Numerical study of dual fuel engine using proportional natural gas split injection

The progress of the improvement of dual-fuel diesel engines with diesel and natural gas fuel is quite significant. One of them implemented the split injection strategy or can also be referred to as multiple injections. This study analyzed the effects of natural gas split injection on the combustion...

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Main Authors: Felayati, Frengki Mohamad, Semin, ., Cahyono, Beny, R. A., Bakar
Format: Conference or Workshop Item
Language:English
Published: AIP Publishing 2019
Subjects:
Online Access:http://umpir.ump.edu.my/id/eprint/27761/1/Numerical%20study%20of%20dual%20fuel%20engine%20using%20proportional.pdf
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author Felayati, Frengki Mohamad
Semin, .
Cahyono, Beny
R. A., Bakar
author_facet Felayati, Frengki Mohamad
Semin, .
Cahyono, Beny
R. A., Bakar
author_sort Felayati, Frengki Mohamad
collection UMP
description The progress of the improvement of dual-fuel diesel engines with diesel and natural gas fuel is quite significant. One of them implemented the split injection strategy or can also be referred to as multiple injections. This study analyzed the effects of natural gas split injection on the combustion and emission of modified dual-fuel diesel engines. The study was carried out numerically at 2000 rpm at low to high loads using proportional injection between the first injection (160°BTDC) and the second injection (100°BTDC). Moreover, natural gas substitution is maintained at 50% of the total fuel energy used. The simulation model is calibrated with the appropriate engine size. In addition, the model is validated with the results of experiments on engines with the same parameters. Results from natural gas split injection were compared with single-injection natural gas on different injection timings (160°BTDC and 100°BTDC). The results show that natural gas split injection has a significant effect on different loads. The split injection causes an increase in peak cylinder pressure and heat release rate thereby increasing torque at all loads compared to the single injection. Fuel consumption, CO, and HC in split injection mode are smaller compared to the single injection at 160°BTDC injection timing and greater than 100°BTDC at low loads up to 75% load. However, at high load is greater than all single injection. NOx split injection emissions at high load actually decrease compared to the single injection.
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spelling UMPir277612020-12-23T02:44:48Z http://umpir.ump.edu.my/id/eprint/27761/ Numerical study of dual fuel engine using proportional natural gas split injection Felayati, Frengki Mohamad Semin, . Cahyono, Beny R. A., Bakar TA Engineering (General). Civil engineering (General) TJ Mechanical engineering and machinery The progress of the improvement of dual-fuel diesel engines with diesel and natural gas fuel is quite significant. One of them implemented the split injection strategy or can also be referred to as multiple injections. This study analyzed the effects of natural gas split injection on the combustion and emission of modified dual-fuel diesel engines. The study was carried out numerically at 2000 rpm at low to high loads using proportional injection between the first injection (160°BTDC) and the second injection (100°BTDC). Moreover, natural gas substitution is maintained at 50% of the total fuel energy used. The simulation model is calibrated with the appropriate engine size. In addition, the model is validated with the results of experiments on engines with the same parameters. Results from natural gas split injection were compared with single-injection natural gas on different injection timings (160°BTDC and 100°BTDC). The results show that natural gas split injection has a significant effect on different loads. The split injection causes an increase in peak cylinder pressure and heat release rate thereby increasing torque at all loads compared to the single injection. Fuel consumption, CO, and HC in split injection mode are smaller compared to the single injection at 160°BTDC injection timing and greater than 100°BTDC at low loads up to 75% load. However, at high load is greater than all single injection. NOx split injection emissions at high load actually decrease compared to the single injection. AIP Publishing 2019-12-10 Conference or Workshop Item PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/27761/1/Numerical%20study%20of%20dual%20fuel%20engine%20using%20proportional.pdf Felayati, Frengki Mohamad and Semin, . and Cahyono, Beny and R. A., Bakar (2019) Numerical study of dual fuel engine using proportional natural gas split injection. In: AIP Conference Proceedings: Proceedings of the 4th International Conference on Mechanical Engineering (ICOME2019) , 28-29 August 2019 , Yogyakarta, Indonesia. pp. 1-5., 2187 (020018). ISSN 0094-243X ISBN 978-0-7354-1934-6 https://doi.org/10.1063/1.5138273
spellingShingle TA Engineering (General). Civil engineering (General)
TJ Mechanical engineering and machinery
Felayati, Frengki Mohamad
Semin, .
Cahyono, Beny
R. A., Bakar
Numerical study of dual fuel engine using proportional natural gas split injection
title Numerical study of dual fuel engine using proportional natural gas split injection
title_full Numerical study of dual fuel engine using proportional natural gas split injection
title_fullStr Numerical study of dual fuel engine using proportional natural gas split injection
title_full_unstemmed Numerical study of dual fuel engine using proportional natural gas split injection
title_short Numerical study of dual fuel engine using proportional natural gas split injection
title_sort numerical study of dual fuel engine using proportional natural gas split injection
topic TA Engineering (General). Civil engineering (General)
TJ Mechanical engineering and machinery
url http://umpir.ump.edu.my/id/eprint/27761/1/Numerical%20study%20of%20dual%20fuel%20engine%20using%20proportional.pdf
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AT cahyonobeny numericalstudyofdualfuelengineusingproportionalnaturalgassplitinjection
AT rabakar numericalstudyofdualfuelengineusingproportionalnaturalgassplitinjection