An Experimental Study on Smoke Reduction Effect of Post Injection in Combination With Pilot Injection for a Diesel Engine

Liu, Long; Horibe, Naoto; Komizo, Tatsuya; Tamura, Issei; Ishiyama, Takuji

doi:10.1115/1.4025929

Cited by 6 publications

(5 citation statements)

References 6 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The total injection quantity was set at 33 mm 3 /cycle, where the IMEP was approximately 1.0 MPa. On the basis of the previous study [14], the pilot injection quantity was set at 6 mm 3 /cycle to realize the entirely mixing-controlled combustion of the main spray and a relatively high smoke level for easy detection of the soot-reduction effect of post injection. The intake manifold pressure and temperature were adjusted to 120 kPa and 35°C.…”

Section: Methodsmentioning

confidence: 99%

Analysis of Mixture Formation Process in a Diesel Engine with Post Injection

Horibe¹,

Komizo²,

Mamizuka³

et al. 2015

SAE Technical Paper Series

Self Cite

View full text Add to dashboard Cite

A series of experiments was conducted using a singlecylinder small-bore (85 mm) diesel engine to investigate the smoke-reduction effect of post injection by varying the number of injection nozzle orifices and the injection pressure. The experiments were performed under a constant injection quantity condition and under a fixed NOx emission condition. The results indicated that the smoke emission of six-hole, sevenhole, and eight-hole nozzles decreased for advanced post injection, except that the smoke emission of the 10-hole nozzle increased as the post injection was advanced from a moderately late timing around 17 ATDC. However, the smoke emission of the 10hole nozzle with a higher injection pressure decreased for advanced post injection. These trends were explained considering the influence of the main-spray flames on post sprays based on CFD simulation results.

show abstract

Section: Methodsmentioning

confidence: 99%

Analysis of Mixture Formation Process in a Diesel Engine with Post Injection

Horibe¹,

Komizo²,

Mamizuka³

et al. 2015

SAE Technical Paper Series

Self Cite

View full text Add to dashboard Cite

show abstract

“…Each subswarm searches a small section of the design space using the best results from other subswarms only changing its assigned variables. If any subswarm SN improves its best solution (G best ), this is communicated to other subswarms using a context vector (X context ) given by equation (7). The fitness of the context vector can only improve with each algorithm iteration, which can lead to the algorithm getting stuck in local minimums without the ability to climb out and move to better spaces in the design space.…”

Section: Optimization Methodologymentioning

confidence: 99%

“…6 Careful control of the pilot quantity is needed as large pilots can take increasing amounts of oxygen away from the main injection. 7 Additional pilots can be added to the compression stroke to promote premixing, but the increased heat of vaporization of diesel fuel can make it challenging to prevent wall wetting. 5 Small post injections increase the burning rate of the main injection fuel when timed near to the main injection.…”

Section: Introductionmentioning

confidence: 99%

Optimization of diesel fuel injection strategies through applications of cooperative particle swarm optimization and artificial bee colony algorithms

Ogren

Kong

2020

International Journal of Engine Research

View full text Add to dashboard Cite

New engine hardware and injection strategies allow modern engines to meet stringent emissions regulations but can require extensive engine testing to identify optimum operating points. Swarm intelligence algorithms, which do not require knowledge of the search space gradient, can provide a short cut in finding optimum operating parameters in reduced experimental time than a traditional design of experiments study. In this paper, a modified artificial bee colony (ABC) algorithm and a cooperative particle swarm optimization (CPSO) algorithm are applied to triple and quadruple injection routines. The optimization was applied directly to the operation of a four-cylinder turbocharged production diesel engine operating at a high exhaust gas recirculation rate and medium load. Six and eight variable optimizations were carried out for triple and quadruple injection schedules, respectively. In experimental testing, the cooperative particle swarm optimizer significantly reduced soot and carbon monoxide emissions in only 84 engine tests when using a pilot-pilot-main-post schedule. The modified artificial bee colony algorithm took 176 engine tests to optimize a pilot-main-post triple-injection schedule and was not applied to the four-injection routine.

show abstract

“…However, no smoke reduction effects are obtained, and negative effects are also observed when the post injection timing and quantity deviate from the proper settings for each engine operating condition. Many researchers have investigated the effect of post injection [1][2][3][4][5][6][7][8][9][10][11][12][13]. Ikemoto et al showed that close post injection reduces smoke emission [10], whereas Desantes et al, in contrast, showed that retarded post injection reduces smoke emission [7].…”

Section: Introductionmentioning

confidence: 99%

Smoke Reduction Effects by Post Injection for Various Injection Parameters and Combustion Chamber Shapes in a Diesel Engine

Horibe

Komizo

Sumimoto

et al. 2014

SAE Technical Paper Series

Self Cite

View full text Add to dashboard Cite

A series of experiments using a single-cylinder direct injection diesel engine was conducted to investigate the smoke reduction effect of post injection while varying numerous parameters: the post-injection quantity, post-injection timing, injection pressure, main-injection timing, intake pressure, number of injection nozzle orifices, and combustion chamber shape. The experiments were performed under a fixed NOx emission condition by selecting the total injection quantities needed to obtain the predetermined smoke emission levels without post injection. The smoke reduction effects were compared when changing the post injection timing for different settings of the above parameters, and explanations were found for the measured smoke emission trends. The results indicate that close post injection provides lower smoke emission for a combination of a reentrant combustion chamber and sevenhole nozzle. The same trend was also found in the tests that varied the injection pressure, main-injection timing, and intake pressure. However, a lower sensitivity of the smoke emission to the post injection timing was observed when using an injection nozzle with a larger number of orifices and a toroidal combustion chamber. The smoke reduction rate at the best post injection timing was higher for a lower injection pressure, larger number of nozzle orifices, and toroidal combustion chamber. The reasons for these trends were investigated, giving attention to the relation between the main spray flames and post sprays.

show abstract

An Experimental Study on Smoke Reduction Effect of Post Injection in Combination With Pilot Injection for a Diesel Engine

Cited by 6 publications

References 6 publications

Analysis of Mixture Formation Process in a Diesel Engine with Post Injection

Analysis of Mixture Formation Process in a Diesel Engine with Post Injection

Optimization of diesel fuel injection strategies through applications of cooperative particle swarm optimization and artificial bee colony algorithms

Smoke Reduction Effects by Post Injection for Various Injection Parameters and Combustion Chamber Shapes in a Diesel Engine

Contact Info

Product

Resources

About