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Altı Zamanlı, Pistonlu İçten Yanmalı Motorlar

Year 2012, Volume: 3 Issue: 2, 37 - 45, 21.12.2015

Emre Arabacı

Abstract

Altı zamanlı motor çevrimi, dört ve iki zamanlı motor çevrimine alternatif olarak geliştirilmiştir. Bu fikir ilk olarak 1920 yılında Dyer tarafından ortaya atılmıştır. O günün şartlarında altı zamanlı motorların uygulanabilirliği konusunda teknolojik sıkıntıların olmasından dolayı günümüzde profesyonel olarak çalışılmamış bir konudur. Derleme kapsamında, altı zamanlı motorlar hakkında geniş bir literatür taraması yapılmış, çalışma prensibi açıklanmış ve tasarım parametreleri tartışılmıştır. Dört zamanlı motorlar üzerinde gerekli değişiklikler yapılarak yüksek ısıl verimli ve ekonomik altı zamanlı motorlara dönüştürülebileceği sonucu elde edilmiştir.

Anahtar Kelimeler: Altı zamanlı, egzoz ısısı geri kazanımı, direkt su enjeksiyonu, içten yanmalı

Keywords

Altı zamanlı egzoz ısısı geri kazanımı direkt su enjeksiyonu içten yanmalı

References

  • Arabacı, E., (2007). Turbo Döngüsel Bir Motorun Performansının Artırılması, Yüksek Lisans Tezi, Gazi Üniversitesi Fen Bilimleri Enstitüsü, Ankara, 1-15. Bajulaz Six Stroke http://www.bajulazsa.com/Site/sixstroke explanations.html Engine (2011).
  • Bajulaz, R. (1989). Internal Combustion Engine, USPTO 4809511, Chambesy.
  • Bajulaz, R., (1985). Method for the Transformation of Thermal Energy into Mechanical Energy by Means of a Combustion Engine as well as this New Engine USPTO 4513568, Santa Barbara.
  • Basshuysen, R., (2004). Internal Combustion Engine Handbook, Ch 1, SAE International.
  • Beare, M., (1998). Dual Piston Internal Combustion Engine, USPTO 5713314, Bordertown. Bruce Crower Engine (2011). http://www.autoweek.com/article/20060227/free/ 302270007.
  • Cage, J., (1921). Six Stroke Three Phase Engine, USPTO 1367797, Newyork.
  • Coates, G., (1991). Internal Combustion Engine, USPTO, 4989576, Belgrad.
  • Conklin, J., Szybist, J., (2010). “A Highly Efficient Six Stroke Internal Combustion Engine Cycle with Water injection for in-Cylinder Exhaust Heat Recovery”, Journal of Energy, Knoxville, 1658- 1664.
  • Duve, D., (1998). Rotary Valve Drive Mechanism, USPTO 5711265, Aurora.
  • Dyer, L., (1920). Internal Combustion Engine, USPTO, 1339176, Greenwich,
  • Gentile, C., (1982). Rotary Valve for Internal Combustion Engine, USPTO, 4077382, Ohio.
  • Hallstrom, Jr., (1984). Combination Internal Combustion Engine and Steam Engine USPTO 4433548, Tillamook.
  • Hu, L., (2006). Dual Six StrokeSelf-Cooling Internal Combustion Aldergrove İçten Yanmalı Motor Patent Taraması, (2012). result.html?query_txt=internal+combustion+engin e&sort=relevance&srch=top&searc 7143725,
  • http://www.freepatentsonline.com/
  • Kelem, H., (2010). Six Stroke Internal Combustion Engine and Method of Operation, USPTO, 7726268 B2, Delray.
  • Kroyer, J., (1942). Internal Combustion Engine, USPTO 2355806, California.
  • Larsen, G., (1988). Engine with Six Stroke Cycle Variable Compression Ratio and Constant Stroke Engine, USPTO 4736715, Antilles.
  • Melby, R., (1975). Supercharged Six Stroke Cycle Combustion Engine, USPTO 3896775, Hinsdale.
  • Ogura, Y., (1990). Six Stroke Internal Combustion Engine” USPTO 4924823, Tokyo.
  • Pulkrabek, W. (2004) Engineering Fundamentals of the Internal Combustion Engine, Pearson Prentice Hall, Saddle.
  • Rudd, H., (1937). Internal Combustion Engine, USPTO 2209706, Boonton.
  • Schmitz, G., (1990). Six Stroke Internal Combustion Engine USPTO 4917054, Belgium.
  • Singh, S., (2001). Computer Controlled Six-Stroke Internal Combustion Engine and Its Method of Operation, USPTO, 6311351 B1, Tobago, 1-10.
  • Singh, S., (2006). Computer Controlled Multi Stroke Cycle Power Generating Assembly and Method of Operation, USPTO, US7021272 B2, Tobago, 1-16.
  • Sofuoğlu, A., (2002). Hava Kirliliği, Vizyon 2023, Bilim ve Teknoloji Stratejileri Teknoloji Öngörü Projesi Raporları Ek-6.
  • Szybist, J., (2010). Highly Efficient Six-Stroke Engine Water Cycle US2010/0313831 A1, 1-5, Knoxville. Injection USPTO,
  • Tibbs, R., (1976). Six Cycle Combustion and Fluid Engine, Vaporization Cleveland. USPTO 3964263,
  • TUİK, (2010). Motorlu Kara Taşıtları İstatistikleri, Türkiye İstatistik Kurumu, Ankara.
  • USDOE, (2010). Energy Efficiency and Renewable Energy Vehicle Technologies Programme Pittsburgh.

