphasises the discussion of different types of excitations elements, such as mass weight, magnetic force, gravity force, centrifugal force, gears teeth, and impact force, to show their effect on enhancing output power. It revealed that a small compact design with the use of magnetic, gravity, and centrifugal forces as excitation elements and a fixed piezoelectric to avoid a slip ring had a good influence on output power optimisation. One of the interesting designs that future works should focus on is using gear for frequency up-conversion to enhance output power density and keep the design simple and compact.

Published

2021

3. Design and optimisation of magnetically-tunable hybrid piezoelectric-triboelectric energy harvester

Author

Ganapathy, Satish Rao, Salleh, Hanim, and Azhar, Mohammad Khairul Azwan

Published

2021

4. Rotational Piezoelectric Energy Harvesting: A Comprehensive Review on Excitation Elements, Designs, and Performances

Author

Azizan As’arry, Luqman Chuah Abdullah, Eris Elianddy Supeni, Hanim Salleh, Mohammad Khairul Azwan, Khairil Anas Md Rezali, Haider Jaafar Chilabi, and Waleed Al-Ashtari

Subjects

Centrifugal force, Technology, Control and Optimization, 020209 energy, Energy Engineering and Power Technology, Mechanical engineering, 02 engineering and technology, Slip ring, 0202 electrical engineering, electronic engineering, information engineering, factors affecting energy harvester performance, Electrical and Electronic Engineering, Engineering (miscellaneous), Physics, Renewable Energy, Sustainability and the Environment, Work (physics), 021001 nanoscience & nanotechnology, Piezoelectricity, Power (physics), Magnetic field, rotational energy harvester design, piezoelectric, Impact, 0210 nano-technology, Energy harvesting, energy harvester excitation elements, Energy (miscellaneous), rotational energy harvesting

Abstract

Rotational Piezoelectric Energy Harvesting (RPZTEH) is widely used due to mechanical rotational input power availability in industrial and natural environments. This paper reviews the recent studies and research in RPZTEH based on its excitation elements and design and their influence on performance. It presents different groups for comparison according to their mechanical inputs and applications, such as fluid (air or water) movement, human motion, rotational vehicle tires, and other rotational operational principal including gears. The work emphasises the discussion of different types of excitations elements, such as mass weight, magnetic force, gravity force, centrifugal force, gears teeth, and impact force, to show their effect on enhancing output power. It revealed that a small compact design with the use of magnetic, gravity, and centrifugal forces as excitation elements and a fixed piezoelectric to avoid a slip ring had a good influence on output power optimisation. One of the interesting designs that future works should focus on is using gear for frequency up-conversion to enhance output power density and keep the design simple and compact.

Published

2021

5. Rotational Piezoelectric Energy Harvesting: a comprehensive review on excitation elements, designs, and performances

Author

Chilabi, Haider Jaafar, Salleh, Hanim, Al-Ashtari, Waleed, Supeni, Eris Elianddy, Abdullah, Luqman Chuah, As’arry, Azizan, Md Rezali, Khairil Anas, Mohammad Khairul Azwan, Chilabi, Haider Jaafar, Salleh, Hanim, Al-Ashtari, Waleed, Supeni, Eris Elianddy, Abdullah, Luqman Chuah, As’arry, Azizan, Md Rezali, Khairil Anas, and Mohammad Khairul Azwan

Abstract

Rotational Piezoelectric Energy Harvesting (RPZTEH) is widely used due to mechanical rotational input power availability in industrial and natural environments. This paper reviews the recent studies and research in RPZTEH based on its excitation elements and design and their influence on performance. It presents different groups for comparison according to their mechanical inputs and applications, such as fluid (air or water) movement, human motion, rotational vehicle tires, and other rotational operational principal including gears. The work emphasises the discussion of different types of excitations elements, such as mass weight, magnetic force, gravity force, centrifugal force, gears teeth, and impact force, to show their effect on enhancing output power. It revealed that a small compact design with the use of magnetic, gravity, and centrifugal forces as excitation elements and a fixed piezoelectric to avoid a slip ring had a good influence on output power optimisation. One of the interesting designs that future works should focus on is using gear for frequency up conversion to enhance output power density and keep the design simple and compact.

Published

2021