DESIGNING AN IOT BASED EMERGING MECHANISM GENERATING ELECTRIC ENERGY THROUGH SPEED BREAKER
Badri Narayan Mohapatra
badri1.mohapatra@gmail.comPune University, Department of Instrumentation and Control, Kenney Road, Near R.T.O., Pune (India)
https://orcid.org/0000-0003-1906-9932
Rahul Bhite
Final year students of AISSMSIOIT Instrumentation and Control Department, Pune University (India)
Abhishek N. Mehendal Mehendal
Final year students of AISSMSIOIT Instrumentation and Control Department, Pune University (India)
Abstract
The economy of any country depends on its ability to conserve and regenerate energy. Therefore, it is a key element for the development of any country. Every second its supply is rapidly becoming exhausted in this fast and busy moving world. The continuous and dynamic rise in the world’s population has a great impact on energy crisis. Due to this, an optimal method of utilising energy needs to be developed. For instance, eco-friendly solutions for vehicles. An effective generation of power can be obtained with three steps, one as linear motion to rotary and again rotary motion to produce electricity. Owing to this concept, energy can be preserved, and its implementation is essential for current situation considering a high rate of world’s population.
Keywords:
Energy, power production, prototype model, IOT based informationReferences
Emovon, I. A. Model for determining appropriate speed breaker mechanism for power generation.” J. Appl. Sci. Process Eng Vol.5, PP.256-265,2018.
Google Scholar
Olugboji, O. A., et al. ”Modelling and design of an auto street light generation speed breaker mechanism.” American journal of mechanical engineering Vol.3, No.3, pp.84-92,2015.
Google Scholar
Kolhe, Kiran, and Amar Pandhare ”Electric Power Generation System from Speed Breaker by using Rack and Pinion Mechanism.” International Journal of Current Engineering and Technology Vol7, No.3, pp.1151-1158, 2017.
Google Scholar
Prakash, Ch Bhanu, AV Ramana Rao, and P. Srinuvas. ”Road power generation by speed breaker.” International Journal of Engineering Trends and Technology (IJETT), and ISSN, pp.2231- 5381, 2014.
Google Scholar
Hossain, Md Emran, Md Rokib Hasan, Kazi Tahsan Ahmed, and Md Naoshat Munim Shawon. ”Design and performance of power generation using speed breaker with the help of Rack and Pinion mechanism.” In Advances in Electrical Engineering (ICAEE), 2017 4th International Conference on, pp. 7-11. IEEE, 2017.
Google Scholar
Santhosh, M. R., B. Shashi Kumar, and T. Yuvaraja. ”Energy harvesting using speed breaker mechanism.” Electrical, Electronics, Communication, Computer, and Optimization Techniques (ICEECCOT), 2017 International Conference on. IEEE, 2017.
Google Scholar
Patil, Kavita, et al. ”IoT based power management and controlled socket.” Electrical, Electronics, Communication, Computer, and Optimization Techniques (ICEECCOT), 2017 International Conference on. IEEE, 2017.
Google Scholar
Bhagdikar, Piyush, et al. ”Generation of electricity with the use of speed breakers.” International Journal of Advances in Engineering and Technology Vol7, No.2, pp- 589, 2014
Google Scholar
Minoli, Daniel, Kazem Sohraby, and Benedict Occhiogrosso. ”IoT considerations, requirements, and architectures for smart buildings Energy optimization and next-generation building management systems.” IEEE Internet of Things Journal Vol.4 No.1 pp. 269-283,2017.
Google Scholar
Lilis, Georgios, et al. ”Towards the next generation of intelligent building: An assessment study of current automation and future IoT based systems with a proposal for transitional design.” Sustainable cities and society 28, pp.473-481, 2017
Google Scholar
Srivastava, Prakhar, Mohit Bajaj, and Ankur Singh Rana. ”IOT based controlling of hybrid energy system using ESP8266.” 2018 IEEMA Engineer Infinite Conference (eTechNxT). IEEE, 2018.
Google Scholar
Poongothai, M., P. Muthu Subramanian, and A. Rajeswari. ”Design and implementation of IoT based smart laboratory.” 2018 5th International Conference on Industrial Engineering and Applications (ICIEA). IEEE, 2018.
Google Scholar
Zaid, Malik Muhammad, et al. ”DSP Based Energy Monitoring with Online DAQ System.” Open Access International Journal of Science and Engineering 2.5 x: pp.9-16, 2018.
Google Scholar
Majumdar, Sagar, et al. ”Optimizing the Available Technology: Tunnel Safety and Energy Conservation System.” Intelligent Communication, Control and Devices. Springer, Singapore, pp. 1361-1368, 2018.
Google Scholar
Jaffe, Samuel R. ”Design of Inexpensive and Easy To Use DIY Internet of Things Platform.” (2016).
Google Scholar
Authors
Badri Narayan Mohapatrabadri1.mohapatra@gmail.com
Pune University, Department of Instrumentation and Control, Kenney Road, Near R.T.O., Pune India
https://orcid.org/0000-0003-1906-9932
Authors
Rahul BhiteFinal year students of AISSMSIOIT Instrumentation and Control Department, Pune University India
Authors
Abhishek N. Mehendal MehendalFinal year students of AISSMSIOIT Instrumentation and Control Department, Pune University India
Statistics
Abstract views: 197PDF downloads: 100
License
This work is licensed under a Creative Commons Attribution 4.0 International License.
All articles published in this journal are open access and distributed under the terms of the Creative Commons Attribution 4.0 International License.
