Utilizing Exhaust Valve Opening Modulation for Fast Warm-up of Exhaust After-treatment Systems on Highway Diesel Vehicles

Başaran, Hasan Üstün

doi:10.30939/ijastech..664860

Cited by 10 publications

(9 citation statements)

References 37 publications

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“…The mathematical formulations for the model on Figure 1 can be found on a previous work which uses the same model and attempts to show that EVO timing modulation can considerably improve EAT warm-up at low loads [26]. Reasonable control of EVO timing has a significant potential to accelerate EAT warmup on highway vehicles.…”

Section: Engine Properties and Simulation Modelmentioning

confidence: 99%

“…Unlike Ref. [26], this work uses boot-shaped (BS) LIVC technique and mainly considers the exhaust temperature rise without a need to rise fuel consumption penalty. It also attempts to show that double-valve (DV) BS-LIVC and single valve (SV) BS-LIVC can have technological advantages compared to conventional LIVC technique.…”

Section: Engine Properties and Simulation Modelmentioning

confidence: 99%

“…However, expansion work is shortened in EEVO mode and thus, the system needs additional fuel in order to keep engine load constant [25]. Basaran shows that both EEVO and late exhaust valve opening (LEVO) can elevate exhaust temperature of a diesel engine up to 55 o C at a low-loaded operating condition [26]. It is also shown that high fuel penalty (up to 20 %) is a significant disadvantage which needs to be considered [26].…”

Section: Introductionmentioning

confidence: 99%

“…Basaran shows that both EEVO and late exhaust valve opening (LEVO) can elevate exhaust temperature of a diesel engine up to 55 o C at a low-loaded operating condition [26]. It is also shown that high fuel penalty (up to 20 %) is a significant disadvantage which needs to be considered [26]. Another energy-inefficient on-engine technique is to apply internal exhaust gas recirculation (IEGR) [27].…”

Section: Introductionmentioning

confidence: 99%

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Effects of Intake Valve Lift Form Modulation on Exhaust Temperature and Fuel Economy of a Low-loaded Automotive Diesel Engine

Başaran

2021

International Journal of Automotive Science and Technology

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Exhaust after-treatment (EAT) systems on automotive vehicles cannot perform effectively at low loads due to low exhaust temperatures (Texhaust < 250 o C). Conventional late intake valve closure (LIVC) technique -a proven method to improve diesel exhaust temperatures -generally requires the modulation of the whole valve lift profile. However, an alternative method -boot-shaped LIVC -only needs partial lift form modulation and can rise exhaust temperatures significantly. Therefore, this study attempts to demonstrate that boot-shaped LIVC can be an alternative solution to improve exhaust temperatures above 250 o C at low-loaded operations of automotive vehicles.A 1-D engine simulation program is used to model the diesel engine system operating at 1200 RPM engine speed and at 2.5 bar brake mean effective pressure (BMEP) engine load. Boot-shaped LIVC is achieved via keeping the valve lift constant (at 4.0 mm) for a while during closure and then closing it at different closure angles. The method results in up to 55 o C exhaust temperature rise through reduced in-cylinder airflow and thus, is adequate to keep EAT system above 250 o C at low loads. The longer the boot is kept during closure, the lower the air-to-fuel ratio is reduced and the higher the exhaust temperature flows at turbine exit. Similar to conventional LIVC, boot-shaped LIVC improves fuel consumption as pumping losses are decreased in the system. Despite aforementioned improvements, EAT warm-up is affected negatively due to the significant drop-off on exhaust mass flow rates. The need to modify only some parts of the lift profile is a technical advantage and can reduce production costs.

