Using one-dimensional modeling to analyze the influence of the use of biodiesels on the dynamic behavior of solenoid-operated injectors in common rail systems: Results of the simulations and discussion

Salvador, Francisco; Gimeno, J.; Morena, Joaquín De la; Carreres, Marcos

doi:10.1016/j.enconman.2011.10.007

Cited by 58 publications

(37 citation statements)

References 26 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In this sense, it seems clear that the injection process may affect cavitation development [14], [15], [16] since the geometry upstream the orifices changes during the opening and closing of the injector as a consequence of the variable needle lift position.…”

Section: Introductionmentioning

confidence: 99%

Study of the influence of the needle lift on the internal flow and cavitation phenomenon in diesel injector nozzles by CFD using RANS methods

Salvador

Martinez-Lopez

Caballer

et al. 2013

Energy Conversion and Management

Self Cite

122

View full text Add to dashboard Cite

Elsevier Salvador, FJ.; Martínez López, J.; Caballer Fernández, M.; Alfonso Laguna, CD. (2013). Study of the influence of the needle lift on the internal flow and cavitationphenomenon in diesel injector nozzles by CFD using RANS methods. Energy Conversion and Management. 66:246-256. doi:10.1016/j.enconman.2012.10 ABSTRACTIt is well known that cavitation phenomenon in diesel injector nozzles has a strong influence on the internal flow during the injection process and spray development.However, its influence on the flow during needle opening and closing remains still unclear due to the huge difficulties related to performing experiments at partial needle lifts.In this paper, an extended computational study has been performed in a multi-hole Once the code has been validated, it has been possible to study in depth the internal nozzle flow and its characteristics at the outlet at different partial needle lifts.Nevertheless, not only the main flow features have been explained, but also the cavitation appearance and the turbulence development, which present huge differences between the different needle lifts simulated.

show abstract

Section: Introductionmentioning

confidence: 99%

Study of the influence of the needle lift on the internal flow and cavitation phenomenon in diesel injector nozzles by CFD using RANS methods

Salvador

Martinez-Lopez

Caballer

et al. 2013

Energy Conversion and Management

Self Cite

122

View full text Add to dashboard Cite

show abstract

“…Indeed, the use of such a fuel can cause clogging of the fuel lines and injector coking. Moreover, due to the higher surface tension and viscosity of biodiesel fuels, the hydraulic behaviour of the injector can be affected and consequently an adequate atomization before the combustion process is hardly achieved [17]. As a consequence, on one hand carbon deposits can be promoted and the sticking of piston rings can be produced as well [18,19]; on the other hand, the lack of atomization has a negative impact on the vaporization process, and consequently on the auto-ignition of the fuel.…”

Section: Introductionmentioning

confidence: 99%

Impact of biodiesel fuel on cold starting of automotive direct injection diesel engines

Broatch

Tormos

Olmeda

et al. 2014

Energy

View full text Add to dashboard Cite

The use of biodiesel fuels in diesel engines is gaining attention as a promising solution to control CO 2 emissions. Great research efforts have been carried out to identify the impact of biodiesel physical and chemical properties on engine systems and processes. Most of these investigations were performed in warm conditions, but the suitability of biodiesel for starting the engine at under-zero ambient temperatures has not widely evaluated. The surface tension and the viscosity of biodiesel fuels are higher compared to those of standard diesel and, in cold conditions, these differences become critical since the injection fuel rate is largely affected and consequently the combustion process can be deteriorated. In order to improve its flow characteristics at cold temperatures and make them more suitable for low temperatures operation, additives are used in biodiesel fuels. In this paper the suitability of different biodiesel fuels, with and without additives, for cold starting of DI diesel engines has been evaluated. The results have shown that the engine start-ability with pure biodiesel fuels can be largely deteriorated. However, using diesel/biodiesel blends the start-ability of the engine can be recovered with the additional benefit of reducing the opacity peak of the exhaust gases.

show abstract

“…This behavior can be explained as a consequence of the cavitation field seen and explained in Figure 2, since the existence of vapor in the upper and lower part of the orifices 4 and 5 strongly reduces the amount of fuel injected. Figure 5 shows the total mass flow (considering all the orifices of the nozzle) and the averaged momentum flux and effective velocity at the nozzle outlet as a function 15 Attending to the mass flow graph, the amount of fuel injected in the combustion chamber for the case where the needle is perfectly placed increases as the backpressure decreases from 9 to 5 MPa. Once the backpressure arrives to 5 MPa, the mass flow remains chocked or collapsed, and despite decreasing the discharge pressure the mass flow remains invariable.…”

Section: Hole To Hole Deviationmentioning

confidence: 99%

“…With regard to the fuel simulated, the properties set in the model belong to a diesel fuel Repsol CEC RF-06-99 at 23 • C. Its properties, obtained experimentally, 15 are a density at liquid phase of 830 kg/m 3 and a viscosity value of 0.0033 kg/ms. However, due to the difficulties to obtain the properties for the vapour phase, they were adjusted using the values given by Karrholm et al [7].…”

Section: Nozzle Description and Operating Conditionsmentioning

confidence: 99%

“…It is well known that during the opening and closing process of a diesel injector, the fuel characteristics at the nozzle exit change significantly as a consequence of the needle movement [8,14,15]. This change of fluid properties at the exit of the discharge orifices due to the variable position of the needle strongly affects the spray pattern and the air-fuel mixing process, and therefore its subsequent combustion [5,6,10,12,13].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Study of the influence of the needle eccentricity on the internal flow in diesel injector nozzles by computational fluid dynamics calculations

Salvador

Martinez-Lopez

Romero

et al. 2013

International Journal of Computer Mathematics

View full text Add to dashboard Cite

(October 2012) In the present paper, a computational study has been performed in order to clarify the effects of the needle eccentricity in a real multihole microsac nozzle. This nozzle has been simulated at typical operating conditions of a diesel engine, paying special attention to the internal flow development and cavitation appearance within the discharge orifices. For that purpose, a multiphase flow solver based on a homogeneous equilibrium model with a barotropic equation of state has been used, introducing the turbulence effects by RANS methods with a RNG k-ε model. The results obtained from this investigation have demonstrated the huge influence of the needle position on the flow characteristics, showing important hole to hole differences.

show abstract

Using one-dimensional modeling to analyze the influence of the use of biodiesels on the dynamic behavior of solenoid-operated injectors in common rail systems: Results of the simulations and discussion

Cited by 58 publications

References 26 publications

Study of the influence of the needle lift on the internal flow and cavitation phenomenon in diesel injector nozzles by CFD using RANS methods

Study of the influence of the needle lift on the internal flow and cavitation phenomenon in diesel injector nozzles by CFD using RANS methods

Impact of biodiesel fuel on cold starting of automotive direct injection diesel engines

Study of the influence of the needle eccentricity on the internal flow in diesel injector nozzles by computational fluid dynamics calculations

Contact Info

Product

Resources

About