Nova Scotia Energy Harvesting Using Piezoelectric Materials Pdf

Piezoelectric energy harvesting ScienceDirect

Energy Harvesting Using PVDF Piezoelectric Nanofabric

energy harvesting using piezoelectric materials pdf

Piezoelectric Materials Applications in SHM Energy. Micro Generating System Using Piezoelectric for Low Energy System is a system that provides the user with free flowing energy that can be used without any consequences to the environment. This system enables users to generate low energy for their uses by transforming the mechanical energy produced by the car engine vibration into electrical energy. This project is generally about designing …, energy harvesting system using active materials for power generation from the shoe sole. The active material as PZT has been employed and modified to be appropriately embedded in the shoe sole. When the mechanical pressure is applied to the embedded shoe sole while walking would extract mechanical vibration energy and convert extracted energy to electrical energy directly from the.

Piezoelectric Energy Harvesting from Vehicle Wheels

US6433465B1 Energy-harvesting device using. Energy Harvesting Using Flexible Piezoelectric Materials Jerry Luo Electronics and Computer Science University of Southampton, United Kingdom z.luo@soton.ac.uk, This conversion of mechanical energy to electrical energy through the use of piezoelectric materials is an exciting and rapidly developing area of research with a ….

7 Energy harvesting using piezoelectric polymers. Researchers from Ocean Power Technologies have proposed energy harvesting Eel that uses piezoelectric polymer to convert the mechanical flow energy available in oceans and rivers to electrical power [49]. Piezoelectric materials are attracting significant research efforts and resources worldwide. The major thrust areas include structural health monitoring, bio-mechanics, bio-medicine and energy harvesting.

to use piezoelectric materials (PZT), which form energy was returned to the ball in the form of kin- transducers that are able to interchange electrical etic energy during which the balls rebound off of A review of power harvesting using piezoelectric materials (2003–2006) in power harvesting using piezoelectric materials, including the design of efficient harvesting geometries, improving efficiency through circuitry, implantable and wearable power supplies, harvesting of ambient flows, microelectromechanical devices,self-poweredsensorsand comparisonsofpiezoelectric materials to

The transformation of vibrations into electric energy through the use of piezoelectric devices is an exciting and rapidly developing area of research with a widening range of applications constantly materialising. With Piezoelectric Energy Harvesting, world-leading researchers provide a timely and Piezoelectric energy harvesting technology is attracting more attention in recent years due to the trend of finding new and green sources of energy. This project presents a state of the art review in the area of using piezoelectric materials to harvest energy from roadways. The aim of this project

This paper analyses the behaviour ofpiezoelectric transducer for harvesting energy. The transducer was designedusing different materials for harnessing energy that include Zinc Oxide, LeadZirconate Titanate (PZT-2) and Quartz. The transducer was simulated using thesematerials and the voltage generated from ambient vibrations was analysed. energy harvesting system using active materials for power generation from the shoe sole. The active material as PZT has been employed and modified to be appropriately embedded in the shoe sole. When the mechanical pressure is applied to the embedded shoe sole while walking would extract mechanical vibration energy and convert extracted energy to electrical energy directly from the

progressive method of energy harvesting using piezoelectric material. Energy Harvesting is a process of capturing energy surrounding system such as vibration and converted that vibration into electrical energy. In this paper we are using a piezoelectric material for harvesting a power. There are two types of piezoelectric material such as crystal and ceramics. Piezoelectric material has two Vibration and Flow Energy Harvesting using Piezoelectric A Thesis Submitted to the Faculty of Drexel University by Xiaotong Gao in partial fulfillment of the

A magnetic energy harvesting device has been demonstrated using Magnetostriction. It harvests material stress and vibrations, but it is not a piezoelectric device. The latest demonstration is producing over 2 watts. Back in 2010 a Japanese university researcher developed a small-size vibration Analysis of power output for piezoelectric energy harvesting systems K Ce Piezoelectric Element u(t) Regulator F(t) Energy Storage System η M Θ Cp Figure 1.

In recent years, energy harvesting using piezoelectric materials has become a very popular research topic. Various device sizes and structures have been tested, but it is difficult to compare Piezoelectric material is one of the common smart materials utilized for harvesting vibration energy. This paper presents an This paper presents an experimental study of a rain energy harvester using a piezoelectric beam tested under different rain conditions.