Year 2012, Volume: 3 Issue: 2, 37 - 45, 21.12.2015

Emre Arabacı

Abstract

References

  • Arabacı, E., (2007). Turbo Döngüsel Bir Motorun Performansının Artırılması, Yüksek Lisans Tezi, Gazi Üniversitesi Fen Bilimleri Enstitüsü, Ankara, 1-15. Bajulaz Six Stroke http://www.bajulazsa.com/Site/sixstroke explanations.html Engine (2011).
  • Bajulaz, R. (1989). Internal Combustion Engine, USPTO 4809511, Chambesy.
  • Bajulaz, R., (1985). Method for the Transformation of Thermal Energy into Mechanical Energy by Means of a Combustion Engine as well as this New Engine USPTO 4513568, Santa Barbara.
  • Basshuysen, R., (2004). Internal Combustion Engine Handbook, Ch 1, SAE International.
  • Beare, M., (1998). Dual Piston Internal Combustion Engine, USPTO 5713314, Bordertown. Bruce Crower Engine (2011). http://www.autoweek.com/article/20060227/free/ 302270007.
  • Cage, J., (1921). Six Stroke Three Phase Engine, USPTO 1367797, Newyork.
  • Coates, G., (1991). Internal Combustion Engine, USPTO, 4989576, Belgrad.
  • Conklin, J., Szybist, J., (2010). “A Highly Efficient Six Stroke Internal Combustion Engine Cycle with Water injection for in-Cylinder Exhaust Heat Recovery”, Journal of Energy, Knoxville, 1658- 1664.
  • Duve, D., (1998). Rotary Valve Drive Mechanism, USPTO 5711265, Aurora.
  • Dyer, L., (1920). Internal Combustion Engine, USPTO, 1339176, Greenwich,
  • Gentile, C., (1982). Rotary Valve for Internal Combustion Engine, USPTO, 4077382, Ohio.
  • Hallstrom, Jr., (1984). Combination Internal Combustion Engine and Steam Engine USPTO 4433548, Tillamook.
  • Hu, L., (2006). Dual Six StrokeSelf-Cooling Internal Combustion Aldergrove İçten Yanmalı Motor Patent Taraması, (2012). result.html?query_txt=internal+combustion+engin e&sort=relevance&srch=top&searc 7143725,
  • http://www.freepatentsonline.com/
  • Kelem, H., (2010). Six Stroke Internal Combustion Engine and Method of Operation, USPTO, 7726268 B2, Delray.
  • Kroyer, J., (1942). Internal Combustion Engine, USPTO 2355806, California.
  • Larsen, G., (1988). Engine with Six Stroke Cycle Variable Compression Ratio and Constant Stroke Engine, USPTO 4736715, Antilles.
  • Melby, R., (1975). Supercharged Six Stroke Cycle Combustion Engine, USPTO 3896775, Hinsdale.
  • Ogura, Y., (1990). Six Stroke Internal Combustion Engine” USPTO 4924823, Tokyo.
  • Pulkrabek, W. (2004) Engineering Fundamentals of the Internal Combustion Engine, Pearson Prentice Hall, Saddle.
  • Rudd, H., (1937). Internal Combustion Engine, USPTO 2209706, Boonton.
  • Schmitz, G., (1990). Six Stroke Internal Combustion Engine USPTO 4917054, Belgium.
  • Singh, S., (2001). Computer Controlled Six-Stroke Internal Combustion Engine and Its Method of Operation, USPTO, 6311351 B1, Tobago, 1-10.
  • Singh, S., (2006). Computer Controlled Multi Stroke Cycle Power Generating Assembly and Method of Operation, USPTO, US7021272 B2, Tobago, 1-16.
  • Sofuoğlu, A., (2002). Hava Kirliliği, Vizyon 2023, Bilim ve Teknoloji Stratejileri Teknoloji Öngörü Projesi Raporları Ek-6.
  • Szybist, J., (2010). Highly Efficient Six-Stroke Engine Water Cycle US2010/0313831 A1, 1-5, Knoxville. Injection USPTO,
  • Tibbs, R., (1976). Six Cycle Combustion and Fluid Engine, Vaporization Cleveland. USPTO 3964263,
  • TUİK, (2010). Motorlu Kara Taşıtları İstatistikleri, Türkiye İstatistik Kurumu, Ankara.
  • USDOE, (2010). Energy Efficiency and Renewable Energy Vehicle Technologies Programme Pittsburgh.
There are 29 citations in total.

Details

Primary Language Turkish
Journal Section Research Paper
Authors

Emre Arabacı

Publication Date December 21, 2015
Published in Issue Year 2012 Volume: 3 Issue: 2

Cite

APA Arabacı, E. (2015). Altı Zamanlı, Pistonlu İçten Yanmalı Motorlar. Mehmet Akif Ersoy Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 3(2), 37-45.