Effects of Different Injection Strategies on Combustion and Emission Characteristics of Diesel Engine Fueled with Dual Fuel

In this work, an effective numerical simulation method was developed and used to analyze the effects of natural gas mixing ratio and pilot-main injection, main-post injection, and pilot-main-post injection strategies on the combustion and emission characteristics of diesel engine fueled with dual fuel. Firstly, the one-dimensional calculation model and three-dimensional CFD model of the engine were established by AVL-BOOST and AVL-Fire, respectively. In addition, the simplified chemical kinetics mechanism was adopted, which could accurately calculate the combustion and emission characteristics of the engine. The results show that the cylinder pressure and heat release rate decrease with the increase of the natural gas mixing ratio and the NOx emission is reduced. When the NG mixing ratio is 50%, the NOx and CO emission are reduced by 47% and 45%, respectively. When the SODI3 is 24 °CA ATDC, the NOx emission is reduced by 29.6%. In addition, with suitable pilot-main injection and pilot-main-post injection strategies, the combustion in the cylinder can be improved and the trade-off relationship between NOx and soot can be relaxed. Thus, the proper main-post injection strategy can improve the combustion and emission characteristics, especially the reduction in the NOx and CO emissions.

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Emission Characteristics from Diesel Engine with Emulsion Fuel and Natural Gas Dual Fuel

Journal of Power System Engineering ◽

10.9726/kspse.2021.25.5.022 ◽

2021 ◽

Vol 25 (5) ◽

pp. 22-28

Author(s):

Suk-Ho Jung ◽

Ji-Ho Kim ◽

Sang-Won Kim ◽

Jeong-Min Cheon

Keyword(s):

Diesel Engine ◽

Natural Gas ◽

Dual Fuel ◽

Emission Characteristics

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Study on Modified Natural Gas Engine Considering NOx Emission

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.318.371 ◽

2013 ◽

Vol 318 ◽

pp. 371-374

Author(s):

Chen Fan

Keyword(s):

Diesel Engine ◽

Natural Gas ◽

Nox Emission ◽

Emission Characteristics ◽

Gas Engine ◽

Natural Gas Engine ◽

Low Nox Emission ◽

Engine Power

There was a conflict between NOx emission and engine power of modified natural gas engine. Influence facters of NOx emission and emission characteristics of existing modified engine were studied. Emission and engine power of natural gas engine modified from gasoline and diesel engine were compared. Then some sugesstion are brought out for designing low NOx emission natural gas engine and promote engine power.

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Performance and exhaust emission characteristics of dual-fuel diesel engine with a natural gas direct injection system Takahisa Koseki, Yasuhiro Daisho, Akihiro Ikeda, Ryoji Kihara, Takeshi saito (Waseda University)

JSAE Review ◽

10.1016/s0389-4304(97)85181-8 ◽

1997 ◽

Vol 18 (2) ◽

pp. 209

Keyword(s):

Diesel Engine ◽

Natural Gas ◽

Direct Injection ◽

Injection System ◽

Exhaust Emission ◽

Dual Fuel ◽

Emission Characteristics

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Emission Characteristics of Dual Fuel Diesel Engine in Accordance with Common-rail Pressure and Natural Gas Mass Proportion

Journal of the Korea Society For Power System Engineering ◽

10.9726/kspse.2020.24.3.098 ◽

2020 ◽

Vol 24 (3) ◽

pp. 98-103 ◽

Cited By ~ 1

Author(s):

Kyong-Hyon Kim ◽

Suk-Ho Jung

Keyword(s):

Diesel Engine ◽

Natural Gas ◽

Common Rail ◽

Dual Fuel ◽

Emission Characteristics ◽

Rail Pressure ◽

Common Rail Pressure ◽

Mass Proportion

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Modeling of post-injection strategies of ethanol and experimental analysis of the use of ethanol in the form of dual fuel and emulsion in diesel engine

Thermal Science ◽

10.2298/tsci191223073g ◽

2021 ◽

pp. 73-73

Author(s):

Hüseyin Gürbüz ◽

Tarkan Sandalci

Keyword(s):