The theoretical limits of piezoelectric energy harvesting on human applications have suggested that 1.27 W could be obtained from walking by using a piezoelectric generator Analysis of power output for piezoelectric energy harvesting systems K Ce Piezoelectric Element u(t) Regulator F(t) Energy Storage System η M Θ Cp Figure 1.

Piezoelectric materials Man-made ceramics • Barium titanate (BaTiO 3)—Barium titanate was the first piezoelectric ceramic discovered. • Lead titanate (PbTiO 3) • Lead zirconate titanate (Pb[Zr x Ti1−x]O 3 0≤x≤1)—more commonly known as PZT, lead zirconate titanate is the most common piezoelectric ceramic in use today. • Lithium niobate (LiNbO 3) Naturally-occurring crystals To improve the output power of a rotational piezoelectric wind energy harvester, impact-induced resonance is proposed to enable effective excitation of the piezoelectric cantilevers' vibration modes and obtain optimum deformation, which enhances the mechanical/electrical energy transformation.

potential of piezoelectric energy harvesting technology in cars and their environmental impacts. The use of piezoelectric materials in pneumatic tires enables capturing waste energy of cars because of deformations in the tire and weight of the vehicle as well. energy harvesting system using active materials for power generation from the shoe sole. The active material as PZT has been employed and modified to be appropriately embedded in the shoe sole. When the mechanical pressure is applied to the embedded shoe sole while walking would extract mechanical vibration energy and convert extracted energy to electrical energy directly from the

Piezoelectric materials are attracting significant research efforts and resources worldwide. The major thrust areas include structural health monitoring, bio-mechanics, bio-medicine and energy harvesting. Generally, piezoelectric ceramics are used as the piezoelectric material in energy harvesting devices due to their low cost, good piezoelectric properties, and ease of integration into energy harvesting …

Energy Harvesting Using Flexible Piezoelectric Materials Jerry Luo Electronics and Computer Science University of Southampton, United Kingdom z.luo@soton.ac.uk Firstly, energy harvesting using a piezoelectric patch will be discussed. The size of the piezoelectric patch is and the PZT-5H listed in table 2 is adopted. In the following analysis, the piezoelectric patch is installed at the location Here, the total energy is defined for describing the energy harvesting property.

Energy Harvesting Analog Devices. Piezoelectric energy harvesting and applications Presented by: Nathan Jackson Ph.D . www.tyndall.ie Outline Biography Background on Piezoelectric Energy Harvesting Piezoelectric Materials Latest Research on Piezoelectric Energy Harvesting Tyndall National Institute Other SOA Research Future of Piezoelectric Energy Harvesting using 1D Piezomaterials Other applications (Tyndall Research) …, Characteristics of Energy Storage Devices in Piezoelectric Energy Harvesting Systems Speaker Biography (Wei-Hsin Hsin Liao) Dr. Wei-Hsin Liao is a Professor at The Chinese University of Hong Kong, where he is also the founding director of the Smart Materials and Structures Laboratory..

I P Smart Mater. Struct. 15 (2006) 1499–1512 doi10.1088

energy harvesting using piezoelectric materials pdf

Energy harvesting using piezoelectric polymers studfiles.net. Piezoelectric materials have found their place in the energy harvesting sector for harnessing power ranging from nanowatts to some watts i.e. from micro-scale to macro-, To improve the output power of a rotational piezoelectric wind energy harvester, impact-induced resonance is proposed to enable effective excitation of the piezoelectric cantilevers' vibration modes and obtain optimum deformation, which enhances the mechanical/electrical energy transformation..

energy harvesting using piezoelectric materials pdf

Energy Harvesting Using PVDF Piezoelectric Nanofabric

energy harvesting using piezoelectric materials pdf

Energy Harvesting Using Piezoelectric Nanowires–A. method of energy harvesting using piezoelectric material. Piezoelectric materials can be used as mechanisms to transfer mechanical energy, usually ambient vibration, into electrical https://en.wikipedia.org/wiki/Energy_harvesting potential of piezoelectric energy harvesting technology in cars and their environmental impacts. The use of piezoelectric materials in pneumatic tires enables capturing waste energy of cars because of deformations in the tire and weight of the vehicle as well..

