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Cold Start Equipment for Diesel Direct Injection Engines
Technical Paper
1999-01-1244
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Even for modern diesel engines the conditions during the cold start are far from normal operation. Only cold start aids like glow plugs and intake air heaters guarantee at ambient temperatures below 263 K a reliable start and pollutant emission levels meeting the EC 2000 regulations. BERU glow plugs effect -selfregulating or electronically controlled- a cold start comparable to gasoline engines with a extreme good durability. The latest glow plug development opens a wide range of combustion process control via ion current sensing. Electric intake air heaters support the cold start process in a wide displacement range. Intake manifold burners are applied to large displacement engines and at arctic temperatures.
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Authors
Topic
Citation
Lindl, B. and Schmitz, H., "Cold Start Equipment for Diesel Direct Injection Engines," SAE Technical Paper 1999-01-1244, 1999, https://doi.org/10.4271/1999-01-1244.Also In
References
- Hardenberg, H. O. Hase, F. W. “An Empirical Formula for Computing the Pressure Rise Delay of a Fuel from its Cetane Number and from the Relevant Parameters of Direct-Injection Diesel Engines,” SAE paper 790493 1979
- Heywood, J.B. “Internal Combustion Engine Fundamentals,” Mc Graw-Hill 1988
- Zahdeh, A. Henein, N. Bryzik, W. “Diesel Cold Starting: Actual Cycle Analysis Under Border-Line Conditions,” SAE paper 909441 1990
- Meyer, W.E. DeCarolis, J.J. “Compression temperatures in diesel engines under starting conditions,” SAE Transactions 1966
- Kawamura, H. Yamamoto, S. “Improvement of Diesel Engine Startability by Ceramic Glow Plug Start System,” SAE paper 830580 1983
- Naber, J.D. Siebers, D.L. “Hydrogen Combustion under Diesel Engine Conditions,” 11th World Hydrogen Energy Conference Stuttgart, Germany June 23-28 1996
- Hardenberg, H. O. “Arbeitsverfahren der Dieselmotoren” University of Stuttgart 1993
- Pischinger, F. “Verbrennungsmotoren,” 2 RWTH Aachen 1995
- Warnatz, J. Maas, U. “Technische Verbrennung,” Springer Verlag Berlin Heidelberg New York London Paris Tokyo Hong Kong Barcelona Budapest 1993
- Gonzalez, D. Borman, G. L. Reitz, R. D. “A Study of Diesel Cold Starting using both Cycle Analysis and Multidimensional Calculations,” SAE paper 910180 1991
- Mallone, K. C. Holda, A. E. “Research into the Reduction of Pollutant Emissions on Cold Starting of a Direct Injection Diesel Engine,” 20 IMechE-Paper: “Fuels for automotive and industrial diesel engines” IMechE Seminar 1990-8
- Lindl, B. “Optimal Cold Starting in Diesel Engines,” MTZ 59 3 1998
- Merz, R. “Electric Intake Air Heating for Small and Mediumsized Diesel Engines,” MTZ 58 4 1997
- Stephan, U. Lindl, B. “Einfluß der Ansaugluftvorwärmung auf Kaltstartverhalten und Kaltstartemissionen beim Nutz-fahrzeug,” MTZ 56 11 1995
- Kobayashi, A. Kurashima, A. Endo, S. “Analysis of Cold Start Combustion in a Direct Injection Diesel Engine,” SAE paper 840106 1984