This paper is published in Volume-5, Issue-2, 2019
Area
Mechanical Engineering
Author
Shubham Mohan Bhagwat, Dnyaneshwar Satish Shinde, Chandan Mangilal Purohit, Shubham Rajendra Naik
Org/Univ
Shree Ramchandra College of Engineering, Pune, Maharashtra, India
Pub. Date
29 April, 2019
Paper ID
V5I2-2001
Publisher
Keywords
Power transmission, Mechanical drives, Mechanism rack and pinion, Chain and sprocket, Design of flywheel, Design of gearbox, Design of alternator and its manual testing

Citationsacebook

IEEE
Shubham Mohan Bhagwat, Dnyaneshwar Satish Shinde, Chandan Mangilal Purohit, Shubham Rajendra Naik. Power generation through forging press, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
Shubham Mohan Bhagwat, Dnyaneshwar Satish Shinde, Chandan Mangilal Purohit, Shubham Rajendra Naik (2019). Power generation through forging press. International Journal of Advance Research, Ideas and Innovations in Technology, 5(2) www.IJARIIT.com.

MLA
Shubham Mohan Bhagwat, Dnyaneshwar Satish Shinde, Chandan Mangilal Purohit, Shubham Rajendra Naik. "Power generation through forging press." International Journal of Advance Research, Ideas and Innovations in Technology 5.2 (2019). www.IJARIIT.com.

Abstract

In the present scenario, the fossil fuel sources are depleting and their combustion products are causing global environmental problems. So it is inevitable to shift towards the use of renewable energy sources which in turn will reduce pollution and fossil fuels. For meeting the regular demand for energy we need to design a system such that electricity can be produced without destroying nature. Our projects attempt to show how energy can be taped and used at a commonly used machine, press machine and forging machine. The number of machines used in industries is increasing day by day. There is a possibility of utilizing the linear motion of ram or press to generate power by making the press machine as a power generation unit. The generated power can be used to light up nearby lights and fans around the machine. In the present work, a working model of the power generation unit is made. A similar model of the system has also been modeled in Pro-E. Design of each component is carried using standard procedure. The components are fabricated and finally assembled. The linear motion of the component is converted into rotary motion using the rack and pinion mechanism. The speed obtained is in turned amplified using a set of gears. This amplified speed is used to run an alternator to produce power. Theoretical calculations of power & practical power are compared in order to find the efficiency of the power generation used. The utilization of energy is an indication of the growth of the nation. This work utilizes one of the best sources of energy we get in our day today life.