Wyniki 1-5 spośród 5 dla zapytania: authorDesc:"Sebastian RÓŻOWICZ"

### Wpływ wybranych parametrów strony pierwotnej układu zapłonowego na ograniczenie poziomu emisji i toksyczności spalin DOI:10.12915/pe.2014.12.16

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### Analiza wpływu zmiany parametrów R,L,C strony pierwotnej układu zapłonowego na wartość energii wyładowania iskrowego DOI:10.15199/48.2016.05.43

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### The effect of different ignition cables on spark plug durability DOI:10.15199/48.2018.04.43

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This work is a follow-up to papers [1,2] presenting the analysis of ignition systems for which the effects of spark plug electrode wear on spark discharge energy is discussed. The attempt has been made to introduce the element representing different ignition cables into ignition model. At present air pollution is not only a local but also an international problem. At one of the international road congresses, the results of environmental pollution in 12 major European cities were presented. They showed that transport emissions amount to more than 90% of CO, 76% of hydrocarbons, 38% of NOX, more than 70% of dust and almost 100% of lead. Therefore, the analysis of combustion engine and its ignition system is highly desirable. [4]. Voltage measurement at ignition cable ends In general, ignition systems can be divided into systems with energy storage in inductance or in capacitance [1-3]. Figure 1 presents a general diagram of a mathematical model, where Rls is the spark plug and C45 and R45 denote capacity and resistance, respectively. Fig. 1. Model of the ignition system for the simulation studies. Ub - battery voltage, R1 - resistance of the ignition coil primary winding, L1 - inductance of the ignition coil primary winding, L2 - inductance of the ignition coil secondary winding, R2 - resistance of the ignition coil secondary winding, R4 - resistance representing the losses in the coil core, R3 - radioelectrical interference resistance, R45 - flow resistance of the spark plug, Rls - discharge resistance, C2 - self-capacity of the coil, C45 - self-capacity of the spark plug, M - coupling [2 ] The equivalent circuit of the ignition system presented in Fig. 1 is described by Eqs. (1) and (5) for two states of the control block. The solution to the system of equations obtained for the control block in the contact state by using the state variable method is presented as relationship (5), where it is assumed that the initial condi[...]

### Układy pracy niskociśnieniowych rtęciowych lamp wyładowczych jako źródła i odbiorniki zakłóceń

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W artykule przedstawiono trend nasycania rynku odbiornikami energii elektrycznej o charakterystyce nieliniowej, wskazując że w najbliższej przyszłości może nastąpić pogorszenie jakości energii zwłaszcza w zakresie odkształcenia krzywej napięcia. Opierając się na tych przesłankach przeprowadzono badania wpływu konfiguracji układów pracy niskociśnieniowych rtęciowych lamp wyładowczych na wielkość [...]

### Fractional models of selected combustion engine ignition systems DOI:10.15199/48.2016.04.08

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This paper attempts to introduce a quasi-inductive element into ignition system and describes it by fractional order equation. Two typical systems have been studied and numerical analysis has been conducted. Streszczenie. W pracy podjęto próbę wprowadzenia elementów quasi-indukcyjnych, aby opisać równaniem ułamkowego rzędu układy zapłonowe. Dwa typowe systemy zostały zbadane, po czym przeprowadzono dla nich analizę numeryczną. (Ułamkowe modele wybranych układów zapłonowych silników spalinowych) Keywords: ignition system, fractional order derivatives, transient states. Słowa kluczowe: układ zapłonowy, pochodne ułamkowego rządu, stany przejściowe. Introduction Ignition systems of modern vehicles are modeled by electrical circuits whose mathematical description is given by nonlinear equations [1-3]. Studies on the dynamics of ignition systems are hard and results of analysis and digital simulation differ from the experimental ones. In our paper an attempt has been made to introduce quasi-inductive element L (described by the equation of fractional order ) into a model of the ignition system. Ignition systems are magnetically coupled primary and secondary circuits. The object of our research is an electrical circuit modeling the primary side of the ignition system. The paper attempts to answer the question whether it is possible to model nonlinearity and losses in actual systems by an induction element of fractional order. Fractional models of ignition systems Generally, ignition systems can be represented as systems with energy storage in inductance and the ones with energy storage in capacitance [4, 5, 9, 11]. Replacing the inductive element (ignition coil) with L element we obtain two models shown in Figure 1. Fig. 1.a) model of a system with energy stored in capacitance Fig. 1.b) model of a system with energy stored in inductance Analysis of transient state and digital simulations Two systems presented[...]

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