energy harvesting using piezoelectric materials pdf

  • Piezoelectric energy harvesting ScienceDirect
  • Energy harvesting using piezoelectric materials Case of
  • Modeling of Piezoelectric Energy Harvesting System Using

  • Firstly, energy harvesting using a piezoelectric patch will be discussed. The size of the piezoelectric patch is and the PZT-5H listed in table 2 is adopted. In the following analysis, the piezoelectric patch is installed at the location Here, the total energy is defined for describing the energy harvesting property. One such method is to use piezoelectric film-bending beams inside a shoe, and use part of the mechanical energy employed during normal walking activity. This study analyzes several bending beam structures suitable for the intended application (shoe inserts and walking-type excitation) and obtains the resulting strain for each type as a function of their geometrical parameters and material

    There is little understanding of the effects of porous piezoelectric materials in energy harvesting. This paper aims to ll this gap in knowledge through a study of porous piezoelectric bimorph beams under harmonic excitation. Using the mean-eld homogenization approach, the effective material properties are calculated for different percentage of porosity. These properties are then used to model The transformation of vibrations into electric energy through the use of piezoelectric devices is an exciting and rapidly developing area of research with a widening range of applications constantly materialising. With Piezoelectric Energy Harvesting, world-leading researchers provide a timely and

    Piezoelectric energy harvesting technology is attracting more attention in recent years due to the trend of finding new and green sources of energy. This project presents a state of the art review in the area of using piezoelectric materials to harvest energy from roadways. The aim of this project energy harvesting using piezoelectric material Tue, 04 Dec 2018 13:33:00 GMT energy harvesting using piezoelectric material pdf - Piezoelectricity is the

    Piezoelectric and ferroelectric materials and structures for energy harvesting applications C.R Bowen1, H.A.Kim1, P.M. Weaver2 and S. Dunn3 1 Department of Mechanical Engineering, University of Bath, Bath, BA2 7AY, United Kingdom Energy Harvesting and Systems (EHS) publishes original research in the growing areas of energy harvesting materials, energy storage materials, conversion, and system design. Papers published with EHS cover any or all of the stages of energy harvesting systems.

    Control via Piezoelectric Materials Ya Wang ABSTRACT This work examines a novel concept and design of simultaneous energy harvesting and vibration control on the same host structure. The motivating application is a multifunctional composite sandwich wing spar for a small Unmanned Aerial Vehicle (UAV) with the goal of providing self-contained gust alleviation. The basic idea is that the … Design of DC–DC converter for harvesting maximum power from the multiple piezoelectric energy harvesters is a challenging task. In this work, a method to obtain maximum power from the multiple piezoelectric energy harvesters for supercapacitor charging is proposed.

    A magnetic energy harvesting device has been demonstrated using Magnetostriction. It harvests material stress and vibrations, but it is not a piezoelectric device. The latest demonstration is producing over 2 watts. Back in 2010 a Japanese university researcher developed a small-size vibration Piezoelectric and ferroelectric materials and structures for energy harvesting applications C.R Bowen1, H.A.Kim1, P.M. Weaver2 and S. Dunn3 1 Department of Mechanical Engineering, University of Bath, Bath, BA2 7AY, United Kingdom

    energy harvesting using piezoelectric materials pdf

    on general piezoelectric applications and piezoelectric energy harvesting methods is presented. Efficiency of the Efficiency of the piezoelectric materials is discussed with regard to energy harvesting usage. One such alternative is to use piezoelectric materials. Conceptually mechanical structures convert the kinetic energy of the wind into periodic strains in the piezoelectric material

    Optimum Piezoelectric Bending Beam Structures for Energy

    energy harvesting using piezoelectric materials pdf

    Modern Piezoelectric Energy-Harvesting Materials. Piezoelectric materials Man-made ceramics • Barium titanate (BaTiO 3)—Barium titanate was the first piezoelectric ceramic discovered. • Lead titanate (PbTiO 3) • Lead zirconate titanate (Pb[Zr x Ti1−x]O 3 0≤x≤1)—more commonly known as PZT, lead zirconate titanate is the most common piezoelectric ceramic in use today. • Lithium niobate (LiNbO 3) Naturally-occurring crystals, In the present work we explore some aspects of energy harvesting from unsteady, turbulent fluid flow using piezoelectric generators. Turbulent flows exhibit a large degree of coherence in their spatial and temporal scales, which provides a unique opportunity for energy harvesting..

