Design and optimization of a maglev electromagnetic–triboelectric hybrid energy converter for supplying power to intelligent sensing equipment

Kong, Fankai; Yin, Songyan; Sun, Chongfei; Yang, Cheng; Chen, Hailong; Liu, Hengxu

doi:10.1039/d1se01582f

Cited by 4 publications

(2 citation statements)

References 33 publications

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“…For example, the complicated manufacturing manner and excessive precision necessities restrict the mass manufacturing of this kind of sensor and amplify the use cost. In addition, fibre Bragg grating wants one-of-a-kind demodulation equipment; however, the current demodulation gear has bad realistic software ability, excessive cost, and is no longer handy for subject debugging [10].…”

Section: Related Workmentioning

confidence: 99%

Safety Monitoring Network Architecture of Water Release Structures Based on Intelligent Sensing Equipment for Concrete Abrasion

2022

Journal of Sensors

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The concrete abrasion monitoring of water launch constructions is the key and hard factor in hydraulic engineering. With the development of technology, the present concrete abrasion monitoring techniques have made excellent progress; however, there are still some problems, such as the small monitoring range, and it is hard to totally mirror the diploma of abrasion damage. The smart sensing tools based totally on concrete abrasion is greater and extra used in engineering dimension due to the fact of its excessive precision and robust anti-interference ability. Based on the alive analysis accessory for accurate abrasion, this cardboard establishes the aegis ecology association anatomy of baptize barrage structures, selects the abstinent chafe advice of the project, incorporates out coaching modelling thru the education set, and forecasts the take a look at set. Through theoretical evaluation and accuracy verification test, it can be concluded that the smart sensing tools based totally on concrete abrasion can be used to measure the floor modifications of concrete materials, the size accuracy can attain 0.1 mm level, and the monitoring accuracy price can attain 95%, which can meet the necessities of concrete abrasion depth monitoring in hydraulic engineering.

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Section: Related Workmentioning

confidence: 99%

Safety Monitoring Network Architecture of Water Release Structures Based on Intelligent Sensing Equipment for Concrete Abrasion

2022

Journal of Sensors

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“…In comparison to individual nanogenerators, this nanogenerator type can provide high and efficient power density [ 95 ]. Recent research has led to the development of hybrid nanogenerators based on piezoelectric–pyroelectric [ 96 , 97 , 98 ], triboelectric–piezoelectric [ 31 , 99 , 100 , 101 , 102 , 103 , 104 , 105 , 106 , 107 , 108 , 109 , 110 , 111 , 112 , 113 , 114 , 115 , 116 , 117 ], electromagnetic–triboelectric [ 118 , 119 , 120 , 121 , 122 , 123 , 124 , 125 , 126 , 127 , 128 , 129 , 130 , 131 , 132 ], triboelectric–piezoelectric–pyroelectric [ 133 , 134 , 135 , 136 ], triboelectric–piezoelectric–electromagnetic [ 137 , 138 , 139 , ...…”

Section: Operation Principlementioning

confidence: 99%

Recent Progress of Nanogenerators for Green Energy Harvesting: Performance, Applications, and Challenges

et al. 2022

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Natural sources of green energy include sunshine, water, biomass, geothermal heat, and wind. These energies are alternate forms of electrical energy that do not rely on fossil fuels. Green energy is environmentally benign, as it avoids the generation of greenhouse gases and pollutants. Various systems and equipment have been utilized to gather natural energy. However, most technologies need a huge amount of infrastructure and expensive equipment in order to power electronic gadgets, smart sensors, and wearable devices. Nanogenerators have recently emerged as an alternative technique for collecting energy from both natural and artificial sources, with significant benefits such as light weight, low-cost production, simple operation, easy signal processing, and low-cost materials. These nanogenerators might power electronic components and wearable devices used in a variety of applications such as telecommunications, the medical sector, the military and automotive industries, and internet of things (IoT) devices. We describe new research on the performance of nanogenerators employing several green energy acquisition processes such as piezoelectric, electromagnetic, thermoelectric, and triboelectric. Furthermore, the materials, applications, challenges, and future prospects of several nanogenerators are discussed.

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Buoy-Inspired Hybridized Energy Harvester with Freestanding Dielectric Oscillator Towards Sustainable Blue Energy Harvesting

San

Yun

Kim

2022

Int. J. of Precis. Eng. and Manuf.-Green Tech.

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Design and optimization of a maglev electromagnetic–triboelectric hybrid energy converter for supplying power to intelligent sensing equipment

Abstract: An energy converter based on magnetic levitation that combines TENG and EMG ingeniously has been developed. A set of research methods combining theory, experiment and simulation of this type of model has been established.

Cited by 4 publications

References 33 publications

Safety Monitoring Network Architecture of Water Release Structures Based on Intelligent Sensing Equipment for Concrete Abrasion

Safety Monitoring Network Architecture of Water Release Structures Based on Intelligent Sensing Equipment for Concrete Abrasion

Recent Progress of Nanogenerators for Green Energy Harvesting: Performance, Applications, and Challenges

Buoy-Inspired Hybridized Energy Harvester with Freestanding Dielectric Oscillator Towards Sustainable Blue Energy Harvesting

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