The experimental study of shallow flows of liquid on the airport runways and automobile roads

Hydroplaning or aquaplaning is associated with the complete loss of the grip of a tyre because of the presence of a water film between the tyres of a moving vehicle (an automobile, an airplane, etc.) and the road surface. In this case, a vehicle becomes uncontrollable. Hydroplaning (aquaplaning) occ...

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Main Authors: Andrey Beljatynskij, Olegas Prentkovskis, Julij Krivenko
Format: Article
Language:English
Published: Vilnius Gediminas Technical University 2010-12-01
Series:Transport
Subjects:
Online Access:http://www.transport.vgtu.lt/en/lt/3/NR/PUB/30407
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spelling doaj-dfd6337e3c3c4ec285555b18ee47903e2021-07-02T08:15:26ZengVilnius Gediminas Technical UniversityTransport1648-41421648-34802010-12-01254394402The experimental study of shallow flows of liquid on the airport runways and automobile roadsAndrey BeljatynskijOlegas PrentkovskisJulij KrivenkoHydroplaning or aquaplaning is associated with the complete loss of the grip of a tyre because of the presence of a water film between the tyres of a moving vehicle (an automobile, an airplane, etc.) and the road surface. In this case, a vehicle becomes uncontrollable. Hydroplaning (aquaplaning) occurs when the speed of a vehicle reaches the critical value, when the wheel does not have time enough for water compulsion, which leads to the formation of a permanent water film between it and the road surface. The higher the depth of the water on the road surface under the tyre, the higher the risk of hydroplaning (aquaplaning). In other words, hydroplaning (aquaplaning) is the floating of the wheel on the water wedge. In physical terms, it is the loss of the ability of a tyre of the effective water compulsion from the contact area with the road. As a result, a water film of several millimeters is formed under the wheel, and a vehicle actually floats up. The article presents the results obtained in the experimental study of the flows of liquid, whose depth is comparable with that of depressions and cambers of rough roadway pavement. It is stated that the relationships used for calculating surface flows should be corrected for shallow flows, taking into account the actual roughness of road covering. Shallow flows are mostly laminar. The transition Reynolds numbers are about 3000. The relationships used for calculating shallow flows may be determined more accurately by test pouring of water on the surface of roadway pavement, with further generalization of the data. The experimental research performed is closely related to the study of the problems of aquaplaning and traffic safety of various means of transport.http://www.transport.vgtu.lt/en/lt/3/NR/PUB/30407traffic safetyroad-holding capacity of a tyrehydroplaningaquaplaningshallow liquid flowdepth of a water filmmode of flowslopesurface roughness
collection DOAJ
language English
format Article
sources DOAJ
author Andrey Beljatynskij
Olegas Prentkovskis
Julij Krivenko
spellingShingle Andrey Beljatynskij
Olegas Prentkovskis
Julij Krivenko
The experimental study of shallow flows of liquid on the airport runways and automobile roads
Transport
traffic safety
road-holding capacity of a tyre
hydroplaning
aquaplaning
shallow liquid flow
depth of a water film
mode of flow
slope
surface roughness
author_facet Andrey Beljatynskij
Olegas Prentkovskis
Julij Krivenko
author_sort Andrey Beljatynskij
title The experimental study of shallow flows of liquid on the airport runways and automobile roads
title_short The experimental study of shallow flows of liquid on the airport runways and automobile roads
title_full The experimental study of shallow flows of liquid on the airport runways and automobile roads
title_fullStr The experimental study of shallow flows of liquid on the airport runways and automobile roads
title_full_unstemmed The experimental study of shallow flows of liquid on the airport runways and automobile roads
title_sort experimental study of shallow flows of liquid on the airport runways and automobile roads
publisher Vilnius Gediminas Technical University
series Transport
issn 1648-4142
1648-3480
publishDate 2010-12-01
description Hydroplaning or aquaplaning is associated with the complete loss of the grip of a tyre because of the presence of a water film between the tyres of a moving vehicle (an automobile, an airplane, etc.) and the road surface. In this case, a vehicle becomes uncontrollable. Hydroplaning (aquaplaning) occurs when the speed of a vehicle reaches the critical value, when the wheel does not have time enough for water compulsion, which leads to the formation of a permanent water film between it and the road surface. The higher the depth of the water on the road surface under the tyre, the higher the risk of hydroplaning (aquaplaning). In other words, hydroplaning (aquaplaning) is the floating of the wheel on the water wedge. In physical terms, it is the loss of the ability of a tyre of the effective water compulsion from the contact area with the road. As a result, a water film of several millimeters is formed under the wheel, and a vehicle actually floats up. The article presents the results obtained in the experimental study of the flows of liquid, whose depth is comparable with that of depressions and cambers of rough roadway pavement. It is stated that the relationships used for calculating surface flows should be corrected for shallow flows, taking into account the actual roughness of road covering. Shallow flows are mostly laminar. The transition Reynolds numbers are about 3000. The relationships used for calculating shallow flows may be determined more accurately by test pouring of water on the surface of roadway pavement, with further generalization of the data. The experimental research performed is closely related to the study of the problems of aquaplaning and traffic safety of various means of transport.
topic traffic safety
road-holding capacity of a tyre
hydroplaning
aquaplaning
shallow liquid flow
depth of a water film
mode of flow
slope
surface roughness
url http://www.transport.vgtu.lt/en/lt/3/NR/PUB/30407
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