Abstract
The use of pure ethanol or the prevailing of it in the mixture with gasoline in flex fuel engines, led to a necessity of an auxiliary system to the cold start and engine functioning. Ethanol chemical properties can be used to explain this necessity. Ethanol is been used in Brazil for more than 30 years and many researches give support to the cold start technologic evolution. The cold start system enables the gasoline introduction into the intake manifold of flex fuel engines, when vehicles are using pure ethanol or a mixture with more ethanol than gasoline. The researches challenge is to find a way to start an engine using ethanol without the use of the cold start system using gasoline. This works presents a numerical analysis of the flow and heat transfer in a cold start system, using computational fluid dynamics. An experimental test bench developed to study a start cold system heating air and ethanol. The objective is to use this system to assure the engine operation at low ambient temperatures. The simulations were validated using the experimental data and results shows the possibility to get a temperature high enough to assure fuel combustion.
Original language | English |
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DOIs | |
Publication status | Published - 1 Dec 2009 |
Event | 18th Congresso e Exposicao Internacionais da Tecnologia da Mobilidade - Sao Paulo, Brazil Duration: 6 Oct 2009 → 8 Oct 2009 |
Conference
Conference | 18th Congresso e Exposicao Internacionais da Tecnologia da Mobilidade |
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Country/Territory | Brazil |
City | Sao Paulo |
Period | 6/10/09 → 8/10/09 |
Bibliographical note
©2019 SAE International.Keywords
- cold start
- ethanol
- fuel injection
- internal combustion engine
- numerical method