Optical investigation of the fuel injector influence in a PFI spark ignition engine for two-wheel vehicles

Eksploatacja i Niezawodność – Maintenance and Reliability

2020

The article discusses results of the laboratory experiments in which fuel injectors used in indirect injection internal combustion engines were tested. During the experiments, numerous dosing cycles of the injectors were performed while changing the control parameters, due to which, the dosing characteristics were developed and influence of applied parameters on the resultant fuel flow determined. Simultaneously, the voltage and electric current waveforms in the injector coil were recorded, due to which finding links between the electric current characteristics and the determinants of the injector work was possible. The investigation has shown that parameters of electric current constitute a precise criterion for assessing the operation of the solenoid valve, because fuel flow is created due to the work ofelectric current. Thus, by observing the changes in the current flowing through the valve coil,it is possible to monitor precisely the correctness of the process of opening the flow and the electric current intensity, at which the flow began and to determine the mechanical quantities such as fuel dose and pressure. As a result, a characteristic is developed, that provides the links between the fuel pressure and the electric current at the point of lifting the needle, which is quite a novel approach. Such a characteristic can be used in diagnostics and control of fuel injectors as well as all kinds of electromagnetic valves

Section: Discussionmentioning

confidence: 64%

Section: Abstract: Injector Injector Diagnostics Indirect Injection C...mentioning

confidence: 99%

Electric current as a source of information about control parameters of indirect injection fuel injector

Więcławski¹,

Mączak²,

Eksploatacja i Niezawodność – Maintenance and Reliability

2020

“…Using the photoelectric phenomenon, Bor et al [3], presented a diagnostic method that allows observation of injection growth, its assessment and determination of injection start and end. Merola et al [24] presented another optical method., which, using an endoscopic system coupled with a CCD camera, analyzes the structure and rate of change of the state of the expanding fuel after exiting the injector nozzle. In the last cited work, Alloca et al [1] thanks to the vision method, analyzes the quality of injection with the simultaneous use of a microphone for measuring acoustic emissions, Fourier analysis and wavelet analysis, assessing the phenomenon of atomization of the fuel mixture.…”

Section: Problem Specificationmentioning

confidence: 99%

New approach of model based detection of early stages of fuel injector failures

Mączak¹,

Więcławski²,

Eksploatacja i Niezawodność – Maintenance and Reliability

2023

The aim of the work was to develop a method of real time diagnosing electromagnetic fuel injectors using the observation of electric current parameters available in the engine control unit. Performing this task required finding a precise criterion for assessing the correct operation of an electromagnetic injector. For this purpose, a mathematical model describing the individual phases of the injector's operation was used, allowing the simulation of the occurrence of typical failures. On its basis, symptoms of particular failures were determined based on the observation of electric current parameters in the control circuit. Observation of voltage and current waveforms allows to locate both electrical and mechanical damages to the injectors and to assess the correctness of the power system components. The presented diagnostic method allows the detection of the described damages in the early stages of their development, which prevents damage to the catalytic converter and other engine systems (valves, piston rings or cylinder surfaces), i.e. damages resulting from an incorrect fuel mixture.

“…The shorter the injection duration time, the greater the impact of the delay in opening and closing the injector relative to the preset time, therefore the flow diminished by certain value is obtained. The correct choice, of injection parameters and the design of the injector, allows you to limit irregularities the process of burning fuel in the engine combustion chamber and reduce the emission of soot and unburnt hydrocarbons [7]. Therefore, different types of injectors are compared.…”

Section: Introductionmentioning

confidence: 99%

Fuel injector diagnostics based on observations of magnetic flux changes

Więcławski¹,

Mączak²,

2018

Diagnostyka

The article discusses mutual relations of the dosage characteristics, current intensity characteristics, and voltage characteristics in the fuel injector electromagnet. Changes in current in the electromagnet's coil were monitored in the course of dosage by means of the Hall sensor. Change in the Hall voltage is proportional to the changes in density of the magnetic flux generated around the injector coil during its work. The model of the current dependencies was used to determine the injector technical state in the actual time. The presented diagnostics proposition was created on the basis of the injector dosage characteristics obtained due to experimental research. Change in characteristic values, recorded during generation of the fuel dose allows for determination of the injector technical state, regarding both, the current-related and the mechanical parameters. Controlling in the actual time enables corrections in control parameters as a response to changes, as well as quick detection of damage resulting in switching the injector off the operation. This prevents the faulty operation of the injector, which may result in damage to subsequent components depending on its operation, such as the catalytic reactor.