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Section: Engine Properties and Simulation Modelmentioning

confidence: 99%

Section: Engine Properties and Simulation Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Effects of Intake Valve Lift Form Modulation on Exhaust Temperature and Fuel Economy of a Low-loaded Automotive Diesel Engine

Başaran

2021

International Journal of Automotive Science and Technology

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“…Dünyada tüketilen toplam enerjinin %27'sini ve atmosfere salınımı yapılan sera gazı emisyonunun %33'ünü karayollarında kullanılan araçlar oluşturmaktadır. Yüksek enerji tüketimi ve yüksek kirletici gaz emisyonlarının salınımına neden olan araçların çoğu sadece İYM (içten yanmalı motor) ile çalışan düşük verimlilik değerlerine sahip geleneksel araçlardır [1][2][3][4][5][6][7]. Fosil yakıtlı geleneksel araçların çevreye yaydığı zararlı gaz değerlerinin azaltılması amacı ile emisyon standartları her geçen gün arttırılmaktadır.…”

Section: Gi̇ri̇ş (Introduction)unclassified

Control of pre and post transmission parallel hybrid vehicles with fuzzy logic method and comparison with other power systems

Kocakulak

Solmaz

2020

Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi

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 Hybrid vehicle was controlled by fuzzy logic method  Creation of pre and post transmission parallel hybrid, serial hybrid, conventional vehicle models  Determination of the least fuel-consuming vehicle structure under NEDC, US06 and FTP 75 driving cycle conditions Figure A. Pre-transmission parallel hybrid vehicle diagram, operating point of ICE and electric motor under FTP 75 driving cycle Purpose: In this study, it is aimed to determine the vehicle structure with minimum average fuel consumption under different driving cycle conditions by controlling the pre-transmission, post-transmission parallel hybrid power systems with fuzzy logic method and comparing them with serial hybrid and conventional vehicle structures. Theory and Methods: Pre-transmission, post-transmission parallel hybrid, serial hybrid and conventional vehicle structures are modeled in MATLAB / Simulink environment using mathematical equations of systems and subsystems. Transfer functions representing the power systems of the pre-transmission, the post-transmission parallel hybrid, serial hybrid and conventional vehicles are derived. In order to evaluate all vehicle structures under the same conditions, the same system and subsystems were used on all vehicle structures. While the gas and brake pedal control is provided with PID in all vehicle structures, the torque distribution of the parallel hybrid vehicle is provided by the fuzzy logic control system. All vehicle models have dual clutch gearbox and lithium-ion battery pack. The battery model was created with the equivalent circuit Rint method. Results: The lowest average fuel consumption with the values of 5.73 L in the US 06 driving cycle, 4.00 in the FTP 75 driving cycle, 3,96 in the NEDC driving cycle and 4.18 L / 100 km in the EUDC driving cycle of the pretransmission parallel hybrid vehicle structure controlled by the fuzzy logic method. It is concluded that it has. In the ECE 15 driving cycle conditions, it was obtained that the series hybrid vehicle structure has the lowest average fuel consumption with a value of 3.62 L / 100 km. In the EUDC driving cycle conditions, which represent the intercity road speed conditions, the serial hybrid vehicle was found to cause 1.47% fuel consumption compared to the conventional vehicle. Conclusion: It is concluded that in all driving cycles conditions, the pre-transmission parallel hybrid vehicle structure consumes less fuel than the post-transmission parallel hybrid vehicle structure. The pre-transmission parallel hybrid vehicle structure controlled by fuzzy logic under NEDC, FTP75 and EUDC driving cycle conditions has been determined to have the lowest average fuel consumption. Under the conditions of the ECE15 driving cycle, which represents urban use, the series hybrid vehicle structure was found to consume the least amount of fuel. The conventional vehicle consumed more fuel under all driving conditions than the parallel hybrid vehicle. Conventional vehicle has become advantageous only in EUDC driving cycle conditions compared to serial hy...

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Prediction of performance and exhaust emissions of a CI engine fueled with multi-wall carbon nanotube doped biodiesel-diesel blends using response surface method

Solmaz

Ardebili

Calam

et al. 2021

Energy

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Utilizing Exhaust Valve Opening Modulation for Fast Warm-up of Exhaust After-treatment Systems on Highway Diesel Vehicles

Cited by 10 publications

References 37 publications

Effects of Intake Valve Lift Form Modulation on Exhaust Temperature and Fuel Economy of a Low-loaded Automotive Diesel Engine

Effects of Intake Valve Lift Form Modulation on Exhaust Temperature and Fuel Economy of a Low-loaded Automotive Diesel Engine

Control of pre and post transmission parallel hybrid vehicles with fuzzy logic method and comparison with other power systems

Prediction of performance and exhaust emissions of a CI engine fueled with multi-wall carbon nanotube doped biodiesel-diesel blends using response surface method

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