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Vinith Gowda, N.
- A Brief Study on Laser Ignition System and its Performance Requirements
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Authors
Affiliations
1 Institute of Technology, Bengaluru affiliated to VTU, Belagavi, IN
2 Department of Mechanical Engineering, Sir M. V. I. T, Bengaluru, IN
1 Institute of Technology, Bengaluru affiliated to VTU, Belagavi, IN
2 Department of Mechanical Engineering, Sir M. V. I. T, Bengaluru, IN
Source
Manufacturing Technology Today, Vol 18, No 5 (2019), Pagination: 41-47Abstract
Combustion is one of the most prominent energy conversion processes used in all areas of human life, even though it is being used on a large scale in various fields it has vital drawbacks like emission of greenhouse gases from IC engines majorly affecting the environment on a global level. One of the reasons of this issue being improper or inefficient ignition of the air-fuel mixture. However, this can be reduced to an extent by employing methods like lean combustion and re-circulating the exhaust gases. This is when the need of an alternative ignition system is required, one such concept being LASER IGNITION SYSTEM for internal combustion engines. On comparison laser ignition system provides number of potential benefits over conventional ignition by electric spark plug. Use of laser ignition system comes with advantages like- Reduction of NOx emission by 20% also improved efficiencies are obtained. The thermodynamic requirements of high compression ratios and high power density are fulfilled well by this system.Therefore, laser ignitors could replace conventional spark plugs in automobile industry. This not only provides better performance and fuel economy, but would also create less harmful emissions.Keywords
Laser Ignitor, Spark Plug, Nox Emissions, Fuel Efficiency, Gas Lasers, Multi Point Ignition.References
- Bradley, D; Sheppard, CGW; Suardjaja, IM; Woolley, R: Fundamentals of high-energy spark ignition with lasers, 'Combust. Flame', vol. 138, no. 1-2, 2004, 55-77.
- Maker, PD; Terhune, RW; Savage, CM: Optical third harmonic generation, In: '3rd Int. Conf. Quantum Elect., Paris, France', 1963, 1559-1572.
- Dodd, RD: Laser Ignition of an Internal Combustion Engine, PhD Thesis, Univ. of Liverpool, 2007.
- Dale, J D; Smy, PR; Clements, RM: Laser ignited internal combustion engine – An experimental study, 'Proceedings of SAE Congress Detroit', paper 780329.
- Phuoc, TX: Laser-induced spark ignition fundamental and applications, 'Optics and Lasers in Eng', vol. 44, 351-397, 2006.
- Mullett, JD: Laser-Induced Ignition Systems for Gasoline Automotive Engines, PhD Thesis, University of Liverpool, 2009.
- Ronney, PD: Laser versus conventional ignition offlames, 'Opt. Eng.', vol. 33, no. 2, 1994.
- Kofler, H: Development of a Laser Spark Plug and Comparative Testing, PhD Thesis, Faculty of Electrical Engineering and Information Technology, Vienna University of Technology, Vienna, Austria, 2009.
- Gupta, S; Sekar, R; Fiskum, R: In-cylinder NOx Reduction Technologies in Advanced Reciprocating Engine Systems (ARES), ARES Peer Review, Arlington, VA, Dec. 13-15, 2005
- Assembly of Automated Processing Setup Using Conveyor System
Abstract Views :98 |
PDF Views:0
Authors
Affiliations
1 Sir M Visvesvaraya Institute of Technology, Bangalore, IN
1 Sir M Visvesvaraya Institute of Technology, Bangalore, IN
Source
Manufacturing Technology Today, Vol 20, No 9-10 (2021), Pagination: 27-32Abstract
The industrial cleaning today is complex undertaking. Each cleaning problem is unique from others because of many variables in manufacturing process integrating the cleaning process with production & plant requirement through a proper equipment sizing & selection is very important. The Project presented mainly focuses on an effective solution for conventional processing systems carried out in industries to reduce the manual efforts. The simplest version for automation in the field of demagnetizing, cleaning & counting is the result of our research & project. The main idea of our Project is to fabricate a simple conveyor belt system and automate the processing of Machined Components. By developing such system the production rate of the manufacturing industry will be increased since these systems replaced the human resources. Also, the accidents in manufacturing industry can be prevented because the uses of operator in manufacturing floor had been reduced.Keywords
Industrial Washing, Demagnetizer, Automation.References
- Dongre, A., & Mohite, N. Y. (2015). Significance of Selection of Material Handling System Design in Industry – A Review. International Journal of Engineering Research and General Science. 3(2), ISSN 2091-2730.
- Gaikwad, A., Raut, Y., Desale, J., Palhe, A., Shelar, G., Pawar, S. (2017). Design and development of Automated Conveyor System for Material Handling. IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE). e-ISSN: 2278-1684, P-ISSN: 2320-334X, 31-34.
- Ito, T., Kasahara, A., Hori, M., (2017). Novel Demagnetization Method after Magnetic Particle Testing. 15th Asia Pacific Conference for Non-Destructive Testing (APCNDT2017), Singapore. [ID253], 1-16.
- Tandale, P., Shivpuje, S., Ladkat, S., & Simran, K. (2015). Design of Washing Machine for Cleaning of Small Components. International Journal of Emerging Engineering Research and Technology. 3(4), ISSN 2349-4395 (Print) & ISSN 2349-4409 (Online), 30-36.