2022
Correlation between Emission and Combustion Characteristics with the Compression Ratio and Fuel Injection Timing in Tribologically Optimized Diesel Engine
STOPKA, Ondrej, Saša MILOJEVIĆ, SAVIĆSlobodan SAVIĆ, Dejan MARIĆ, Božidar KRSTIĆ et. al.Basic information
Original name
Correlation between Emission and Combustion Characteristics with the Compression Ratio and Fuel Injection Timing in Tribologically Optimized Diesel Engine
Name in Czech
Korelace mezi emisními a spalovacími charakteristikami s kompresním poměrem a časováním vstřiku paliva u tribologicky optimalizovaného vznětového motoru
Authors
STOPKA, Ondrej (703 Slovakia, guarantor, belonging to the institution), Saša MILOJEVIĆ (688 Serbia), SAVIĆSlobodan SAVIĆ (688 Serbia), Dejan MARIĆ (688 Serbia), Božidar KRSTIĆ (688 Serbia) and Blaža STOJANOVIĆ (688 Serbia)
Edition
TEHNICKI VJESNIK-TECHNICKÝ VĚSTNÍK, Slavonski Brod, Chorvatsko, Strojarski Facultet, Sveuciliste Josipa Jurja Strossmayera u Osijeki, 2022, 1330-3651
Other information
Language
English
Type of outcome
Article in a journal
Field of Study
50703 Transport planning and social aspects of transport
Country of publisher
Croatia
Confidentiality degree
is not subject to a state or trade secret
References:
Impact factor
Impact factor: 0.900
RIV identification code
RIV/75081431:_____/22:00002504
Organization unit
Institute of Technology and Business in České Budějovice
Keywords (in Czech)
spalovací charakteristiky; vznětový motor; emise; časování vstřiku paliva; variabilní kompresní poměr
Keywords in English
combustion characteristics; diesel engine; emission; fuel injection timing; variable compression ratio
Changed: 16/3/2023 13:49, Barbora Kroupová
V originále
Diesel engines are economical thanks to their combustion process characteristics, which is why they have a high noise emission level as well as exhaust emissions of nitrogen oxide and particulate matters. By continuously changing the value of compression ratio, it is possible to control the power and emissions. Implementation of variable compression ratio has many benefits, such as being able to work with different types of fuel. In this way, it is possible to optimize the combustion process for operation with minimum fuel consumption and emission generation, so that diesel engines can be applied to the framework of future hybrid vehicle concepts, and so forth. As far as the crucial objective of the manuscript is concerned, experimental diesel engine investigation was performed on a roller test-bench by using zero-dimensional computer model (specifically AVL IndiCom Indicate Software). Engine indication was executed with the factory compression ratio value and with three lower values. During our examination, the change in the compression ratio value was achieved by changing the volume of a combustion chamber at a piston-bowl. The results of laboratory research on the experimental engine are presented in the paper when discussing a series of specific parameters (characteristics), such as compression ratio, fuel injection timing, engine speed, as well as load influence on combustion process and exhaust emissions.