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Diesel EGR Cooler Fouling

Journal Article
2008-01-2475
ISSN: 1946-3936, e-ISSN: 1946-3944
Published October 06, 2008 by SAE International in United States
Diesel EGR Cooler Fouling
Sector:
Citation: Hoard, J., Abarham, M., Styles, D., Giuliano, J. et al., "Diesel EGR Cooler Fouling," SAE Int. J. Engines 1(1):1234-1250, 2009, https://doi.org/10.4271/2008-01-2475.
Language: English

References

  1. Bravo, Yolanda; Lazaro, Jose L.; Garcia-Bernad, Jose L. “Study of Fouling Phenomena on EGR Coolers due to Soot Deposits: Development of a Representative Test Method”, SAE paper 2005-01-1143.
  2. Hoard, John; Giuliano, Julia; Styles, Dan; Sluder, Scott; Storey, John; Lewis, Sam; Strzelec, Andrea; and Lance, Michael, “EGR Catalyst for Cooler Fouling Reduction”, presentation to 2007 DOE Diesel Engine-Efficiency and Emission Reduction Conference, Detroit, MI, August 2007. Available at http://www1.eere.energy.gov/vehiclesandfuels/resources/proceedings/2007_deer_presentations.html.
  3. Lepperhoff, Gerhard; and Houben, Michael, “Mechanisms of Deposit Formation in IC Engines and Heat Exchangers”. SAE paper 931032.
  4. Siegl, W.; and Zinbo, M., “On the Chemical Composition and Origin of Engine Deposits”, chapter in Ebert, Lawrence (ed.) Chemistry of Combustion Deposits. Plenum Press ISBN 0-306-41936-X. 181st American Chemical Society Meeting, Atlanta Ga. (1981)
  5. Maricq, Matti; and Harris, Stephen. “The Role of Fragmentation in Defining the Signature Size Distribution of Diesel Soot”. Aerosol Science 33 (2002) 935-942
  6. McKinley, Thomas L., “Modeling Sulfuric Acid Condensation in Diesel Engine EGR Coolers”. SAE paper 970636.
  7. Girard, James W.; Gratz, Linda D.; Johnson, John H.; Bagley, Susan T.; and Leddy, David G., “A Study of the Character and Deposition Rates of Sulfur Species in the EGR Cooling System of a Heavy- Duty Diesel Engine”. SAE paper 1999-01-3566.
  8. Banzhaf, M.; and Lutz, R., “Heat Exchanger for Cooled Exhaust Gas Recirculation”. SAE paper 971822.
  9. Stolz, Andreas; Fleischer, Katja; Knecht, Wolfgang; Nies, Jens; and Strahle, Roland, “Development of EGR Coolers for Truck and Passenger Car Application”. SAE paper 2001-01-1748.
  10. Ewing, Daniel; Ismail, Basel; Cotton, James S.; and Chang, Jen-Shih, “Characterization of the Soot Deposition Profiles in Diesel Engine Exhaust Gas Recirculation (EGR) Cooling Devices Using a Digital Neutron Radiography Imaging Technique”. SAE paper 2004-01-1433.
  11. Leet, Jeffrey A.; Friesen, Terry; and Shadbourne, Al, “EGR’s Effect on Oil Degradation and Intake System Performance”. SAE paper 980179.
  12. Van Aken, Marc; Willems, Frank; and de Jong, Dirk- Jan, “Appliance of High EGR Rates With a Short and Long Route EGR System on a Heavy Duty Diesel Engine”. SAE paper 2007-01-0906.
  13. Lundqvist, Ulf; Smedler, Gudmund; and Stalhammar, Per, “A Comparison Between Different EGR Systems for HD Diesel Engines and Their Effect on Performance, Fuel Consumption and Emissions”. SAE paper 2000-01-0226.
  14. Charnay, L.; Soderberg, E.; Malmlof,.; Ohlund, P.; Ostling, L.; and Fredholm, S., “Effect of Fouling on the Efficiency of a Shell-and-Tube EGR Cooler”. EAEC Congress Vehicle Systems Technology for the Next Century. Barcelona, 1999. Paper STA99C418.
  15. Andrews, G.E.; Clarke, A.G.; Rojas, N.Y.; Sale, T.; and Gregory, D., “The Transient Storage and Blow- Out of Diesel Particulate in Practical Exhaust Systems”. SAE paper 2001-01-0204.
  16. Zhang, R.; Charles, F.; Ewing, D.; Chang, J-S; and Cotton, J.S., “Effect of Diesel Soot Deposition on the Performance of Exhaust Gas Recirculation Cooling Devices”. SAE paper 2004-01-0122.
  17. Hesselgreaves, J.E., “An Approach to Fouling Allowances in the Design of Compact Heat Exchangers”. Applied Thermal Engineering 22 (2002) 755-762.
  18. Nishiwaki, K., “Unsteady Thermal Behavior of Engine Combustion Chamber Deposits”. SAE paper 881225.
  19. Ebert, Lawrence, “Chemistry of Engine Combustion Deposits: Literature Review”, chapter in Ebert, Lawrence (ed.) Chemistry of Combustion Deposits. Plenum Press ISBN 0-306-41936-X. 181st American Chemical Society Meeting, Atlanta Ga. (1981)
