최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기International journal of engine research, v.1 no.4, 2000년, pp.291 - 300
Bouris, D (Imperial College of Science, Technology and Medicine Department of Mechanical Engineering London, UK) , Crane, R I (Imperial College of Science, Technology and Medicine Department of Mechanical Engineering London, UK) , Evans, J M (Johnson Matthey Technology Centre Reading, UK) , Tippayawong, N (Imperial College of Science, Technology and Medicine Department of Mechanical Engineering London, UK)
The growing importance of understanding and controlling particulate emissions from gasoline engines is outlined, and an experimental simulation approach is described which has the potential for exploring particle deposition/capture and oxidation phenomena under well-controlled conditions, thus avoi...
COMEAP. Quantification of the effects of air pollution on health in the United Kingdom. Department of Health Committee on Medical Effects of Air Pollution, The Stationary Office, 1998.
Pope, C. Arden, Dockery, Douglas W., Schwartz, Joel. Review of Epidemiological Evidence of Health Effects of Particulate Air Pollution. Inhalation toxicology, vol.7, no.1, 1-18.
HEI. Program summary: Research on particulate matter 1999
Harrison R. M., Airborne particulate matter in the United Kingdom. 3rd Report of Quality of Urban Air Review Group, UK Department of the Environment, 1996.
Adersson J. Gasoline direct-injection (GDI) particle size analyses. In 2nd Annual Vehicle Particulate Emissions Meeting, Department of Engineering, University of Cambridge, 9 April 1999.
Gertler A. Real-world measurements of diesel particulate matter. In US EPA CAAAC Mobile Sources Technical Review Subcommittee Meeting, Washington, DC, 13 October 1999; http://transaq.ce.gatech.edu:80/epatec/documents/gertler.pdf (accessed May 2000).
Maricq, M. M., Podsiadlik, D. H., Chase, R. E.. Gasoline Vehicle Particle Size Distributions: Comparison of Steady State, FTP, and US06 Measurements. Environmental science & technology, vol.33, no.12, 2007-2015.
Maricq, M. M., Podsiadlik, D. H., Chase, R. E.. Examination of the Size-Resolved and Transient Nature of Motor Vehicle Particle Emissions. Environmental science & technology, vol.33, no.10, 1618-1626.
Kittelson, David B.. Engines and nanoparticles : a review. Journal of aerosol science, vol.29, no.5, 575-588.
Kayes, D., Hochgreb, S.. Mechanisms of Particulate Matter Formation in Spark-Ignition Engines. 2. Effect of Fuel, Oil, and Catalyst Parameters. Environmental science & technology, vol.33, no.22, 3968-3977.
Kayes, D., Hochgreb, S.. Mechanisms of Particulate Matter Formation in Spark-Ignition Engines. 1. Effect of Engine Operating Conditions. Environmental science & technology, vol.33, no.22, 3957-3967.
van Setten, B.A.A.L, van Dijk, R, Jelles, S.J, Makkee, M, Moulijn, J.A. The potential of supported molten salts in the removal of soot from diesel exhaust gas. Applied catalysis. B, Environmental, vol.21, no.1, 51-61.
Zinbo, Mikio, Korniski, Thomas J., Weir, James E.. Relationship between the composition of engine particulate emissions and emission control system performance. Industrial & engineering chemistry research, vol.34, no.2, 619-625.
Cadle, S. H., Mulawa, P. A., Hunsanger, E. C., Nelson, K., Ragazzi, R. A., Barrett, R., Gallagher, G. L., Lawson, D. R., Knapp, K. T., Snow, R.. Composition of Light-Duty Motor Vehicle Exhaust Particulate Matter in the Denver, Colorado Area. Environmental science & technology, vol.33, no.14, 2328-2339.
Helsper, C., Molter, W., Loffler, F., Wadenpohl, C., Kaufmann, S., Wenninger, G.. Investigations of a new aerosol generator for the production of carbon aggregate particles. Atmospheric environment. Part A, General topics, vol.27, no.8, 1271-1275.
Wang, Shih Chen, Flagan, Richard C.. Scanning Electrical Mobility Spectrometer. Aerosol science and technology : the journal of the American Association for Aerosol Reserch, vol.13, no.2, 230-240.
Evaluation of instruments for vehicle emission particle sizing. Report AEAT-1180 Dickens C. J. 1997
Aerosol Technology Hinds W. C. 1982
Berger, C., Horvath, H., Schindler, W.. The deposition of soot particles from hot gas streams through pipes. Journal of aerosol science, vol.26, no.2, 211-217.
Wood, N.B.. A simple method for the calculation of turbulent deposition to smooth and rough surfaces. Journal of aerosol science, vol.12, no.3, 275-290.
Proceedings of 12th AIAA International Symposium on Rarefied Gas Dynamics Talbot L. 467 1980
Cleaver, J.W.. A sub layer model for the deposition of particles from a turbulent flow. Chemical engineering science, vol.30, no.8, 983-992.
Abu-Qudais, M, Kittelson, D. B.. Experimental and theoretical study of particulate re-entrainment from the combustion chamber walls of a diesel engine. Proceedings of the Institution of Mechanical Engineers. Part D, Journal of automobile engineering, vol.211, no.1, 49-57.
Johnson, Jon E., Kittelson, David B.. Deposition, diffusion and adsorption in the diesel oxidation catalyst. Applied catalysis. B, Environmental, vol.10, no.1, 117-137.
Burry, D., Bergeles, G.. Dispersion of particles in anisotropic turbulent flows. International journal of multiphase flow, vol.19, no.4, 651-664.
Li, Amy, Ahmadi, Goodarz. Dispersion and Deposition of Spherical Particles from Point Sources in a Turbulent Channel Flow. Aerosol science and technology : the journal of the American Association for Aerosol Reserch, vol.16, no.4, 209-226.
Multiphase Flows with Droplets and Particles Crowe C. 1998
Bouris, D., Bergeles, G.. Particle-Surface Interactions in Heat Exchanger Fouling. Journal of fluids engineering, vol.118, no.3, 574-581.
Bouris D., Arcoumanis C., Bergeles G. Numerical investigation of thermophoretic and electrostatic particulate deposition efficiency in automotive vehicle exhaust pipes. In IMechE International Conference on 21st Century Emissions Technology, London, 4-6 December 2000.
Razinsky, E., Brighton, J. A.. Confined Jet Mixing for Nonseparating Conditions. Journal of basic engineering, vol.93, no.3, 333-347.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.