Status and Development Direction of Piezoelectric Wind Energy Harvesting Technology

In recent years, with the rapid development of large-scale distributed wireless sensor systems and micro-power devices, the disadvantages of traditional chemical battery power supply mode are becoming more and more obvious. Piezoelectric energy collector has attracted wide attention because of its simple structure, no heating, no electromagnetic interference, environmental protection and easy miniaturization. Wind energy is a reproducible resource. Wind energy harvester based on piezoelectric intelligent material can be named piezoelectric wind energy harvesting which converts wind energy into electric power and will have great application prospect. To promote the development of piezoelectric wind energy harvesting technology, research statuses on piezoelectric wind energy harvesting technology are reviewed. The existing problem and development direction about piezoelectric wind energy harvester in the future are discussed. The study will be helpful for researchers engaged in piezoelectric wind energy harvesting.


Introduction
With the aggravation of global warming and the shortage of petroleum energy, it is a strategic focus to seek multi-mode, multi-source, non-polluting renewable energy for the development of science and technology in the world at present Journal of Power and Energy Engineering and in the future.Different methods of capturing energy from the surrounding environment have become the focus of recent researches.Among all kinds of energy conversion types, the efficiency of transforming mechanical energy such as pressure, impact and vibration into electric energy based on piezoelectric effect is second only to solar energy and wind energy, and it is a promising renewable energy.
Energy harvesting technology could change vibration energy into electrical energy by recycling wasted vibration energy [1].Methods of energy conversion of vibration to electrical energy were piezoelectric, electromagnetic and electrostatic [2] [3] [4].It had been proved that piezoelectric transducers were more suitable for vibration to electrical energy converters.
Recently, with large distributed wireless sensor systems and subminiature power devices developing quickly, traditional chemical battery could satisfy the need to some extent.But the problems such as huge volume, finite life and periodical substitution were very obvious [5].
Wind energy was a transformation of solar energy and could be taken everywhere.Traditional wind power generation was caused by the relative movement between the rotor and stator.The power supply mode had large scale and complex process, not suitable for wireless sensor systems and subminiature power devices.The principle of wind-induced vibration of piezoelectric energy harvester was the use of wind-induced vibration mechanism to convert the wind energy into electrical energy.It has the advantages of simple structure, small volume, low cost advantages, and could be used in such fields as wireless sensor systems and subminiature power devices.
For promoting the application of the piezoelectric wind energy harvesting technology, research status and development direction were discussed in the paper.Because of the wide attention of Cantilever piezoelectric energy harvester, the paper discussed especially the characteristics of the Cantilever piezoelectric energy harvester.

Research Status of Piezoelectric Wind Energy Harvesting Technology
With the development of piezoelectric wind energy harvesting technology, scholars at home and abroad have proposed a variety of piezoelectric wind energy harvesting devices, and conducted a lot of theoretical and experimental research.
According to different harvesting mode piezoelectric wind energy harvesting technology can be divided into fan type and wind-induced vibration type.showed that the optimized PIMWEH generated 2.8 mw.

Fan Type Piezoelectric Wind Energy Harvesting Technology
In 2018 Luo [9] proposed the piezoelectric generator with wind cups.The generator was shown in Figure 4.The results showed that the starting wind speed of the experiment was about 3 m/s, and the optimal load of rectangular and trapezoidal piezoelectric cantilevers was 25 KΩ with corresponding output power of 0.11 mW and 0.13 mW.
The main characteristics of fan type piezoelectric energy harvesting technology include: 1) Fan-type piezoelectric energy harvesting technology can increase the contact area with natural wind through turbine mechanism, so that wind energy can be effectively utilized.
2) Complex turbine mechanism and transmission mechanism are installed in the fan-type piezoelectric energy capture device, which enlarges the volume of the device and is not conducive to miniaturization.
3) The efficiency of the complex transmission mechanism in the fan-type piezoelectric energy harvesting device is seriously reduced due to friction and other reasons.

