An International Journal House
Einstein International Journal Organization(EIJO)
Connecting People With Genius Thought
JOURNALS || EIJO Journal of Science, Technology and Innovative Research (EIJO – JSTIR) [ ISSN : 2455 - 9938 ]
A Study and Implementation of Electricity Generation System at Toll Tax Road Using Piezo Electric Materials
Author Names : Nainy Chauhan1, Muskaan Garg2
Volume 2 Issue 3
Abstract
In the presence days, electricity and power is the most useful and needy thing for human life. Seeing the need of electricity there is the demand to develop renewable sources for generation of the power as there is a shortage of conventional sources. When vehicles moves it produces kinetic energy, which is the wasted so without wasting the kinetic energy we can utilize the power which is generated by using a power hump at toll tax. For decreasing the energy demand of global consumption, renewable sources are needed to be developed. This paper presents about the piezoelectric crystals or materials which helps to produce electricity from the vibration of car on the road due to which movement of automobiles is proposed. This paper gives us the summary about the sensor which will give a great benefit to the lifetime of fossil fuel which simultaneously helps in preventing the pollution of environment.
Keywords: Energy Generator, Sensor, Pads of Metallic Crystals, Piezoelectric Effect.
[1].Shubham Aggarwal, Abhinav Sharma et al. “Piezoport energy harvesting on airport runaway using piezoelectric devices” Innovation in technology conference, 2014.
[2]. Aqsa abbasi et al. “Application of piezoelectric materials in smart roads and MEMS PMPG Power generation with transverse mode thin film PZT” International Journal of Electrical and Computer Engineering (IJECE)Vol. 3, No. 6, December 2013, pp. 857~862.
[3]. Jacques and Pierre Curie (1880) “Development par compression de llectricit plaire dans les cristaux hmidres faces inclines” (Development via compression, of electric polarization in hemihedral crystals with inclined faces), Bulletin de la Socit minrologique de France, vol. 3, pages 90-93.
[4]. Chang Liu, “Piezoelectric Sensing and Actuation”, Foundation of MEMS, Second Edition, India, Pearson, 2012
[5]. Holler, F. James; Skoog, Douglas A; Crouch, Stanley R (2007). "Chapter 1". Principles of Instrumental Analysis (6th Ed.). Cengage Learning.p. 9. ISBN 978-0-495-01201-6.
[6]. Harper, Douglas. "Piezoelectric". Online Etymology Dictionary.
[7]. Gautschi, G (2002). Piezoelectric Sensorics: Force, Strain, Pressure, Acceleration and Acoustic Emission Sensors, Materials and Amplifiers. Springer.
[8]. J. Krautkrämer and H. Krautkrämer (1990). Ultrasonic Testing of Materials. Springer.
[9]. Garnett E. Simmers Jr., Henry A. Sodano Center for Intelligent Materials Systems and Structures, Mechanical Engineering Department, Virginia.
[10]. Starner, T., 1996, “Human-Powered Wearable Computing,” IBM Systems Journal, Vol. 35, pp. 618.
[11]. Stephen R. Platt, Shane Farritor, and Hani Haider “On Low-Frequency Electric Power Generation With PZT Ceramics”.
[12]. V. Hugo Schmidt, “Piezoelectric energy conversion in windmills,” in Proc. Ultrasonic Symp., 1992, pp. 897–904.