    Modern Piezoelectric Energy-Harvesting Materials

    A POTENTIAL STUDY OF PIEZOELECTRIC ENERGY HARVESTING. Piezoelectric materials Man-made ceramics • Barium titanate (BaTiO 3)—Barium titanate was the first piezoelectric ceramic discovered. • Lead titanate (PbTiO 3) • Lead zirconate titanate (Pb[Zr x Ti1−x]O 3 0≤x≤1)—more commonly known as PZT, lead zirconate titanate is the most common piezoelectric ceramic in use today. • Lithium niobate (LiNbO 3) Naturally-occurring crystals, One such method is to use piezoelectric film-bending beams inside a shoe, and use part of the mechanical energy employed during normal walking activity. This study analyzes several bending beam structures suitable for the intended application (shoe inserts and walking-type excitation) and obtains the resulting strain for each type as a function of their geometrical parameters and material.

    potential of piezoelectric energy harvesting technology in cars and their environmental impacts. The use of piezoelectric materials in pneumatic tires enables capturing waste energy of cars because of deformations in the tire and weight of the vehicle as well. Piezoelectric material is one of the common smart materials utilized for harvesting vibration energy. This paper presents an This paper presents an experimental study of a rain energy harvester using a piezoelectric beam tested under different rain conditions.

    Energy Harvesting and Systems (EHS) publishes original research in the growing areas of energy harvesting materials, energy storage materials, conversion, and system design. Papers published with EHS cover any or all of the stages of energy harvesting systems. Harvesting kinetic energies is a sustainable method for generating electricity without depleting natural resources. The main mechanisms for kinetic energy harvesting are piezoelectric, electromagnetic, electrostatic or by using magnetostrictive materials.

    Piezoelectric materials are attracting significant research efforts and resources worldwide. The major thrust areas include structural health monitoring, bio-mechanics, bio-medicine and energy harvesting. Piezoelectric energy harvesting and applications Presented by: Nathan Jackson Ph.D . www.tyndall.ie Outline Biography Background on Piezoelectric Energy Harvesting Piezoelectric Materials Latest Research on Piezoelectric Energy Harvesting Tyndall National Institute Other SOA Research Future of Piezoelectric Energy Harvesting using 1D Piezomaterials Other applications (Tyndall Research) …

    To improve the output power of a rotational piezoelectric wind energy harvester, impact-induced resonance is proposed to enable effective excitation of the piezoelectric cantilevers' vibration modes and obtain optimum deformation, which enhances the mechanical/electrical energy transformation. Piezoelectric and ferroelectric materials and structures for energy harvesting applications C.R Bowen1, H.A.Kim1, P.M. Weaver2 and S. Dunn3 1 Department of Mechanical Engineering, University of Bath, Bath, BA2 7AY, United Kingdom

    Characteristics of Energy Storage Devices in Piezoelectric Energy Harvesting Systems Speaker Biography (Wei-Hsin Hsin Liao) Dr. Wei-Hsin Liao is a Professor at The Chinese University of Hong Kong, where he is also the founding director of the Smart Materials and Structures Laboratory. Vibration based energy harvesting using piezoelectric material Abstract: Energy harvesting has been around for centuries in the form of windmills, watermills and passive solar power systems. It is not only restricted to the natural resources but it has widen the tapping source to utilise the vibration which happen all around us.

    a thin soft material as substrate structure, which is Flexible Piezoelectric Sheet (FPS), for wind energy harvesting. To optimize To optimize basic structure and size of the FPS, theoretical approach was provided using a classical modal analysis technique. A Review of Energy Harvesting From Vibration using Piezoelectric Material . Nandish B M, PG Student (EEE), UBDTCE, Davangere, Bhagyashree Hosamani,

    A magnetic energy harvesting device has been demonstrated using Magnetostriction. It harvests material stress and vibrations, but it is not a piezoelectric device. The latest demonstration is producing over 2 watts. Back in 2010 a Japanese university researcher developed a small-size vibration Harvesting kinetic energies is a sustainable method for generating electricity without depleting natural resources. The main mechanisms for kinetic energy harvesting are piezoelectric, electromagnetic, electrostatic or by using magnetostrictive materials.