  20. Nakamura; Yonekawa; and Okamoto, “Effect of Combustion Chamber Deposits on Octane Requirement Increase and Fuel Economy”, chapter in Ebert, Lawrence (ed.) Chemistry of Combustion Deposits. Plenum Press ISBN 0-306-41936-X. 181st American Chemical Society Meeting, Atlanta Ga. (1981)
  21. Ewing, Daniel; Charles, Fraser; Ismail, Basel; Cotton, James S.; and Chang, Jen-Shih, “Mitigation of the Diesel Soot Deposition Effect on the Exhaust Gas Recirculation (EGR) Cooling Devices for Diesel Engines”. SAE paper 2005-01-0656.
  22. Silvestrini, R., “Waste Heat Recovery - Heat Exchanger fouling and Corrosion”. Chemical Engineering Progress v75, n12, Dec 1979, p 29-35. ISSN 0009-2495, CODEN CEPRA8.
  23. Shah, R.K., “A Short Course on Compact Heat Exchangers”. Korea Institute of Machinery and Metals. July 12-13, 1994.
  24. Addy Majewski, W.; and Pietrasz, Edward, “On- Vehicle Exhaust Gas Cooling in a Diesel Emissions Control System”. SAE paper 921676
  25. Usui, Shoichro; Ito, Kosuke; and Kato, Koji, “The Effect of Semi-Circular Micro Riblets on the Deposition of Diesel Exhaust Particulate”. SAE paper 2004-01-0969
  26. Park, Sang-Ki; Choi, Kap-Seung; Wang, Hak-Min; Kim, Hyung-Man; Lee, Dae-Hee; Kim, Tae-Jin; Lee, Joon; and Cho, Young-Kuk, “Effect of the Internal Shape of EGR Cooler on Heat Exchanger Efficiencies”. SAE 2007-01-1252.
  27. Bravo, Y.; Moreno, F.; and Longo, O., “Improved Characterization of Fouling in Cooled EGR Systems”. SAE 2007-01-1257.
  28. Castaño, Carlos; Sanchez, Alvaro; Grande, Jose A.; and Paz, Concepcion, “Advantages in the EGR Cooler Performance by Using Internal Corrugated Tubes Technology”. SAE paper 2007-26-019, presented at the Symposium on International Automotive Technology 2007.
  29. Hierith, H.; Gartner, M.; Loehle, M.; and Pfender, C., “Investigation of Cooling and Recirculating Exhaust Gases in Truck Engines: Development of an EGR Cooler”. In verlag des Verein Deutscher Ingenieure GMBH VDI report #306, 1997 Apr 24-25.
  30. Epstein, Norman, “Elements of Particle Deposition onto Nonporous Solid Surfaces Parallel to Suspension Flows”. Experimental Thermal and Fluid Science 1997; 14:323-334.
  31. Xu, H.M.; Misztal, J.; Wyszynski, M.L.; Turner, D.; Price, P.; stone, R.; Wang, Z.; Wang, J.; Shuai, S.; and Qiao, J., “HCCI - How Clean Can it Be?”. Presentation to the SAE Homogenous Charge Compression Ignition (HCCI) Symposium, Lund, Sweden, September 12-14, 2007.
  32. Konstandopoulos, Athanasios G.; Skaperdas, Evangelos; and Masoudi, Mansour, “Microstructural Properties of Soot Deposits in Diesel Particulate Traps”. SAE paper 2002-01-1015.
  33. Vineyard, B.D.; and Coran, A.Y., “Gasoline Engine Deposition: I. Blowby Collection and the Identification of Deposit Precursors”, Symposium on Deposit, Wear and Emissions Control by Lubricant and Fuel Additives, American Chemical Society Division of Petroleum Chemistry, New York Meeting, September 7-12, 1969, pp A25-A32.
  34. Coran, A.Y.; and Vineyard, B.D., “Gasoline Engine Deposition: II. Sludge Binder”, Symposium on Deposit, Wear and Emissions Control by Lubricant and Fuel Additives, American Chemical Society Division of Petroleum Chemistry, New York Meeting, September 7-12, 1969, pp A35-A44..
  35. Dimitroff, E.; Moffitt, J.V.; and Quillian, R.D. Jr., “What, What and How: Engine Varnish”. Transactions of the ASME, Journal of Lubrication Technology, July 1969, pp 406-416.
  36. Incropera, Frank P.; and Dewitt, David P., Heat and Mass Transfer, 5th Ed., 2002.
  37. Kays, William M.; and Crawford, Michael E., Convective Heat and Mass Transfer, 3rd Ed., 1993.
  38. Talbot, L; Cheng, R. K.; Schefer, R. W.; and Willis, D. R., “Thermophoresis of Particles in a Heated Boundary Layer”, J. Fluid Mech., 1980, 101:737- 758.
  39. Collier, John G.; and Thome, John R., Convective Boiling and Condensation, 3rd Ed., 1996.
  40. Zhan, R., Eakle, S.T., Miller, J.W. and Anthony, J. W. “EGR System Fouling Control” SAE Int. J. Engines 1(1):59-64, 2008.
  41. Kowada, Minoru; Hayashi, Koji; Shoyama, Koji; Ihara, Yoshiki; and Sugihara, Hiroyuki, “Hino's Advanced Low-Emission Technologies developed to Meet Stringent emissions Standards”. SAE paper 2006-01-0275

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