Heating system for measuring tanks of the cementing unit from the exhaust system of the base chassis
Autor: | Valentin Stepanov, Sergey Kireev, Andrey Efimov, Marina Korchagina |
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Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: |
lcsh:GE1-350
Chassis Numerical analysis 0211 other engineering and technologies Base (geometry) Mechanical engineering 02 engineering and technology Combustion Measuring cup Power (physics) 020303 mechanical engineering & transports Heating system 0203 mechanical engineering Internal combustion engine Environmental science 021108 energy lcsh:Environmental sciences |
Zdroj: | E3S Web of Conferences, Vol 164, p 03015 (2020) |
ISSN: | 2267-1242 |
Popis: | The purpose of this article is to increase the efficiency of the design process and reduce the cost of field experiments by using numerical analysis methods of the dimensional capacity heating efficiency of the internal combustion engine exhaust system. To solve the problem, a non-stationary nonlinear solver of gas dynamic processes (Siemens STAR-CCM+) was used, which allows to evaluate the correctness of the problem statement, significantly reducing the cost of full-scale tests. The paper considers the heating of a dimensional two-section tank in the layout of the cementing unit on the chassis with a triplex high-pressure pump and a drive from the power take-off box on the gear box of the chassis engine. The exhaust pipe structurally passes inside the measuring tank. According to the research results obtained graphic dependences of temperature change of liquid measuring cups to control points, the distribution of temperature field of the liquid in a volumetric tank, distribution of the temperature field of the surrounding air, stream lines and velocity field of the ambient air and the exhaust gases of internal combustion engines. The results of the calculations clearly show that the application of the method of heating the measuring capacity by entering the exhaust pipe directly into the liquid can be considered effective. |
Databáze: | OpenAIRE |
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