Davor Rašić scite author profile

Davor Rašić

5Publications

19Citation Statements Received

90Citation Statements Given

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119

Affiliations

University of Ljubljana, Abt Associates (Nepal)

Publications

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RDE-based assessment of a factory bi-fuel CNG/gasoline light-duty vehicle

Rašić

Oprešnik

Seljak

et al. 2017

Atmospheric Environment

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On-road exhaust emissions of a Euro 5 factory bi-fuel CNG/gasoline light-duty vehicle equipped with the TWC were assessed considering the Real Driving Emissions (RDE) guidelines. The vehicle was equipped with a Portable Emission Measurement System (PEMS) that enabled the measurement of THC, CO, NOx, CO2, and CH4. With respect to the characteristics of the vehicle, the appropriate Worldwide Harmonized Light-Duty Vehicle Test Cycles (WLTC) were selected and based on the requirements of the RDE legislation a suitable route was conceived. In addition to the moderate RDE-based route, an extended RDE-based route was also determined. The vehicle was driven along each defined route twice, once with each individual fuel option and with a fully warm vehicle.RDE routes feature a multitude of new driving patterns that are significantly different to those encountered in the NEDC. However, as these driving patterns can greatly influence the cumulative emissions an insight in to local time trace phenomena is crucial to understand, reason and to possibly reduce the cumulative emissions. Original contributions of this paper comprise analyses of the RDE-LDV local time resolved driving emissions phenomena of a CNG-powered vehicle that are benchmarked against the ones measured under the use of gasoline in the same vehicle and under similar operating conditions to reason emission trends through driving patterns and powertrain parameters and exposing the strong cold-start independent interference of CO and N2O infrared absorption bands in the non-dispersive infrared (NDIR) analyzer. The paper provides experimental evidence on this interference, which significantly influences on the readings of CO emissions. The paper further provides hypotheses why CO and N2O interference is more pronounced when using CNG in LDVs and supports these hypotheses by PEMS tests.The study reveals that the vehicle's NOx real-world emission values of both conceived RDE-based routes when using both fuels are within Euro 5 and type-approval limits. Additionally, the THC and the NMHC emissions of both RDE-based routes using both fuels are within the Euro 5 limits indicating reasonable CH4 emissions. Notable increases above the type-approval and Euro 5 limits appeared in the CO emissions profile when using gasoline, while the CO2 emissions profile expectedly also exceeded the type-approval specifications. Highlights• A factory bi-fuel CNG/gasoline LDV was assessed considering the proposed RDE guidelines • CNG RDE-LDV results are benchmarked against the ones of the gasoline fuel

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Methodology for processing pressure traces used as inputs for combustion analyses in diesel engines

Rašić

Vihar

Baškovič

et al. 2017

Meas. Sci. Technol.

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This study proposes a novel methodology for designing an optimum equiripple finite impulse response (FIR) filter for processing in-cylinder pressure traces of a diesel internal combustion engine, which serve as inputs for high-precision combustion analyses. The proposed automated workflow is based on an innovative approach of determining the transition band frequencies and optimum filter order. The methodology is based on discrete Fourier transform analysis, which is the first step to estimate the location of the pass-band and stop-band frequencies. The second step uses short-time Fourier transform analysis to refine the estimated aforementioned frequencies. These pass-band and stop-band frequencies are further used to determine the most appropriate FIR filter order. The most widely used existing methods for estimating the FIR filter order are not effective in suppressing the oscillations in the rate-of-heat-release (ROHR) trace, thus hindering the accuracy of combustion analyses. To address this problem, an innovative method for determining the order of an FIR filter is proposed in this study. This method is based on the minimization of the integral of normalized signal-to-noise differences between the stop-band frequency and the Nyquist frequency. Developed filters were validated using spectral analysis and calculation of the ROHR. The validation results showed that the filters designed using the proposed innovative method were superior compared with those using the existing methods for all analyzed cases. Highlights  Pressure traces of a diesel engine were processed by first impulse response (FIR) filters with different orders  Transition band frequencies were determined with an innovative method based on discrete Fourier transform and short-time Fourier transform  Spectral analyses showed deficiencies of existing methods in determining the FIR filter order  A new method of determining the FIR filter order for processing pressure traces was proposed  The efficiency of the new method was demonstrated by spectral analyses and calculations of rate-of-heat-release traces

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Multi-domain and Multi-scale model of a fuel cell electric vehicle to predict the effect of the operating conditions and component sizing on fuel cell degradation

Rašić

Katrašnik

2022

Energy Conversion and Management

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FCEV simulation – Electrochemical battery and fuel cell models on vehicle level

Wurzenberger

Glatz

Rašić³

et al. 2020

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FCEV Performance Assessment - Electrochemical Fuel Cell and Battery Modelling on Vehicle Level

Wurzenberger

Rašić

Tavčar

et al. 2020

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Davor Rašić

RDE-based assessment of a factory bi-fuel CNG/gasoline light-duty vehicle

Methodology for processing pressure traces used as inputs for combustion analyses in diesel engines

Multi-domain and Multi-scale model of a fuel cell electric vehicle to predict the effect of the operating conditions and component sizing on fuel cell degradation

FCEV simulation – Electrochemical battery and fuel cell models on vehicle level

FCEV Performance Assessment - Electrochemical Fuel Cell and Battery Modelling on Vehicle Level

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