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Articles containing the keyword 'noise'

Category : Article

article id 5029, category Article
Seppo Kellomäki. (1979). Metsän tarjoamat fyysiset hyödyt yhdyskuntasuunnittelussa. Silva Fennica vol. 13 no. 2 article id 5029. https://doi.org/10.14214/sf.a14885
English title: Benefits of forests in urban environment .
Original keywords: kuusi; kaupunkimetsät; maankäyttö; seminaari; meluntorjunta; saasteiden torjunta; metsien ympäristövaikutukset
English keywords: Norway spruce; Picea abies; noise abatement; urban forests; land uses; seminar; MAB; air impurities
Abstract | View details | Full text in PDF | Author Info

The potentials of forests in abatement of urban noise and air impurities are discussed based on literature and calculations. Excess attenuation of 6–7 dB seems to be possible in noise abatement applying Norway spruce (Picea abies (L.) H. Karst.) plantations. The potential in dust sedimentation is of 10,000–20,000 kg/ha/year and absorbtion to 7 kg/ha/yr. Forests seem also have considerable potential for control of climatic conditions in urban areas. Management of forests in urban environment is discussed. 

This paper was presented in the ‘Man and the Biosphere’ programme Project 2 seminar held on August 24–25 1978 in Hyytiälä research station of University of Helsinki. 

The PDF includes a summary in English. 

  • Kellomäki, E-mail: sk@mm.unknown (email)
article id 4949, category Article
Seppo Kellomäki, Antti Haapanen, Hellevi Salonen. (1976). Tree stands in urban noise abatement. Silva Fennica vol. 10 no. 3 article id 4949. https://doi.org/10.14214/sf.a14795
Keywords: stand characteristics; noise abatement; urban forests
Abstract | View details | Full text in PDF | Author Info

The aim of the study was to determine which characteristics of tree stands could be used in urban noise control and to develop guidelines for practical urban forestry. The attenuation of artificially produced noise was measured in various types of stands. The effect of tree stands on noise attenuation has been analysed using a model based on the physics of sound propagation.

The results show that the excess noise attenuation caused by trees can be in good situations 60% measured in energy units, compared with the attenuation caused by geometric spreading. This is 5–8 dB. The total amount of needles, leaves and branches of a stand proved to be the most important factors in noise attenuation. However, the density and height of a stand had rather high value in predicting the behaviour of noise in tree stands. Based on multiple regression between noise attenuation and tree species composition, density and height of a stand it was developed the nomograms with which the noise level at a certain point can be predicted when the tree stand characteristics, the distance and the noise level of the noise source are known and on the opposite way.

The PDF includes a summary in Finnish.

  • Kellomäki, E-mail: sk@mm.unknown (email)
  • Haapanen, E-mail: ah@mm.unknown
  • Salonen, E-mail: hs@mm.unknown

Category : Research article

article id 984, category Research article
Christian Rottensteiner, Petros Tsioras, Heinz Neumayer, Karl Stampfer. (2013). Vibration and noise assessment of tractor-trailer and truck-mounted chippers. Silva Fennica vol. 47 no. 5 article id 984. https://doi.org/10.14214/sf.984
Keywords: chippers; noise; whole-body vibration; exposure limit values
Highlights: Truck-mounted chippers were associated with higher vibration values, while tractor-trailer chippers had higher noise level; Chipping hardwood produced higher vibration magnitudes than softwood; Vibration and noise values in most cases did not exceed the exposure limit values set by the European Union.
Abstract | Full text in HTML | Full text in PDF | Author Info
During chipping, machine operators are exposed to whole-body vibration and noise bearing a risk to health. Vibration on the operator’s seat and noise inside the chipper cab was measured and analyzed. The factorial design considered two setup variants (tractor-trailer and truck-mounted) of two chipper models from different manufacturers during chipping of softwood and hardwood tree species. Furthermore, exposure to noise was measured during chipping of hardwood. Vibration and noise during chipping, driving between wood piles, and operational delays were measured separately. The results associated truck-mounted chippers with higher vibration values and tractor-trailer chippers with higher noise levels. The highest vibration levels were recorded while driving on the forest road from one log pile to another and the second highest during chipping. On the contrary, the lowest vibration levels were measured during operational delays with the chipper in idling condition. Chipping hardwood produced higher vibration magnitudes than softwood. Exposure to noise was significantly higher during chipping compared to driving and operational delays. Vibration and noise data were combined with time studies data, for the calculation of eight-hour energy equivalent total values, both for vibration and noise. In all cases, the exposure limit values set by the European Union were not exceeded, with the exception of truck-mounted chippers, which are likely to exceed the exposure action value for vibration.
  • Rottensteiner, University of Natural Resources and Life Sciences Vienna, Institute of Forest Engineering, Peter Jordan Straße 82, 1190 Wien, Austria E-mail: christian.rottensteiner@boku.ac.at (email)
  • Tsioras, Aristotle University, P.O. Box 227, GR-541 24 Thessaloniki, Greece E-mail: ptsioras@for.auth.gr
  • Neumayer, Specialist in Occupational Medicine, Wörndlestraße 10, 6020 Innsbruck, Austria E-mail: heinz.neumayer@die-arbeitsmedizin.at
  • Stampfer, University of Natural Resources and Life Sciences Vienna, Institute of Forest Engineering, Peter Jordan Straße 82, 1190 Wien, Austria E-mail: karl.stampfer@boku.ac.at

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