Vladimir Krivopolianskii scite author profile

Vladimir Krivopolianskii

4Publications

16Citation Statements Received

77Citation Statements Given

How they've been cited

How they cite others

113

Affiliations

Norwegian University of Science and Technology

Publications

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Control of the combustion process and emission formation in marine gas engines

et al. 2018

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A smooth transition to the use of gas engines instead of conventional engines in marine shipping is a logical pathway for compliance with tightening environmental regulations. Currently, five major gas engine concepts are applied in maritime sector. In this paper, a review of the marine gas engine concepts was performed with a focus on the control of combustion and emission. To assess all the contributors to combustion and the emission formation process, three main factors were outlined: design, operational parameters and fuel. The assessment of gas engines was conducted based on these factors. The present paper helps to provide an understanding of the current progress in development of marine gas engines towards improving of combustion efficiency and reducing the emissions. Moreover the knowledge gaps, particularly in four-stroke marine high-pressure gas engines, were identified.

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Experimental Study of Ignition Delay, Combustion, and NO Emission Characteristics of Hydrogenated Vegetable Oil

Krivopolianskii¹,

Bjørgen²,

Emberson³

et al. 2019

SAE Int. J. Fuels Lubr.

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Soot Investigation on Fish Oil Spray Combustion in a Constant Volume Cell

Malin¹,

Krivopolianskii²,

Rygh³

et al. 2015

SAE Int. J. Fuels Lubr.

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Maritime environmental regulations stipulate lower emissions from the shipping industry. To cope with these rules, improving the combustion processes, make use of cleaner alternative fuels and implement exhaust gas cleaning systems is necessary. Alternative fuels, like fish oil, have a potential to reduce soot formation during the combustion process and will be deeply investigated in this paper. For this purpose, two different types of fish oil and their blends with marine gas oil (MGO) have been tested in a constant volume pre-combustion cell (CVPC). The CVPC laboratory was built in collaboration between MARINTEK and NTNU. To generate similar injection condition in the combustion cell as in an internal combustion engine, the CVPC is heated using a chemical heating process. The CVPC is used as a fundamental investigation tool for studying the fuel injection system for large engine applications. Parameters that were studied include the combustion, spray development, fuel evaporation process and ignition delay. The general experimental setup of the test facility is described and the optical methods applied are explained for the investigation of fish oil. The aim is to study soot intensity and spray development and to compare the results to pure low-sulphur MGO as a reference fuel. The results conclude that the combustion and ignition properties of fish oil are very similar to marine gas oil and this makes it applicable as an alternative fuel for power generation in the maritime industry. The tests also showed a significant decrease in soot formation for the two fish oils.

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Fuel Rate Curve-Based Reverse Engineering Approach for Common Rail Diesel Injectors

Krivopolianskii

Lefèbvre

Ushakov

et al. 2019

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