Development of energy harvesting using speed breaker

被引:0
|
作者
机构
[1] Haris, H.C. Mat
[2] Nor, M A N Mohd
[3] Rahiman, M. H. Fazalul
[4] Rahman, N F A Abdul
来源
| 1600年 / Institute of Electrical and Electronics Engineers Inc., United States卷
关键词
Energy can neither be created or be destroyed and can only be transform from one form to another. Pressure is a kind of energy that is exerted almost all the time as force and can be either reused within the same process or transferred to another process. Force or when it converts into energy is called potential energy and free of charge energy. Thus; this energy can reduce the operating cost and can increase the output productivity. Pressure has large opportunities and stronger range of force recovery on the road. Therefore; this project utilizes force created from vehicle hump as an alternative and new renewable energy source. A model of road speed breaker which uses power hump technology is used as device to harness force created from applied pressure from the heavy vehicles hitting the speed breaker which act as the input. The speed breaker is used as it can function into two different uses such as for slowing of road vehicles and hence generating energy by harnessing applied force into electrical energy. The electrical energy produced can either be use to power up street lights or stored in a battery for emergency purposes. © 2016 IEEE;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
  • [41] Development of a Wave Buoy Device For Energy Harvesting Renewable Energy
    Khairallah, Christine
    Eid, Elias
    Rahme, Pierre
    Bou-Mosleh, Charbel
    2019 FOURTH INTERNATIONAL CONFERENCE ON ADVANCES IN COMPUTATIONAL TOOLS FOR ENGINEERING APPLICATIONS (ACTEA), 2019,
  • [42] Detection of Potholes and Speed Breaker on Road
    Singh, Gurpreet
    Kumar, Rajeev
    Kashtriya, Poonam
    2018 FIRST INTERNATIONAL CONFERENCE ON SECURE CYBER COMPUTING AND COMMUNICATIONS (ICSCCC 2018), 2018, : 490 - 495
  • [43] Development of a Piezoelectric Polymer Energy Harvesting Flag
    Nishigaki, Tsutomu
    ACTIVE AND PASSIVE SMART STRUCTURES AND INTEGRATED SYSTEMS 2013, 2013, 8688
  • [44] Energy harvesting using piezoelectric materials
    Nayyar, Tushar
    Pubby, Kunal
    Narang, Sukhleen Bindra
    Mishra, Ritendra
    INTEGRATED FERROELECTRICS, 2016, 176 (01) : 268 - 274
  • [45] Energy Harvesting Using Thermoelectric Generators
    Dalala, Zakariya M.
    2016 IEEE INTERNATIONAL ENERGY CONFERENCE (ENERGYCON), 2016,
  • [46] Energy Harvesting Using Substrate Photodiodes
    Pour, Golsa Moayeri
    Benyhesan, Mohammad K.
    Leon-Salas, Walter D.
    IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS, 2014, 61 (07) : 501 - 505
  • [47] Energy Harvesting Using Dielectric Elastomers
    van Kessel, Rick
    Czech, Balazs
    Bauer, Pavol
    2012 IEEE POWER AND ENERGY SOCIETY GENERAL MEETING, 2012,
  • [48] Energy harvesting using Dielectric Elastomers
    Czech, Balazs
    van Kessel, Rick
    Bauer, Pavol
    Ferreira, Jan Abraham
    Wattez, Ambroise
    PROCEEDINGS OF 14TH INTERNATIONAL POWER ELECTRONICS AND MOTION CONTROL CONFERENCE (EPE-PEMC 2010), 2010,
  • [49] Development of Semiconducting Polymers for Solar Energy Harvesting
    Liang, Yongye
    Yu, Luping
    POLYMER REVIEWS, 2010, 50 (04) : 454 - 473
  • [50] Energy harvesting using Metamaterial Filters
    George, Betsy
    Sreeja, Baby S. D.
    Menon, Sreedevi K.
    PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON INTELLIGENT SUSTAINABLE SYSTEMS (ICISS 2017), 2017, : 438 - 441
12345