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| Yazarlar | Okumuş, Fatih |
| Kurum Dışı Yazarlar | Berna Kanberoğlu, Güven Gonca, Görkem Kökkülünk, Zafer Aydın, Cenk Kaya |
| Tek Biçim Adres (URI) | https://hdl.handle.net/20.500.14114/8598 |
| Yayın Türü | Makale |
| Yayın Yılı | 2024 |
| Yayıncı | Pergamon |
| Dergi Adı | International Journal of Hydrogen Energy |
| Konu Başlıkları | Ammonia |
| İndekslenen Platformlar | Web of Science |
Ammonia, future of the carbonless marine fuel, presents significant potential in achieving zero-emission targets within maritime transportation. In this context, this study explores the use of an ammonia/diesel fuel mixture in a diesel engine, employing both experimental and numerical methods. We focus on the impact of injection timing and compression ratio to optimize the engine while using ammonia/diesel mixture in terms of both engine performance and exhaust emissions. The results show a decrease in engine power with an increasing content of ammonia, reaching the lowest power of 4.53 kW at 60% ammonia content. On the other hand, the increase in compression ratio generally enhances engine power. Thermal efficiency shows an increase up to 40% ammonia content, followed by a decline. CO2 emissions significantly reduce with an increase in ammonia content, reaching the lowest level, especially at 60 …
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- Denizcilik Fakültesi
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Eser Adı dc.title |
The effects of ammonia addition on the emission and performance characteristics of a diesel engine with variable compression ratio and injection timing |
|---|---|
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Yazarlar dc.contributor.author |
Okumuş, Fatih |
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Kurum Dışı Yazarlar dc.contributor.other |
Berna Kanberoğlu, Güven Gonca, Görkem Kökkülünk, Zafer Aydın, Cenk Kaya |
|
Yayıncı dc.publisher |
Pergamon |
|
Yayın Türü dc.type |
Makale |
|
Özet dc.description.abstract |
Ammonia, future of the carbonless marine fuel, presents significant potential in achieving zero-emission targets within maritime transportation. In this context, this study explores the use of an ammonia/diesel fuel mixture in a diesel engine, employing both experimental and numerical methods. We focus on the impact of injection timing and compression ratio to optimize the engine while using ammonia/diesel mixture in terms of both engine performance and exhaust emissions. The results show a decrease in engine power with an increasing content of ammonia, reaching the lowest power of 4.53 kW at 60% ammonia content. On the other hand, the increase in compression ratio generally enhances engine power. Thermal efficiency shows an increase up to 40% ammonia content, followed by a decline. CO2 emissions significantly reduce with an increase in ammonia content, reaching the lowest level, especially at 60 … |
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Kayıt Giriş Tarihi dc.date.accessioned |
2025-12-29 |
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Yayın Yılı dc.date.issued |
2024 |
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Açık Erișim Tarihi dc.date.available |
2300-01-01 |
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Dil dc.language.iso |
eng |
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Konu Başlıkları dc.subject |
Ammonia |
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ISSN dc.identifier.issn |
1 |
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İlk Sayfa dc.identifier.startpage |
1 |
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Son Sayfa dc.identifier.endpage |
1 |
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Dergi Adı dc.relation.journal |
International Journal of Hydrogen Energy |
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Dergi Sayısı dc.identifier.issue |
1 |
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Dergi Cilt dc.identifier.volume |
1 |
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Tek Biçim Adres (URI) dc.identifier.uri |
https://hdl.handle.net/20.500.14114/8598 |
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İndekslenen Platformlar dc.source.database |
Web of Science |