Experimental Studies ◽

Engine Performance ◽

Nox Emission ◽

Pollutant Emissions ◽

Post Injection ◽

Emulsion Method ◽

Performance And Emissions ◽

Main Injection ◽

Engine Performance And Emissions ◽

Injection Strategies

In this research, as the first stage, the effects of the ethanol on engine performance and emissions under the fumigation and emulsion method were experimentally investigated under part load and various engine speed conditions. Diesel-ethanol blend containing 5% ethanol by volume was used as the mixture fuel. In the fumigation method, ethanol was used at the same rate and 99.9% purity as the emulsion method. As the second stage, the effects of ethanol post injection on engine performance and pollutant emissions were investigated in the experimental engine modeled in AVL Boost simulation program and compared with the experimental results. Simulation post injection tests were performed separately after the main injection at 3 CA (P1) and 7 CA (P2) crank angles. In the experimental studies, NOx emission decreased with the emulsion method (E5) at low and high engine speeds. In post injection strategies, NOx emission in general increased due to improved combustion and increased in-cylinder temperature with P1 (first post injection) and P2 (second post injection) strategies. Soot emission decreased significantly with E5. This improvement in soot emissions was approximately 87% in post injection strategies.

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Effect of post-injection strategies on regulated and unregulated harmful emissions from a heavy-duty diesel engine

International Journal of Engine Research ◽

10.1177/1468087420980917 ◽

2020 ◽

pp. 146808742098091

Author(s):

Sheikh Muhammad Farhan ◽

Wang Pan ◽

Wu Yan ◽

Yi Jing ◽

Lei Lili

Keyword(s):

Diesel Engine ◽

Injection Technique ◽

Nox Emissions ◽

Post Injection ◽

Heavy Duty ◽

Fuel Mass ◽

Start Of Injection ◽

Main Injection ◽

Unregulated Emissions ◽

Injection Strategies

An experimental study was carried out to analyze the influence of different post-injection strategies on the regulated and unregulated emissions from a heavy-duty compression ignition (CI) diesel engine. FTIR (Fourier transform infrared spectroscopy) was used to measure and analyze the exhaust emissions which include regulated such as NOx, soot, and unregulated emissions including acetaldehyde, formaldehyde, methane, ethane, propane, ethylene, propylene, and ethyne. Experimental results manifested that the post-injection technique can notably minimize the regulated and unregulated emissions as compared to a single main injection. Under different post-injection conditions, a trade-off relation was also found between soot and NOx emissions. In soot mitigation, the start of injection (SOI) at 40° crank angle (CA) incorporate with 5–15 mg post-injection fuel mass was proved very effective and about 26% lower soot emissions were recorded than single main injection. At SOI 20°CA, with 15 mg post-injection fuel mass, a reduction in the NOx emissions was observed up to 20% and in THC up to 60%. Unregulated emissions (other than formaldehyde and acetaldehyde) were found lower with 5, 10, and 15 mg post-injection fuel mass at 20, 40, 100, and 120°CA but increased at SOI of 60°CA than single main injection. In addition, light HCs, and THC emissions at SOI 60°CA were found to increase which could be beneficial for after-treatment devices.

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Investigation of Effect on Environmental Performance of Using LNG as Fuel for Engines in Seaport Tugboats

Journal of Marine Science and Engineering ◽

10.3390/jmse9020123 ◽

2021 ◽

Vol 9 (2) ◽

pp. 123

Author(s):

Sergejus Lebedevas ◽

Lukas Norkevičius ◽

Peilin Zhou

Keyword(s):

