The experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressure

The experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressure

The article discusses the issue of experimentally determining the relationship between the energising time of the common rail electromagnetic injector and the set fuel quantity and rail pressure. Experimental studies according to the assumed methodology were made on a test bench enabling the dynamic...

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Main Authors: Pietras Dariusz, Knefel Tomasz, Satława Mateusz
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201711800033
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spelling doaj-9cc7182cf4f4452c862f816f84f1ca6e2021-04-02T07:16:37ZengEDP SciencesMATEC Web of Conferences2261-236X2017-01-011180003310.1051/matecconf/201711800033matecconf_icce2017_00033The experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressurePietras Dariusz0Knefel Tomasz1Satława Mateusz2University of Bielsko-Biala, Faculty of Mechanical Engineering and Computer ScienceUniversity of Bielsko-Biala, Faculty of Mechanical Engineering and Computer ScienceUniversity of Bielsko-Biala, Faculty of Mechanical Engineering and Computer ScienceThe article discusses the issue of experimentally determining the relationship between the energising time of the common rail electromagnetic injector and the set fuel quantity and rail pressure. Experimental studies according to the assumed methodology were made on a test bench enabling the dynamic flow rate measurement of the injector. The fuel system mounted on the test bench was controlled by the laboratory CI engine control unit based on the original concept of one of the authors of the article. The results of the experimental studies have made it possible to determine many of the characteristics of the fuel flow rate depending on the specified rail pressure and the energising time of the injector. An analysis was then performed followed by extrapolation of the obtained results. The data obtained from these analyses are the basis for the development of the energising time control algorithm based on a set fuel quantity and rail pressure.https://doi.org/10.1051/matecconf/201711800033
collection DOAJ
language English
format Article
sources DOAJ
author Pietras Dariusz
Knefel Tomasz
Satława Mateusz
spellingShingle Pietras Dariusz
Knefel Tomasz
Satława Mateusz
The experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressure
MATEC Web of Conferences
author_facet Pietras Dariusz
Knefel Tomasz
Satława Mateusz
author_sort Pietras Dariusz
title The experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressure
title_short The experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressure
title_full The experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressure
title_fullStr The experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressure
title_full_unstemmed The experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressure
title_sort experimental determination of the relationship between the energising time of the common rail injector and the set fuel quantity and rail pressure
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2017-01-01
description The article discusses the issue of experimentally determining the relationship between the energising time of the common rail electromagnetic injector and the set fuel quantity and rail pressure. Experimental studies according to the assumed methodology were made on a test bench enabling the dynamic flow rate measurement of the injector. The fuel system mounted on the test bench was controlled by the laboratory CI engine control unit based on the original concept of one of the authors of the article. The results of the experimental studies have made it possible to determine many of the characteristics of the fuel flow rate depending on the specified rail pressure and the energising time of the injector. An analysis was then performed followed by extrapolation of the obtained results. The data obtained from these analyses are the basis for the development of the energising time control algorithm based on a set fuel quantity and rail pressure.
url https://doi.org/10.1051/matecconf/201711800033
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AT knefeltomasz theexperimentaldeterminationoftherelationshipbetweentheenergisingtimeofthecommonrailinjectorandthesetfuelquantityandrailpressure
AT satławamateusz theexperimentaldeterminationoftherelationshipbetweentheenergisingtimeofthecommonrailinjectorandthesetfuelquantityandrailpressure
AT pietrasdariusz experimentaldeterminationoftherelationshipbetweentheenergisingtimeofthecommonrailinjectorandthesetfuelquantityandrailpressure
AT knefeltomasz experimentaldeterminationoftherelationshipbetweentheenergisingtimeofthecommonrailinjectorandthesetfuelquantityandrailpressure
AT satławamateusz experimentaldeterminationoftherelationshipbetweentheenergisingtimeofthecommonrailinjectorandthesetfuelquantityandrailpressure
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