Capillary Sensor with Disposable Optrode for Diesel Fuel Quality Testing

Diesel fuel quality can be considered from many different points of view. Fuel producers, fuel consumers, and ecologists have their own ideas. In this paper, a sensor of diesel fuel quality type, and fuel condition that is oriented to the fuel’s consumers, is presented. The fuel quality types include premium, standard, and full bio-diesel classes. The fuel conditions include fuel fit for use and fuel degraded classes. The classes of fuel are connected with characteristics of engine operation. The presented sensor uses signal processing of an optoelectronic device monitoring fuel samples that are locally heated to the first step of boiling. Compared to previous works which consider diesel fuel quality sensing with disposable optrodes which use a more complex construction, the sensor now consists only of a capillary probe and advanced signal processing. The signal processing addresses automatic conversion of the data series to form a data pattern, estimates the measurement uncertainty, eliminates outlier data, and determines the fuel quality with an intelligent artificial neural network classifier. The sensor allows the quality classification of different unknown diesel fuel samples in less than a few minutes with the measurement costs of a single disposable capillary probe and two plugs.

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DIESEL ENGINE OPERATION IN USE OF FUEL WITH ADDITIVES

International Conference on Technics Technologies and Education ◽

10.15547/10.15547/ictte.2018.01.003 ◽

2018 ◽

pp. 18-24

Author(s):

Petar Kazakov ◽

Atanas Iliev ◽

Emil Marinov

Keyword(s):

Diesel Engine ◽

Fuel Consumption ◽

Diesel Fuel ◽

Internal Combustion Engines ◽

Experimental Studies ◽

Combustion Engines ◽

Engine Operation ◽

Factors Affecting ◽

Operating Modes ◽

Positive Effects

Over the decades, more attention has been paid to emissions from the means of transport and the use of different fuels and combustion fuels for the operation of internal combustion engines than on fuel consumption. This, in turn, enables research into products that are said to reduce fuel consumption. The report summarizes four studies of fuel-related innovation products. The studies covered by this report are conducted with diesel fuel and usually contain diesel fuel and three additives for it. Manufacturers of additives are based on already existing studies showing a 10-30% reduction in fuel consumption. Comparative experimental studies related to the use of commercially available diesel fuel with and without the use of additives have been performed in laboratory conditions. The studies were carried out on a stationary diesel engine СМД-17КН equipped with brake КИ1368В. Repeated results were recorded, but they did not confirm the significant positive effect of additives on specific fuel consumption. In some cases, the factors affecting errors in this type of research on the effectiveness of fuel additives for commercial purposes are considered. The reasons for the positive effects of such use of additives in certain engine operating modes are also clarified.

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Development of Soft Sensor for Diesel Fuel Quality Estimation

Chemical Engineering & Technology ◽

10.1002/ceat.200900435 ◽

2010 ◽

Vol 33 (3) ◽

pp. 405-413 ◽

Cited By ~ 9

Author(s):

N. Bolf ◽

G. Galinec ◽

T. Baksa

Keyword(s):

Diesel Fuel ◽

Soft Sensor ◽

Fuel Quality ◽

Quality Estimation

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Influences of Diesel Fuel Properties and Ambient Temperature on Engine Operation and Exhaust Emissions

10.4271/890012 ◽

1989 ◽

Cited By ~ 10

Author(s):

Ari Juva ◽

Paul Zelenka ◽

Peter Tritthart

Keyword(s):

Ambient Temperature ◽

Diesel Fuel ◽

Exhaust Emissions ◽

Fuel Properties ◽

Engine Operation

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Onboard Optimisation of Engine Emissions and Consumption According to Diesel Fuel Quality

SAE International Journal of Engines ◽

10.4271/2012-01-1694 ◽

2012 ◽

Vol 5 (4) ◽

pp. 1661-1683

Author(s):

Eric Hermitte ◽

Alain Lunati ◽

Thaddaeus Delebinski

Keyword(s):

Diesel Fuel ◽

Fuel Quality ◽

Engine Emissions

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OPTIMIZATION OF GAS-DIESEL ENGINE REGULATION AS A METHOD OF IMPROVING ITS ECOLOGICAL CHARACTERISTICS

AGRICULTURAL ENGINEERING ◽

10.26897/2687-1149-2021-4-28-32 ◽

2021 ◽

pp. 28-32

Author(s):

VALERIY L. CHUMAKOV ◽

Keyword(s):

Carbon Monoxide ◽

Diesel Engine ◽

Nitrogen Oxides ◽

Diesel Fuel ◽

Hydrocarbon Fuel ◽

Load Range ◽

Engine Operation ◽

Exhaust Gases ◽

Wide Range ◽

Diesel Cycle

The paper shows some ways to improve the environmental characteristics of a diesel engine using gaseous hydrocarbon fuel and operating the engine in a gas-diesel cycle mode. Some possibilities to reduce toxic components of exhaust gases in a gas-diesel engine operating on liquefi ed propane-butane mixtures have been studied. Experiments carried out in a wide range of load from 10 to 100% and speed from 1400 to 2000 rpm showed that the gas-diesel engine provides a suffi ciently high level of diesel fuel replacement with gas hydrocarbon fuel. The authors indicate some eff ective ways to reduce the toxicity of exhaust gases. The engine power should be adjusted by the simultaneous supply of fuel, gas and throttling the air charge in the intake manifold. This method enriches the fi rst combusting portions to reduce nitrogen oxides and maintains the depletion of the main charge within the fl ammability limits of the gas-air charge to reduce carbon monoxide and hydrocarbons. The authors found that when the engine operates in a gas-diesel cycle mode, the power change provides a decrease in nitrogen oxide emissions of gas-diesel fuel only due to gas supply in almost the entire load range as compared to the pure diesel. At high loads (more than 80%) stable engine operation is ensured up to 90% of diesel fuel replaced by gas. Even at 10% of diesel fuel used the concentration of nitrogen oxides decreases by at least 15…20% as compared with a diesel engine in the entire load range. However, there is an increased emission of hydrocarbons and carbon monoxide in the exhaust gases. Further experimental studies have shown that optimization of the gas diesel regulation can reduce the mass emission of nitrogen oxides contained in exhaust gases in 2…3 times and greatly reduce the emission of incomplete combustion products – carbon monoxide and hydrocarbons.

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