Your search keyword '"Marek Waligórski"' showing total 4 results

1. Refining Combustion Dynamics: Dissolved Hydrogen in Diesel Fuel within Turbulent-Flow Environments

Author

Maciej Bajerlein, Wojciech Karpiuk, Beata Kurc, Rafał Smolec, and Marek Waligórski

Subjects

hydrogen, gas desorption, fuel atomization, combustion process, emission, ecology, Technology

Abstract

This article presents the possibility of improving combustion using the effect of releasing hydrogen from a solution with nucleation of gas bubbles. This concept consists in dissolving hydrogen in diesel fuel until the equilibrium state of the solution is reached. At a later stage, the phenomenon is reversed, and this gas is released from the solution during its injection into the combustion chamber with a strong swirl. A characteristic feature of the solution is that when lowering the pressure (opening the atomizers), there is a decrease in the equilibrium thermodynamic potential, which results in the excess, dissolved hydrogen being released spontaneously, and this process is of a volumetric nature. This article is a continuation of the work carried out at Poznan University of Technology on the development of this concept. This article presents the results of tests for the impact of hydrogen dissolved in diesel fuel on the combustion process within a turbulent-flow environment. The tests were conducted in the combustion chamber of an engine equipped with a toroidal combustion chamber and direct injection. During the tests, the following factors were measured: the main indicators of motor operation, emission of hydrocarbons, carbon monoxide, nitrogen oxides, and particulate matters.

Published

2024

2. Exhaust Emissions from a Hybrid City Bus Fuelled by Conventional and Oxygenated Fuel

Author

Miłosław Kozak, Piotr Lijewski, and Marek Waligórski

Subjects

exhaust emissions, city bus, hybrid bus, oxygenated diesel fuel, Technology

Abstract

City buses are one of the main means of public transport in cities. As they move in a limited and densely populated area and are intensively exploited, it is particularly important that they are environmentally friendly. There are many ways to reduce emissions from city buses, including the use of hybrid propulsion. Another way is to use low-emission fuels. This article presents the results of the emission tests of an 18 m articulated city bus with a serial hybrid drive fuelled comparatively by conventional diesel fuel and oxygenated fuel containing 10% v/v of triethylene glycol dimethyl ether (TEGDME). The emission tests were carried out during the actual operation of the bus on a route in Poznań (Poland) and over the SORT cycles. The obtained test results were compared also with the results obtained for a conventional bus. The reduction in emissions of some exhaust components was found when the hybrid bus was fuelled with oxygenated fuel during its actual operation on the bus route. There was a reduction in CO emissions by ~50% and NOx emissions by ~10%. Almost identical levels of PM and HC emissions and smoke opacity were observed for both fuels. In the SORT cycles, the differences in the emissions obtained for both types of fuel were small. In general, for the hybrid bus, a lower influence of oxygenated fuel on emissions was recorded than for the conventional bus.

Published

2022

3. The Use of Vibration Parameters in the Research of Misfire Events in CI Engines in the Point of View of the OBD System Appliance in Diesel Locomotives

Author

Jerzy, Merkisz and Marek, Waligórski

Published

2007

4. Strategy of the Combustion Process Diagnosis in Direct Injection Engines

Author

Marek Waligórski and Jerzy Merkisz

Subjects

Engineering, Correctness, Stationary engine, Ecology, business.industry, Process (engineering), SIGNAL (programming language), Combustion, General Medicine, Vibroacoustic diagnosis, Automotive engineering, Compression-ignition engine, Internal combustion engine, Engine efficiency, Design process, business, Reliability (statistics), Engineering(all)

Abstract

The proper strategy of internal combustion engine operation is one of the basic aims being taken into account in a design process, in a phase of building the first design of a specified engine, verification of geometrical and operational parameters for a real object (comparing to a brief foredesign) to the moment when one obtains the final design of the engine. This particular purpose of such process is also important during combustion engine operation in a stationary or traction applications. Undoubtedly, the assessment of the main processes taking place in such engines, especially combustion processes runs, in the point of view of the correct diagnosis and engine operation management, is convergent with present and future combustion engines design trends and with the world environment protection requirements. That is why the paper concerns the assessment of a combustion process correctness in a direct injection compression-ignition engine on the basis of vibration signal runs and their digital processing. The method of such diagnosis was implemented to identify quality and quantity changes of main processes characteristics and diagnostic parameters regarding with engine work conditions, operation time and with some problems appearing in specified engine working cycles. The paper gives scientific solutions for precise diagnosis of combustion process correctness and some failures that could take place in combustion of compression-ignition and direct injection engines. Reliability of a method for these scientific tasks was checked for research conducted in stationary engine operation conditions.