    E-821 Electronic Module for Energy Harvesting Using Piezo Actuators for Energy Generation OEM electronic module for energy harvesting. For generating energy from vibration. Use in combination with DuraAct patch transducers. Adjustable output voltage. Processes input currents between 20 µA and 40 mA, voltage peaks are limited to 15 V. Custom version for operation with piezo … This paper analyses the behaviour ofpiezoelectric transducer for harvesting energy. The transducer was designedusing different materials for harnessing energy that include Zinc Oxide, LeadZirconate Titanate (PZT-2) and Quartz. The transducer was simulated using thesematerials and the voltage generated from ambient vibrations was analysed.

    Piezoelectric materials Man-made ceramics • Barium titanate (BaTiO 3)—Barium titanate was the first piezoelectric ceramic discovered. • Lead titanate (PbTiO 3) • Lead zirconate titanate (Pb[Zr x Ti1−x]O 3 0≤x≤1)—more commonly known as PZT, lead zirconate titanate is the most common piezoelectric ceramic in use today. • Lithium niobate (LiNbO 3) Naturally-occurring crystals Energy Harvesting and Systems (EHS) publishes original research in the growing areas of energy harvesting materials, energy storage materials, conversion, and system design. Papers published with EHS cover any or all of the stages of energy harvesting systems.

    A review of power harvesting using piezoelectric materials (2003–2006) in power harvesting using piezoelectric materials, including the design of efficient harvesting geometries, improving efficiency through circuitry, implantable and wearable power supplies, harvesting of ambient flows, microelectromechanical devices,self-poweredsensorsand comparisonsofpiezoelectric materials to Analog Devices offers a wide range of ultra low power ICs for energy harvesting applications. Power management products that convert energy from vibration (piezoelectric), photovoltaic (solar), and thermal (TEC, TEG, thermopiles, thermocouples) sources provide high efficiency conversion to regulated voltages or to charge batteries and super capacit

    Piezoelectric material is one of the common smart materials utilized for harvesting vibration energy. This paper presents an This paper presents an experimental study of a rain energy harvester using a piezoelectric beam tested under different rain conditions. The transformation of vibrations into electric energy through the use of piezoelectric devices is an exciting and rapidly developing area of research with a widening range of applications constantly materialising. With Piezoelectric Energy Harvesting, world-leading researchers provide a timely and

    energy harvesting system using active materials for power generation from the shoe sole. The active material as PZT has been employed and modified to be appropriately embedded in the shoe sole. When the mechanical pressure is applied to the embedded shoe sole while walking would extract mechanical vibration energy and convert extracted energy to electrical energy directly from the The articles in this issue cover piezoelectric materials, magnetoelectrics, and thermoelectrics and provide a summary of state-of-the-art energy-harvesting approaches, various material design strategies being targeted by the community, and fundamental challenges in finding an optimum solution and future roadmap. Flexibility of energy harvesters is also emphasized, given the huge potential for

    LOW POWER ENERGY HARVESTING WITH PIEZOELECTRIC GENERATORS

    energy harvesting using piezoelectric materials pdf

    US7397169B2 Energy harvesting using a thermoelectric. Characteristics of Energy Storage Devices in Piezoelectric Energy Harvesting Systems Speaker Biography (Wei-Hsin Hsin Liao) Dr. Wei-Hsin Liao is a Professor at The Chinese University of Hong Kong, where he is also the founding director of the Smart Materials and Structures Laboratory., Approaches to developing footwear for energy harvesting from walking motion, for example, have centered around the use of piezoelectric materials. Piezoelectric materials deform minutely with each step, thereby providing only small, relatively inefficient, voltage generation..

    energy harvesting using piezoelectric materials pdf

    piezoelectric energy harvesting Download eBook pdf epub. This paper analyses the behaviour ofpiezoelectric transducer for harvesting energy. The transducer was designedusing different materials for harnessing energy that include Zinc Oxide, LeadZirconate Titanate (PZT-2) and Quartz. The transducer was simulated using thesematerials and the voltage generated from ambient vibrations was analysed., PIEZOELECTRIC ENERGY HARVESTING DEVICES Rochester Institute of Technology Microelectronic Engineering A piezoelectric material will exhibit a change in length in response to an applied voltage. The reverse is also possible where an applied force causes the generation of a voltage. Single crystal quartz has been used for piezeoelectric devices such as gas grill igniters and piezoelectric.

