Abstract:

In this study, the HCCI engine with a single-cylinder port injection system experimentally studied the effect of isopropanol on burning and exhaust emissions. The tests were carried out at 1000 rpm motor speed and 60 oC absorption air entry temperature. In the study, pure n-heptan and n-heptan isopropanol fuel mixture (ip25 and ip50) was used. The in-cylinder pressure, heat distribution, burning start, burning time, pressure increase rate and emissions have been studied. In all test fuels, it was also found that by the weakening of the mixture, the pressure and heat distribution within the cylinder were reduced. The addition to N-heptan fuel isopropanol has caused the delay in the start of burning and the extension of the burning time. The highest index thermal efficiency in IP25 fuel use was 2.4 of HFK in terms of 43. 27 is identified. In the use of IP25 and IP50 fuels, CO emissions have deteriorated by 22.7% and 62.1% respectively, compared to n-heptan fuel. However, HC emissions increased by 8.8% and 12% respectively. The addition of isopropanol to N-heptan fuel has reduced the rate of pressure increase. So the HCCI burning occurred by itself was controlled.

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