Air-Borne Particle Size Distribution of Wood Dust Emitted during Small Scale Forestry Operations-Reference-Cited by-同舟云学术

Air-Borne Particle Size Distribution of Wood Dust Emitted during Small Scale Forestry Operations

Published:2023-05-09 Issue: Volume:19 Page:60-67
ISSN:1927-5129
Container-title:Journal of Basic & Applied Sciences
language:
Short-container-title:J. Basic Appl. Sci.

Author:

Biocca Marcello,Pochi Daniele,Gallo Pietro,Fanigliulo Roberto

Abstract

Practices such as tree felling, pruning, logging and chipping wood can produce significant amount of wood particles that can be inhaled by agricultural and forestry workers, triggering an important risk to the health of workers. Especially finest fractions of dust, less than 4 µm in diameter (the respirable fraction) may cause respiratory and dermal diseases, until to the risk of developing nose and sinus adenocancer. The aim of this work was to assess the particle size distribution of wood dust produced during chainsaw operations. In two separate trials (July and December), wood logs of three different species (Eucalyptus sp., Pinus radiata and Quercus cerris) were employed in cutting tests. Two chainsaws, one electric powered by batteries and one endothermic, were employed. To characterize the particle size distribution, samplings were carried out with a dust particle counter placed in the area surrounding the tests’ site. Results showed that the dust was characterized by a major fraction of fine particles around 0.3 µm (72% of the particles from 0.3 to 10 µm). The chainsaw with endothermic engine produced more fine dust of the electric one. Obtained amounts of inhalable wood dust were very variable in values, however attention should be paid to the exposure to wood dust considering potential risks, especially in case of long times of exposure.

Publisher

Set Publishers

Subject

Automotive Engineering

Reference23 articles.

1. Smith LJ, Lee K. Soil as a source of dust and implications for human health. Advances in Agronomy 2003; 80: 1-32. https://doi.org/10.1016/S0065-2113(03)80001-9

2. Baker JB, Southard RJ, Mitchell JP. Agricultural Dust Production in Standard and Conservation Tillage Systems in the San Joaquin Valley. Journal of Environment Quality 2005; 34(4): 1260. https://doi.org/10.2134/jeq2003.0348

3. Fedrizzi M, Pagano M, Perrino C, Cecchini M, Guerrieri M, Gallo P, Biocca M. Inhalable dust emission in hazelnuts mechanical harvesting (Corylus avellana L.): test of a low impact suction-type pneumatic collector. Proceedings: International Conference RAGUSA SHWA 2012, September 3-6, 2012, Ragusa – Italy “Safety Health and Welfare in Agriculture and in Agro-food Systems” 2012; CD-ROM / ISBN 978-88-905473-4-8: 375-380.

4. Watson JG, Chow JC, Pace TG. Fugitive dust emissions. In Air Pollution Engineering Manual, Second Edition, 2nd; Davis WT, Ed.; John Wiley & Sons, Inc.: New York, 2000; pp. 117-135.

5. Pochi D, Biocca M, Fanigliulo R, Gallo P, Pulcini P. Sowing of seed dressed with thiacloprid using a pneumatic drill modified for reducing abrasion dust emissions. Bulletin of Insectology 2015; 68(2): 273-279.