International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395-0056
Volume: 09 Issue: 06 | June 2022
p-ISSN: 2395-0072
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Amplification and recirculation of output power in a compound gear train Vishrut Anand 1Vishrut
Anand, Contact address: vishrutanand29@gmail.com ---------------------------------------------------------------------***--------------------------------------------------------------------demand from carbon-based power sources to nuclear and Abstract - Conventional power generation since the renewables.
discovery of currents in the 19th century has experienced challenges beyond generation alone. Electricity has been widely explored for its nature and interactions in spacetime for development of the academic understanding of its behaviour, and that of its by-product force, magnetism. The growth of understanding of these energies has formed the basis for modern electricity generation and distribution infrastructure for the large-scale demand and its day-byday growth. At our current level of technology, we have non-renewable power sources like coal-based and nuclear fuels, that are reliable and scalable, thus being the largest sources of electricity today. Electricity generated by these sources is, however, usable after numerous long-range transmissions and transductions to eventually achieve mechanical motions in appliances owned by end-users. The most common transducer of electricity to mechanical and kinetic are gears.
While solar panels can be installed on roofs and privatise the energy generation process, reducing load on long distance electricity transmission, electricity is still distributed through centralised sources, including the three renewables through large swathes of land covered in solar panels, wind turbine towers, and hydropower dams. The scalability and implementation of most renewables according to the recent report of the Intergovernmental Panel on Climate Change (IPCC), affect their acceptability and larger footprint in the renewable energy space. As such, new innovations in optimizing renewable power sources can be a solution for large scale implementation. Objectives of this concept paper
While gears have been used widely in numerous fields like in the gearboxes of cars, trains, printers, various machinery for woodwork, pharmaceuticals, and many more, there is a use that this concept paper seeks to pave the application of gear concepts towards:
This concept paper aims to explore the possibility of a system which can generate power as a space-efficient, portable, cost saving and decentralised source. This concept paper aims to suggest the use of the gear train for purpose of revolution speed maximization. Also to quantify the degree and duration of mechanical energy transfer to the power generation components relying on rotational mechanical force for input. Under the condition that the due input is sourced from the same power generation components.
Renewable energy. Simply put, it is common knowledge that gears are used for maximising torque and rotation speed. The solution proposed to be explored behind this concept paper is harnessing the power of gears to enhance revolution speeds for electricity production. The shaft rotation of a dynamo, tachogenerator, or any such device that transmutes mechanical energy and kinetic energy from rotation to useful electricity.
1. Literature Review
Alternators,
“Wind turbine gearboxes” by Energiforsk, 2016-2017: This research explored the concept of reliability effect of a gearbox in a wind turbine. Our research explores gearboxes and focuses on the overall apparatus capability to maintain a circular electricity flow without wind kinetic energy.
Today energy requirement is growing faster than ever before, and the additional demand is for the new installed generating capacity to be environmentally friendly. The present geopolitical situation at the time of writing this paper as well as the 2015 Paris Climate Accords, which is a push for sustainable development, move the world
“Generation of electricity using gear watch mechanism without using fuel,” March 2015. D.V Rojatkar, Mangesh Kore, Deepak Hatzade, Rahul Singade, and Suraj Khengar. This concept paper too, focuses on using a system that does not rely on fuel or renewable energy for revolutions. In our system, we do not consider worm wheels an optimum addition to the speed increases and there is no
Key Words: Gears, Motor, Dynamos, Tachogenerator, Renewable energy.
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