    Chaotification as a Means of Broadband Energy Harvesting

    energy harvesting using piezoelectric materials pdf

    Energy Harvesting Piezo Ceramic Technology Piezo. Approaches to developing footwear for energy harvesting from walking motion, for example, have centered around the use of piezoelectric materials. Piezoelectric materials deform minutely with each step, thereby providing only small, relatively inefficient, voltage generation. https://en.wikipedia.org/wiki/Piezoelectric_effect Characteristics of Energy Storage Devices in Piezoelectric Energy Harvesting Systems Speaker Biography (Wei-Hsin Hsin Liao) Dr. Wei-Hsin Liao is a Professor at The Chinese University of Hong Kong, where he is also the founding director of the Smart Materials and Structures Laboratory..

    energy harvesting using piezoelectric materials pdf

  • A review of power harvesting using piezoelectric materials
  • Vibration based energy harvesting using piezoelectric material

  • Piezoelectric materials have found their place in the energy harvesting sector for harnessing power ranging from nanowatts to some watts i.e. from micro-scale to macro- Harvesting kinetic energies is a sustainable method for generating electricity without depleting natural resources. The main mechanisms for kinetic energy harvesting are piezoelectric, electromagnetic, electrostatic or by using magnetostrictive materials.

    A Review of Energy Harvesting From Vibration using Piezoelectric Material . Nandish B M, PG Student (EEE), UBDTCE, Davangere, Bhagyashree Hosamani, There is little understanding of the effects of porous piezoelectric materials in energy harvesting. This paper aims to ll this gap in knowledge through a study of porous piezoelectric bimorph beams under harmonic excitation. Using the mean-eld homogenization approach, the effective material properties are calculated for different percentage of porosity. These properties are then used to model

    In the present work we explore some aspects of energy harvesting from unsteady, turbulent fluid flow using piezoelectric generators. Turbulent flows exhibit a large degree of coherence in their spatial and temporal scales, which provides a unique opportunity for energy harvesting. Design of DC–DC converter for harvesting maximum power from the multiple piezoelectric energy harvesters is a challenging task. In this work, a method to obtain maximum power from the multiple piezoelectric energy harvesters for supercapacitor charging is proposed.

    ABSTRACT LOW POWER ENERGY HARVESTING WITH PIEZOELECTRIC GENERATORS Sunghwan Kim, PhD University of Pittsburgh, 2002 Energy harvesting using piezoelectric material is not a new concept, but its generation With the decrease in energy consumption of portable electronic devices, the concept of harvesting renewable energy in human surrounding arouses a renewed interest.

    For energy harvesting during daily activities, first of all, a shoe sole design, which includes piezoelectric materials and is suitable for personal use, was realized. The design was drawn using SolidWorks 2013 package software and afterward, it was uploaded to the COMSOL Multiphysics 4.3 package software and its mechanical analysis was realized using the finite elements methods. Data … on general piezoelectric applications and piezoelectric energy harvesting methods is presented. Efficiency of the Efficiency of the piezoelectric materials is discussed with regard to energy harvesting usage.

    The theoretical limits of piezoelectric energy harvesting on human applications have suggested that 1.27 W could be obtained from walking by using a piezoelectric generator Toward Energy Harvesting Using Active Materials and Conversion Improvement by Nonlinear Processing Daniel Guyomar, Adrien Badel, Elie Lefeuvre, and Claude Richard Abstract—This paper presents a new technique of elec-trical energy generation using mechanically excited piezo-electric materials and a nonlinear process. This technique, called synchronized switch harvesting (SSH), is …

    energy harvesting using piezoelectric materials pdf

    A novel energy harvesting system and method utilizing a thermoelectric having a material exhibiting a large thermally induced strain (TIS) due to a phase transformation and a material exhibiting a stress induced electric field is introduced. A material that exhibits such a phase transformation exhibits a large increase in the coefficient of There is little understanding of the effects of porous piezoelectric materials in energy harvesting. This paper aims to ll this gap in knowledge through a study of porous piezoelectric bimorph beams under harmonic excitation. Using the mean-eld homogenization approach, the effective material properties are calculated for different percentage of porosity. These properties are then used to model

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