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Investigation of Photochemical Smog Formation after Removal of Water Soluble Organic and Inorganic Fractions in the Diesel Exhaust Fume

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dc.contributor.author Palliyaguru, N.P.L.
dc.contributor.author Jayaweera, P.M.
dc.date.accessioned 2017-10-09T05:39:57Z
dc.date.available 2017-10-09T05:39:57Z
dc.date.issued 2016
dc.identifier.citation Palliyaguru, N.P.L., Jayaweera, P.M. (2016). "Investigation of Photochemical Smog Formation after Removal of Water Soluble Organic and Inorganic Fractions in the Diesel Exhaust Fume", Proceedings of the International Forestry and Environment Symposium 2016, Department of Forestry and Environmental Science, University of Sri Jayewardenepura, Sri Lanka., Vol.21, 42 p. en_US, si_LK
dc.identifier.uri http://dr.lib.sjp.ac.lk/handle/123456789/5684
dc.description.abstract Attached en_US, si_LK
dc.description.abstract The exhaust fume from internal combustion engines has been one of the largest pollutants in aquatic and atmospheric systems in the world1 . The formation of oxides of nitrogen under high pressures and temperatures during the combustion process of the engine initiates a chain of reactions with volatile organic compounds (VOC’s) in the presence of UV light to form photochemical smog in the atmosphere3 . This research investigates the possibility to reduce the photochemical smog by removing a water soluble fraction of diesel fumes. In the general experimental set up of this research, the diesel exhaust line that comes out from Toyota 2C diesel engine is connected to a smog chamber equipped with UV light source. It was measured that the pH of the water drops to 2.9 from 5.8 in 20 min during the function of diesel engine at idle mode. The Fig. 1(a) shows the UV-Vis spectrum of diesel fumes directly purged into distilled water samples. It shows the dissolution of some VOC’s in water. The Fig. 1(b) represents the UV-VIS spectrum of diesel fumes that initially go through the smog chamber and then purged into cyclohexane. Fig.1(c) represents the UV-VIS spectrum of the samples that were collected after the diesel fumes were fed into the water tank prior to sending it into the smog chamber. Fig. 1(c) demonstrates a good enhancement of a broad peak from 230 nm to 280 nm that corresponds to water insoluble portion of the diesel fume. The relative increase of the water insoluble fraction from Fig. (b) to (c) proves a deduction of water soluble fraction in the diesel fumes. This could in turn have a positive effect on the atmospheric pollution.
dc.language.iso en_US en_US, si_LK
dc.publisher Proceedings of the International Forestry and Environment Symposium 2016, Department of Forestry and Environmental Science, University of Sri Jayewardenepura, Sri Lanka. en_US, si_LK
dc.subject Photochemical smog en_US, si_LK
dc.subject Volatile organic compounds en_US, si_LK
dc.subject UV-VIS spectrum en_US, si_LK
dc.title Investigation of Photochemical Smog Formation after Removal of Water Soluble Organic and Inorganic Fractions in the Diesel Exhaust Fume en_US, si_LK
dc.type Article en_US, si_LK


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