Applications to Engineering Physics for Reducing Air Pollution
Science Innovation
Volume 3, Issue 6, December 2015, Pages: 117-120
Received: Sep. 2, 2015; Accepted: Sep. 19, 2015; Published: Oct. 14, 2015
Views 3169      Downloads 92
Author
Arezu Jahanshir, Department of Engineering Physics, Buein Zahra Technical University, Qazvin, Iran
Article Tools
Follow on us
Abstract
Taking advantage of modern technology of the macro ionization of air in the air conditioning systems in order to promote the industrial air conditioning systems can be an appropriate way to resolve industrial centers and hospital's pollution, and also resolve monitoring of air in the urban tunnels. Breathing space around us is a mixture of particles and neutral and charged molecules, so by looking back at industrial achievements of tools and instruments of the air conditioners, electrical discharge method is practical and appropriate. In addition to refining of air pollutants, there is also the possibility of removing germs. Macro Air Ionization Technology (MAIT) in the industrial, hospital and urban tunnels is one of the offering methods of increasing healthy air as usual methods in environment. MAIT is a hi-tech equipment for improving air. One of these technologies is Negative Air Ionization Technology (NAIT). In the NAIT equipment air molecules after ionization change Negative Ion Concentrations in the room, tunnels and sheds. The negative ion molecules especially oxygen, will provide a healthy environment for plants growth process. Using NAIT, anions have the ability to conquest the microbes and microorganism. According to the performed research, utilizing the air ventilation modern technologies, have an efficient effect on the quantity and quality of important place as hospitals. For this reason, negative ion injections by MAIT into the air could be a part of research policies in developing and least developing countries for effective exploitation and correction of the Health and Safety Executive (HSE) conditions, as it was the part of basic research policies in last 40 years in developed countries. In this paper, we try to introduce hi-tech MAIT equipment based on corona discharge method.
Keywords
Air Ionization, Corona Discharge, Airborne, Antimicrobial Infections, Healthy Air
To cite this article
Arezu Jahanshir, Applications to Engineering Physics for Reducing Air Pollution, Science Innovation. Vol. 3, No. 6, 2015, pp. 117-120. doi: 10.11648/j.si.20150306.19
References
[1]
Chen, J., Davidson, J. H., “Electron density and energy distributions in the positive DC corona: Interpretation for corona-enhanced chemical reactions”, Plasma Chemistry and Plasma Processing, 22. 199-224. 2002.
[2]
Zhao, L., Adamiak, K., “EHD flow in air produced by electric corona discharge in pin-plate configuration”, Journal of Electrostatics, 63(3-4). 337-350. 2005.
[3]
Jahanshir A., et al., “Mechanism of Corona Discharge Process and Reducing Effects on Urban Air Pollution”, National Conference on Air Pollution Monitoring, Effects and Controlling Actions, Science and Research Branch of Islamic Azad University, Ahwaz, Iran, 110-116. 2013.
[4]
Jahanshir A., “Artificial Injection of Charged Particles and Reducing Concentration of Dust and Pollution”, National Conference on Air Pollution Monitoring, Effects and Controlling Actions, Science and Research Branch of Islamic Azad University, Ahwaz, Iran, 56-63. 2013.
[5]
Jahanshir A., “Artificial Air Ionization Process in Reducing Gas Pollutions”, National Conference on New Technologies in Controlling of Environmental Pollutions, Sharif Technical University, Tehran, Iran, 95-100. 2013.
[6]
Tyagi, AK, Malik, A., “Antimicrobial action of essential oil vapours and negative air ions against Pseudomonas fluorescens”, International journal of food microbiology, 143(205). 10. 2010.
[7]
Hirsh, H., Coen, M. H., Mozer, M. C., Hasha, R. and Flanagan, J. L, “Room service, AI-style,” IEEE intelligent systems, 14 (2). 8-19. Jul.2002.
[8]
Kellogg, E. W, Yost, M. G, Barthakur, N., Kreuger, A. P., “Superoxide involvement in the bactericidal effects of negative air ions on Staphylococcus albus”, Nature, 281(400)1. 1979.
[9]
Fan, X., Fett, W. F., Mitchell, B. W., “Effect of negative air ions on Escherichia coli ATCC 25922 inoculated onto mung bean seed and apple fruit”, Journal of food protection, 70(204). 8. 2007.
[10]
Soyka F, The ion effect, Bantum,Premium,U.S., 1991.
[11]
Reilly T., Stevenson I., An investigation of the effects ofnegative air ions on responses to submaximal exercise at different times of day, Journal Human Ergol, 22(1)1-9, 1993.
[12]
Combination of Engineering Physics and Modern Scientific Management in High Technology Achievements, Scientific Journal of Pure and Applied Sciences, 4(2), 39-43, 2015.
[13]
Combination of Air Ionization and Engineering Physics Methods for Optimization Agroindustry, Scientific Journal of Review, 4(1), 7-9, 2015.
ADDRESS
Science Publishing Group
1 Rockefeller Plaza,
10th and 11th Floors,
New York, NY 10020
U.S.A.
Tel: (001)347-983-5186