Diesel Engine ◽

Natural Gas ◽

Baltic Sea ◽

Impact Assessment ◽

Fuel Consumption ◽

Dual Fuel ◽

Nox Emissions ◽

The Baltic Sea ◽

Emission Analysis ◽

The Baltic

Decarbonization of ship power plants and reduction of harmful emissions has become a priority in the technological development of maritime transport, including ships operating in seaports. Engines fueled by diesel without using secondary emission reduction technologies cannot meet MARPOL 73/78 Tier III regulations. The MEPC.203 (62) EEDI directive of the IMO also stipulates a standard for CO2 emissions. This study presents the results of research on ecological parameters when a CAT 3516C diesel engine is replaced by a dual-fuel (diesel-liquefied natural gas) powered Wartsila 9L20DF engine on an existing seaport tugboat. CO2, SO2 and NOx emission reductions were estimated using data from the actual engine load cycle, the fuel consumption of the KLASCO-3 tugboat, and engine-prototype experimental data. Emission analysis was performed to verify the efficiency of the dual-fuel engine in reducing CO2, SO2 and NOx emissions of seaport tugboats. The study found that replacing a diesel engine with a dual-fuel-powered engine led to a reduction in annual emissions of 10% for CO2, 91% for SO2, and 65% for NOx. Based on today’s fuel price market data an economic impact assessment was conducted based on the estimated annual fuel consumption of the existing KLASCO-3 seaport tugboat when a diesel-powered engine is replaced by a dual-fuel (diesel-natural gas)-powered engine. The study showed that a 33% fuel costs savings can be achieved each year. Based on the approved methodology, an ecological impact assessment was conducted for the entire fleet of tugboats operating in the Baltic Sea ports if the fuel type was changed from diesel to natural gas. The results of the assessment showed that replacing diesel fuel with natural gas achieved 78% environmental impact in terms of NOx emissions according to MARPOL 73/78 Tier III regulations. The research concludes that new-generation engines on the market powered by environmentally friendly fuels such as LNG can modernise a large number of existing seaport tugboats, significantly reducing their emissions in ECA regions such as the Baltic Sea.

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Statistical and experimental investigation of the influence of fuel injection strategies on CRDI engine assisted CNG dual fuel diesel engine

International Journal of Hydrogen Energy ◽

10.1016/j.ijhydene.2021.04.010 ◽

2021 ◽

Author(s):

J. Ramachander ◽

S.K. Gugulothu ◽

G.Ravikiran Sastry ◽

M.Siva Surya

Keyword(s):

Experimental Investigation ◽

Diesel Engine ◽

Fuel Injection ◽

Dual Fuel ◽

Injection Strategies

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A Numerical Study on the Combustion Process and Emission Characteristics of a Natural Gas-Diesel Dual-Fuel Marine Engine at Full Load

Energies ◽

10.3390/en14051342 ◽

2021 ◽

Vol 14 (5) ◽

pp. 1342

Author(s):

Van Chien Pham ◽

Jae-Hyuk Choi ◽

Beom-Seok Rho ◽

Jun-Soo Kim ◽

Kyunam Park ◽

...

Keyword(s):

Natural Gas ◽

Combustion Process ◽

Simulation Software ◽

Dual Fuel ◽

Injection Timing ◽

Emission Characteristics ◽

Cylinder Pressure ◽

Marine Engine ◽

Full Load ◽

Simulation Results

This paper presents research on the combustion and emission characteristics of a four-stroke Natural gas–Diesel dual-fuel marine engine at full load. The AVL FIRE R2018a (AVL List GmbH, Graz, Austria) simulation software was used to conduct three-dimensional simulations of the combustion process and emission formations inside the engine cylinder in both diesel and dual-fuel mode to analyze the in-cylinder pressure, temperature, and emission characteristics. The simulation results were then compared and showed a good agreement with the measured values reported in the engine’s shop test technical data. The simulation results showed reductions in the in-cylinder pressure and temperature peaks by 1.7% and 6.75%, while NO, soot, CO, and CO2 emissions were reduced up to 96%, 96%, 86%, and 15.9%, respectively, in the dual-fuel mode in comparison with the diesel mode. The results also show better and more uniform combustion at the late stage of the combustions inside the cylinder when operating the engine in the dual-fuel mode. Analyzing the emission characteristics and the engine performance when the injection timing varies shows that, operating the engine in the dual-fuel mode with an injection timing of 12 crank angle degrees before the top dead center is the best solution to reduce emissions while keeping the optimal engine power.

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