Wind-Induced Vibration Type Piezoelectric Wind Energy Harvesting Technology
Wind-induced vibration piezoelectric energy harvesting technology refers to mechanical vibration caused by natural wind directly acting on the device, thus causing bending deformation of piezoelectric components.In 2010 the South Korean scholars designed a portable wind generator [11], as shown in Figure 5. Fan device caused the variation of air to drive the vibration of piezoelectric cantilever beam, thus output power.The size of the generator was 250 mm × 250 mm × 250 mm.The output voltage was 4.05 V at the wind speed 3.5 m/s and the resonant frequency 42.7 Hz.
In 2010 the South Korean scholars developed a small wind generator, as shown in Figure 6 [12].The appearance of the generator looked like the word "T".The output voltage was 130 V and the power was 4 mW at the wind speed 15m/s , the resonant frequency 6.17 Hz and the resistive load 4 MΩ.
In 2010 American scholars studied a kind of portable vortex induced vibration generator [13], as shown in         2) Wind-induced vibration piezoelectric energy harvesting device is easy to realize miniaturization.
3) In wind-induced vibration piezoelectric energy harvesting device, the contact area between piezoelectric elements and natural wind force is small, and wind energy cannot be fully utilized.

Future Development Direction
Piezoelectric wind energy harvesting technology was related to mechanics, materials science, electrical, piezoelectric and elastic mechanics, which belonged to the intersection problem of multi discipline.The development of this technology was helpful to solve the traditional battery to the microelectronic, wireless network energy consumption problems of electronic products, which also helped to improve the micromation and integration of the modern sensor technology.The main problems existing and development direction on piezoelectric wind energy harvesting technology were shown as follows.
1) The power density of the piezoelectric wind energy harvester was low.Currently, the structure of the piezoelectric wind energy harvester was more complex, more energy loss in the conversion process, and the energy conversion efficiency was low.In order to improve the energy harvesting efficiency, researchers needed to develop new methods and new structures.3) The sizes of the exited piezoelectric wind energy harvesters were generally larger.With the rapid development of MEMS, correspondingly micro energy device to supply energy developed quickly, and the piezoelectric wind energy harvesters of micro size were urgently needed.
4) The structure design of piezoelectric wind energy harvesters needs further study.The structure of the existing piezoelectric wind energy harvesters is relatively complex, resulting in more difficult processing, and the application of energy supply of micro-electronic products has been limited.
5) The service lives of the harvesters were low.The structure stress and strain of the harvester was changing all the time due to long time vibration.How to improve the fatigue life of piezoelectric power generation device was the urgent problem needed to solve.

Fan-type piezoelectric
energy harvesting technology utilizes the working principle of the fan, drives the turbine mechanism to rotate through the wind energy, and then causes bending deformation of piezoelectric components through the transmission mechanism.Journal of Power and Energy EngineeringIn 2003 two Japanese companies NEC TOKIN and Heardea developed a piezoelectric vision navigation mark[6].The mark was a circular with diameter of about 12.3 cm.The outer configuration was a plume shaped object and the internal configuration was a piezoelectric conversion device, a steel ball and six LED lamps.The construction of the mark was shown in Figure1.In the highway tunnel with large traffic volume, the mark could be rotated by the wind generated from the passing cars.Because the steel ball was located in the circular channel divided by the piezoelectric conversion element, the ball would be picked up and then fall in the channel when the mark rotated.The movement of the ball would go round and begin again with the rotation of the mark.The LED lamps were lighted by the collision of the falling ball and the piezoelectric element.The device could be used in power generation.When wind speed was 3 -6 m/s, the device lighted 3 times per second, lasted more than 3 ms and the brightness of 4000 mcd or more, could be seen in the 200 m distance.AmericanTexas State University developed a miniature wind driven piezoelectric power generation device[7], as shown in Figure2.The device used a wind wheel which made 12 piezoelectric cantilever beams vibrate, and electric energy was generated in the piezoelectric layer on the twin beams.The size of the single piezoelectric cantilever beam was 60 mm × 20 mm × 0.6 mm, and the size of the entire power generation device was 5.08 cm × 11.6 cm × 7.7 cm.The device could generate 12 mW electric power.

Figure 1 .
Figure 1.The piezoelectric vision navigation mark.

Figure 3 .
Figure 3.The impact-based micro wind energy harvester.

Figure 4 .
Figure 4.The piezoelectric generator with wind cup.

Figure 7 .
Cylindrical body produced vortex induced vibration under the action of wind, accordingly the piezoelectric ball vibrated and induced deformation, thus generated electric energy.The size of the generator was 20 mm × 20 mm × 255 mm.The power was 20 µW at the wind speed 1 -3 m/s.

Figure 9 .
Figure 9.The turbine type wind energy harvester.

2 )
Harvester reliability was poor.Piezoelectric wind energy harvester was arranged in the outdoor environment, and the working environment was relatively poor.Device was not stable and seriously hindered the further development of piezoelectric wind energy harvesting technology.