The computer program for determining the heat transfer coefficient as a tool for saving fuel and energy resources

Голубин, А. А.; Науменко, С. Н.

doi:10.21780/2223-9731-2018-77-1-44-48

Vestnik Naučno-issledovatelʹskogo instituta železnodorožnogo tr

2018

DOI: 10.21780/2223-9731-2018-77-1-44-48

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The computer program for determining the heat transfer coefficient as a tool for saving fuel and energy resources

А. А. Голубин¹,

С. Н. Науменко

Abstract: The article shows the structure of the computer program “Express estimation system of the heat transfer coefficient for the vehicle”. The performance sequence of the automated calculation for determining the heat transfer coefficient ( K ) is described on the example of the refrigerator car body with the use of the data obtained during the accelerated thermal engineering tests. The advantages of the announced program are shown, consisting in a substantial reduction in the duration of testing, excluding the inf… Show more

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Effect of measurement errors in determining the heat transfer coefficient of the enclosing structures of an isothermal car

Голубин¹,

Белова

Науменко

2019

Vestnik Naučno-issledovatelʹskogo instituta železnodorožnogo tr

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When conducting thermal tests, the purpose of which is to determine the heat transfer coefficient of the body of an isothermal car K, the study of measurement errors affecting the accuracy of the obtained value plays an important role. The results of such experiments may contain various measurement errors that can introduce significant deviations into the resulting values of the desired coefficient. Obtaining accurate results when conducting this kind of experiments is impossible without a preliminary study of the causes that affect the final result. The article presents the types of measurement errors that affect the accuracy of determining the heat transfer coefficient of the body of an isothermal car when conducting thermal tests. It was noted that the magnitude of labor costs and energy losses during the further operation of this body significantly depends on the accuracy of the value of this coefficient. It was emphasized that one of the main types of random errors arising from measurements and compliance with the established procedure for conducting typical thermal tests is a voltage drop (“slump”) in the electrical network, leading to significant errors in the calculations of the heat transfer coefficient of the isothermal car body. The values of this coefficient are presented, which were obtained as a result of heat engineering tests performed using the equilibrium mode method and the express method. It is shown that the use of the express method to determine the heat transfer coefficient of the bodies of isothermal cars reduces the risk of random errors due to the minimum experiment duration (from 5.5 h), allows to obtain exact values of the desired coefficient (with an error not higher than 3 % of its value of long-term equilibrium method) and use this data for practical purposes.

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Effect of measurement errors in determining the heat transfer coefficient of the enclosing structures of an isothermal car

Голубин¹,

Белова

Науменко

2019

Vestnik Naučno-issledovatelʹskogo instituta železnodorožnogo tr

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Methodical issues of determination of the average heat transfer coefficient of the passenger car body

Самошкин

Мейстер

Юхневский

2020

Vestnik Naučno-issledovatelʹskogo instituta železnodorožnogo tr

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The article examines methodical issues of selection of heat insulation materials, their properties affecting energy efficiency, as well as methodical issues of experimental determination of heat insulation properties of the car body. This issue has become recently relevant due to the increased requirements to saving of the fuel and energy resources and to improvement of the passenger travel comfort. Domestic and international regulatory documents are analyzed from this perspective.Contemporary materials used for heat insulation of the car body, methods of determination of the average heat transfer coefficient and requirements to such materials are examined. Review of the test results of the most widely spread passenger cars; the issue is arisen regarding necessity of putting the obtained results of experimental research in compliance with the actual operating conditions with regard to the changes of temperature, air humidity and car movement speed.The article examines in details disadvantages of the currently used standardized method of determination of the average heat transfer coefficient. The issues affecting accuracy of determination of this parameter are underlined, which occur in the experimental research and in processing of the obtained results. Practical use of obtained results for designing of new rolling stock is examined.Ultimately, the authors conclude that the valid domestic standardized method of determination of the average heat transfer coefficient does not take into account the number of important conditions. Examination of effect of these conditions on the results of experimental research allows the authors to make conclusion regarding necessity of review of methodical and regulatory and technical documentation for the test methods.

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The computer program for determining the heat transfer coefficient as a tool for saving fuel and energy resources

Cited by 2 publications

References 1 publication

Effect of measurement errors in determining the heat transfer coefficient of the enclosing structures of an isothermal car

Effect of measurement errors in determining the heat transfer coefficient of the enclosing structures of an isothermal car

Methodical issues of determination of the average heat transfer coefficient of the passenger car body

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