Noise and disturbance caused by vehicles crossing cattle grids: comparison of installations

Watts, Gregory R., Pheasant, Robert J., Khan, Amir

17 September 2016

Yes / Cattle grids are used on roads and tracks to prevent grazing animals from leaving an open space without fencing onto a more controlled area where access to the road from surrounded land is more limited. They are widely used in the UK at the entrances to common and moorland areas where animals are free to roam, but also on private drive entrances. Typically, they consist of a series of metal bars across the road that are spaced so that an animal’s legs would fall through the gaps if it attempted to cross. Below the grid is a shallow pit that is intended to further deter livestock from using that particular crossing point. The sound produced as vehicles cross these devices is a characteristic low frequency “brrrr” where the dominant frequencies relates to the bar passage frequency under the tyres. The sound can be disturbing to riders and their horses and walkers and residents living close by as evidenced by press reports and the need to consider noise aspects in planning for new installations. For this reason and due to the lack of available information on the size and nature of the problem measurements and recordings have been made at a number of sites in Yorkshire in the UK. In addition, questionnaire surveys of residents living close by and façade measurements have also been used to gauge impact. Results show that there is a wide variation in the maximum noise level produced by cattle grids of apparently similar design. This can be related to impact noise produced by the movement of all or part of the grid as the frame comes under impulsive loading as the vehicle crosses. It was further established that some residents living close to the cattle grids were disturbed by the noise, and in some cases vibration, and wanted them removed or suitably modified. / The work was funded by the Bradford Centre for Sustainable Environments, University of Bradford.

Investigation of noise and disturbance from vehicles crossing cattle grids and examination of options for mitigation

Watts, Gregory R., Pheasant, Robert J., Khan, Amir

16 September 2016

Yes / Cattle grids are used on roads and tracks to prevent grazing animals from leaving an open space without fencing onto a more controlled area where access to the road from surrounded land is more limited. They are widely used in the UK at the entrances to common and moorland areas where animals are free to roam, but also on private drive entrances. Typically, they consist of a series of metal bars across the road that are spaced so that an animal’s legs would fall through the gaps if it attempted to cross. Below the grid is a shallow pit that is intended to further deter livestock from using that particular crossing point. The sound produced as vehicles cross these devices is a characteristic low frequency “brrrr” where the dominant frequencies relates to the bar passage frequency under the tyres. The sound can be disturbing to riders and their horses and walkers and residents living close by as evidenced by press reports and the need to consider noise aspects in planning for new installations. For this reason and due to the lack of available information on the size and nature of the problem measurements and recordings have been made at a number of sites in Yorkshire in the UK. In addition, questionnaire surveys of residents living close by and façade measurements have also been used to gauge impact. Results show that there is a wide variation in the maximum noise level produced by cattle grids of apparently similar design. This can be related to impact noise produced by the movement of all or part of the grid as the frame comes under impulsive loading as the vehicle crosses. It was further established that some residents living close to the cattle grids were disturbed by the noise, and in some cases vibration, and wanted them removed or suitably modified. Means of reducing the problem are proposed.

The influence of tyre air cavities on vehicle acoustics

Torra i Fernàndez, Èric

January 2006

The tonal character of the low frequency internal noise in cars is often due to energy transmission through the tyre at the first few eigenfrequencies of the air cavity of the tyre. The first acoustic mode in the air cavity of a typical stationary car tyre is approximately 224 Hz. At this frequency the tyre is comparatively stiff resulting in a high transmission of energy from the road wheel contact to the car body itself. In order to investigate possible means of reducing this effect, the acoustic field inside a tyre is modelled. Theoretically it is found that the pressure inside a tyre and the energy transmission through the tyre to the wheel axle and the car body can be reduced by adding a sound absorbing material inside the tyre. This was confirmed by measurements on stationary as well as rotating tyres with and without added sound absorption. For a rotating tyre there is a split of the natural frequency depending on the rotational speed of the tyre. Measurements in a standard passenger car reveal that the noise level inside the car is rather high in a fairly wide frequency range around 224 Hz at normal velocities. This tonal noise can be reduced by adding sound absorption inside a tyre. Models for the prediction and the reduction of the tonal noise are presented. Measured and predicted results are compared and the agreement is found to be good. It is found that the tonal noise can be reduced by up to 9 dB. The effects of the air cavity resonances on the external noise have also been studied. It is estimated that external tyre noise can be reduced 1 dB by adding a sound absorbing material inside tyres. For a car travelling on a road a strong acoustic field is induced between the floor of the car and the road. The impact of this acoustic field can be reduced by mounting a sound absorbing material underneath the car. It is estimated that the A-weighted sound pressure level close to a running car could be reduced by 3 dB by adding this type sound absorption. It is found that aluminium foam could be a suitable sound absorbing material which could be mounted inside tyres and underneath cars. The acoustic and dynamic properties of various types of aluminium foams are discussed. In particular measurement techniques for determining sound absorption at grazing incidence are investigated. / QC 20100923

