Marián Polóni scite author profile

This paper deals with the influence of blending hydrogen (from 0 to 50% vol.) on the parameters and the cyclic variability of a Lombardini LGW702 combustion engine powered by natural gas. The experimental measurements were carried out at various air excess ratios and at various angles of spark advance, at an operating speed of 1500 min<sup>−1</sup>. An analysis of the combustion pressure showed that as the proportion of hydrogen in the mixture increases, the maximum pressure value also increases. However, at the same time the cyclic variability decreases. Both the ignition-delay period and the period of combustion of the mixture become shorter, which requires optimization of the spark advance angle for various proportions of hydrogen in the fuel. The increasing proportion of hydrogen extends the flammability limit to the area of lean-burn mixtures and, at the same time, the coefficient of cyclic variability of the mean indicated pressure decreases.

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Low-Energy Synthesis Gases from Waste as Energy Source for Internal Combustion Engine

Polóni¹,

Chríbik²

2020

SAE Int. J. Engines

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Internal Combustion Engine Powered by Synthesis Gas from Pyrolysed Plastics

Chríbik

Polóni

Łach

et al. 2016

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The article discusses the application of synthesis gas from pyrolysis of plastics in petrol engine. The appropriate experimental measurements were performed on a combustion engine LGW 702 designated for micro-cogeneration unit. The power parameters, economic parameters in term of brake specific fuel consumption, and internal parameters of the engine were compared to the engine running on the reference fuel - natural gas and synthesis gas. Burning synthesis gas leads to decreased performance by about 5% and to increased mass hourly consumption by 120 %. In terms of burning, synthesis gas has similar properties as natural gas. Compared with [5] a more detailed study has been prepared on the effects of angle of spark advance on the engine torque, giving more detailed assessment of engine cycle variability and considering specification of start and end of combustion in the logarithm p-V diagram.

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Preliminary Study on Combustion and Overall Parameters of Syngas Fuel Mixtures for Spark Ignition Combustion Engine

2017

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Abstract. This paper presents a numerical study on a group of alternative gaseous fuels -syngases, and their use in the spark-ignition internal combustion engine Lombardini LGW 702. These syngas fuel mixtures consist mainly of hydrogen and carbon monoxide, together with inert gases. An understanding of the impact of the syngas composition on the nature of the combustion process is essential for the improvement of the thermal efficiency of syngas-fuelled engines. The paper focuses on six different syngas mixtures with natural gas as a reference.The introduction of the paper goes through some recent trends in the field of the alternative gaseous fuels, followed by a discussion of the objectives of our work, together with the selection of mixtures. Important part of the paper is dedicated to the experimental and above all to the numerical methods. Two different simulation models are showcased: the single-cylinder 'closed-volume' combustion analysis model and the full-scale LGW 702 model; all prepared and tuned with the GT-Power software.Steady-state engine measurements are followed by the combustion analysis, which is undertaken to obtain the burn rate profiles. The burn rate profiles, in the form of the Vibe formula, are than inserted into the in-house developed empirical combustion model based on Csallner-Woschni recalculation formulas. Its development is described in the scope as well. The full-scale LGW 702 simulation model, together with this empirical combustion model, is used for the evaluation of engine overall performance parameters, running on gaseous fuel mixtures. The analysis was done on engine full load and stoichiometric mixture conditions only.

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Marián Polóni

Comparison of unsteady flow calculations in a pipe by the method of characteristics and the two-step differential Lax-Wendroff method

The Effect of Adding Hydrogen on the Performance and the Cyclic Variability of a Spark Ignition Engine Powered by Natural Gas

Low-Energy Synthesis Gases from Waste as Energy Source for Internal Combustion Engine

Internal Combustion Engine Powered by Synthesis Gas from Pyrolysed Plastics

Preliminary Study on Combustion and Overall Parameters of Syngas Fuel Mixtures for Spark Ignition Combustion Engine

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