acoustics

tyre-road noise

tyre

air cavity resonances

interior noise

aluminium foams

Acoustics

Akustik

Evaluation of a new measurement method for tire/road noise

Slama, Jens

January 2012

Noise is a growing health concern as urban residents increases rapidly and more reports of noise causing sleep disturbances and increasing the risk of cardiovascular health problems are published. Noise has a negative influence on life quality. This life quality deficiency also shows in housing and office pricing in noisy environments. Housing and office prices are often higher in quiet areas than in noisy areas. Therefore noise is both a health issue and has big economic consequences. The biggest contributor to the road traffic noise is the tire/road noise at speeds above 50km/h. Therefore this is an important aspect to monitor and the problem has to be alleviated. In this thesis the client Ramböll has gotten many contracts concerning the state of the roads from governmental institutes. As a part of the evaluation of the roads they want to implement the noise emission as a factor. This gives the government institutions another parameter that helps in the decision of which part of the road network to refurbish first. In the effort to decide what is best way for Ramböll to measure noise a new setup for measuring noise has been developed. The most used ways of measuring tire/road-noise is the close proximity (CPX) -method and the statistical pass-by (SPB) -method. These methods both give accurate results but they have drawbacks. The SPB measurements are time consuming and only give noise levels for a small patch of a road. CPX measurement on the other hand require costly and time consuming development of a measurement trailer. Certifying the trailer and maintenance work of it is expensive. So this report shows a first step in how to build a measurement setup and what aspects were taken into consideration when it was designed. A close proximity measurement setup in the form of a tube with a microphone placed inside it was built and installed underneath the measurement vehicle. The  measurement setup designed and built was named the Tube-CPX measurement setup in this report. The measurements performed with this Tube-CPX measurement setup show promising results. Similarities between CPX measurement setup and the Tube-CPX setup have been found both in the frequency spectrum as well as in the relation with pass-by measurement noise levels. The repeatability of the Tube-CPX measurements is even better than the compared CPX measurements. Although results are promising more work is required before the Tube-CPX setup can be seen in operation at Ramböll. In particular the question which source causes which sound pressure is required to understand the measured levels. And also more controlled pass-by measurements have to be performed to determine the relation of the absolute values measured at the tire/road impact spot to the values that are most interesting, namely the sound pressure levels that the human at the side of the road depicts.

tire/road measurement method

CPX

road noise

urban area

SPB

Fluid Mechanics and Acoustics

Strömningsmekanik och akustik

Subband Adaptive Filtering for Active Broadband Noise Control with Application to Road Noise inside Vehicles

Long, Guo

22 October 2020

No description available.

Mechanical Engineering

Active noise control

Broadband noise

Subband adaptive filter

Road noise

Robust algorithm

Genetic algorithm

Active Control of Impact Acoustic Noise

Sun, Guohua

January 2013

No description available.

Mechanics

Active noise control

Impulsive or impact noise

Road noise

FXLMS algorithm

Structural acoustics

Adaptive filtering

Design and Analysis of Efficient Adaptive Algorithms for Active Control of Vehicle Interior Sound

Feng, Tao

26 May 2017

No description available.

Mechanical Engineering

Active noise control

road noise

powertrain noise

Adaptive control

FXLMS algorithm

Active Control of Vehicle Powertrain and Road Noise

Duan, Jie

23 September 2011

No description available.

Mechanical Engineering

Active noise control

Powertrain noise

Adaptive control

FXLMS

Road noise

Roles of Rear Subframe Dynamics and Right-Left Spindle Phasing In the Variability of Structure-Borne Road Noise and Vibration

Rengarajan, Revathi, Rengarajan

28 December 2016

No description available.

Mechanical Engineering

Experimental investigation of air related tyre/road noise mechanisms

Eisenblaetter, Jochen

January 2008

Exterior vehicle noise has a very big impact when it comes to environmental noise pollution. Due to the decrease of the other noise sources of a passenger car, like power-train and air turbulence noise in the last decade, the tyre/road noise has become a more important part in the overall noise generation of a vehicle nowadays. It is considered as the main noise source in nearly all driving conditions, especially with increasing vehicle speed. The easiest idea to tackle this pollution is to introduce rules like speed-limits to control the noise at a certain area or time. More interesting, however, is to approach the problem of unwanted noise directly at the source. This Thesis, carried out at Loughborough University, aims to give a better understanding about the basic noise generation mechanisms at the tyre/road interface. Especially, the air related mechanisms of closed cavities are analysed. With the usage of a solid rubber tyre, unique measurements have been carried out and the results are compared to the theories already existing in the literature. These measurements reveal some of the strengths and weaknesses of the current understanding of air related noise generation.

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