Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor

Fabiano  Battermarco da Silva Martins; Gabriel  Araújo e Silva Ferraz; João Paulo  Barreto Cunha; Diego Bedin Marin; Luana  Mendes do Santos; Lucas  Santos Santana

doi:10.15446/rfnam.v75n2.96242

Published

2022-05-01

Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor

DOI:

https://doi.org/10.15446/rfnam.v75n2.96242

Keywords:

Acoustic comfort , Occupational health , Spatial variability (en)
Comodidad acústica , Salud ocupacional , Variabilidad espacial (es)

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Authors

Fabiano Battermarco da Silva Martins Universidade Federal Rural do Rio de Janeiro - UFRRJ, Brazil https://orcid.org/0000-0002-0623-6941
Gabriel Araújo e Silva Ferraz Universidade Federal de Lavras, Brazil https://orcid.org/0000-0001-6403-2210
João Paulo Barreto Cunha Universidade Federal Rural do Rio de Janeiro - UFRRJ, Brazil https://orcid.org/0000-0002-8817-6128
Diego Bedin Marin Universidade Federal de Lavras, Brazil https://orcid.org/0000-0001-7526-0825
Luana Mendes do Santos Universidade Federal de Lavras, Brazil https://orcid.org/0000-0001-8406-2820
Lucas Santos Santana Universidade Federal de Lavras, Brazil https://orcid.org/0000-0001-7489-3225

Abstract (en)
Abstract (es)

Agricultural development requires greater adoption of machinery by producers to avoid damage to the worker’s health due to excessive noise. In this scenario, this study aimed to analyze the noise magnitude emitted by a micro-tractor using geostatistics and Statistical Process Control (SPC) in mapping spatial variability to identify healthy zones for workers. The study was carried out at the Federal University of Lavras (UFLA), where noise levels were collected at points distributed in a regular 2.0×2.0 m sample grid around the machine. The spatial dependence of noise was analyzed by adjusting the wave-type semivariogram and interpolating by ordinary kriging and the SPC through individual control charts. It was possible to observe alarming noise values above 85 dB(A) in a radius of up to 6 m around the tractor in operation. The maximum value of 91 dB(A) was obtained from the operator’s seat, thus allowing maximum daily exposure of 3.5 h. In addition, it was observed that people located at distances greater than 4 m from the micro-tractor do not need to wear personal protective equipment for an exposure of 8 h of work.

El desarrollo agrícola exige una mayor adopción de maquinaria por parte de los productores para evitar el daño a la salud de los trabajadores por el exceso de ruido. En este escenario, este estudio presenta análisis utilizando geoestadística y Control Estadístico de Procesos (SPC) en el mapeo de la variabilidad espacial de la magnitud del ruido emitido por un microtractor para identificar zonas saludables para los trabajadores. El estudio se llevó a cabo en la Universidad Federal de Lavras (UFLA), donde los niveles de ruido se recolectaron en puntos distribuidos en una cuadrícula de muestra regular de 2,0×2,0 m alrededor de la máquina. La dependencia espacial del ruido se analizó ajustando el semivariograma de tipo onda e interpolando por kriging ordinario y el SPC a través de cartas de control individuales. Fue posible observar valores de ruido superiores a 85 dB(A) en un radio de hasta 6 m alrededor del tractor en funcionamiento. El valor máximo de 91 dB(A) se obtuvo desde el asiento del operador, permitiendo así una exposición diaria máxima de 3,5 h. Además, se observó que las personas ubicadas a distancias mayores a 4 m del microtractor no necesitan usar equipo de protección personal para una exposición de 8 h de trabajo.

References

ABNT. 2021. Norma Regulamentadora Nº 15 (NR 15): Atividades e Operações Insalubres. Ministry of Labor and Pensions, Goverment of Brazil.

ABNT. 2020. Norma Regulamentadora Nº 31 (NR 31): Segurança e Saúde no Trabalho na Agricultura, Pecuária, Silvicultura, Exploração Florestal e Aquicultura. Ministry of Labor and Pensions, Goverment of Brazil.

Andriotti JLS. 2004. Fundamentos da estatística e geoestatística. Unisinos, São Leopoldo. 165 p.

Arcoverde SNS, Cortez JW, Pitanga Júnior CDO and Nagahama HJ. 2011. Nível de ruído emitido por conjuntos mecanizados em função da velocidade e da condição do solo. Revista Brasileira de Ciências Agrárias 6(3): 514-520. http://doi.org/10.5039/agraria.v6i3a1089

Bistafa SR. 2018. Acústica aplicada ao controle do ruído, Third edition. Edgard Blucher, São Paulo. 368 p.

Carvalho JRP, Vieira SR and Vendrusculo LG. 2004. Uso da técnica de mínimos quadrados ponderados para ajuste de modelos de semivariograma. Embrapa Informática Agropecuária, Campinas. 15 p.

Chilès JP and Delfiner P. 2012. Geostatistics: modeling spatial uncertainty. Second edition. Wiley, New Jersey. 734 p.

Civardi LT. 2017. Método de implementação do Controle Estatístico do Processo (CEP): um estudo de caso em uma indústria alimentícia do Vale do Taquari/RS sob a ótica da metodologia dmaic. (Undergraduate Final Work). Universidade do Vale do Taquari, Lajeado. 141 p.

Ferraz GAS, Silva FC, Nunes RA and Ponciano PF. 2013. Spatial variability of noise generated by a portable harvester in a coffee field. Coffee Science 8(3): 276-283.

Fernandes M and Morata TC. 2002. Auditory and extraauditory effects of occupational exposure to noise and vibration. Resvita Brasilera de Otorrinolaringologia 68(5): 705-713. https://doi.org/10.1590/S0034-72992002000500017

Gomes BR, Takara JG, Missio C, Quequeto WD, Melo DM and Cortez JW. 2013. Avaliação de ruído em tratores. Revista Cultivar Máquinas 1: 30-32.

Gonçalves LM, Ferraz GAS, Oliveira MS, Barbosa BDS, Silva JS and Ferraz PFP. 2019. Characterization of noise emitted by a power tiller through geostatistics. Revista Brasileira de Engenharia Agrícola e Ambiental 23(3): 223-228. https://doi.org/10.1590/1807-1929/agriambi.v23n3p223-228

Júnior PSL, Cortez JW, Nagahama HJ and Arcoverde SNS. 2014. Ruído emitido por conjunto trator-carreta cafeeira em função da rotação, do raio de afastamento, da velocidade e do tipo de pista. Agrarian 7: 581-582.

Márquez L. 2012. Agricultural Tractors: Tecnología y Utilización. B&H Publisher, Madrid. 844 p. Missio C, Cortez JW, Motomiya AVDA and Quequeto WD. 2015. Variabilidade espacial do nível de ruído externo em rotações de trabalho. Revista Energia na Agricultura 30: 104-108. https://doi.org/10.17224/EnergAgric.2015v30n2p104-108

Mota VC. 2008. Geostatistical methodology to characterize the temporal variability of climatic elements in Juiz de Fora – MG. (Master’s thesis). Universidade Federal de Lavras, Lavras. 121 p.

Nomelini QSS, Ferreira EB and Oliveira MS. 2009. Estudos dos padrões de não aleatoriedade dos gráficos de controle de Shewhart: um enfoque probabilístico. Gestão & Produção 16(3): 414-421. https://doi.org/10.1590/S0104-530X2009000300008

Pimenta Junior CG, Delmond JG, Cunha JPB, Couto RF, Leonídio DM and Reis EFD. 2012. Análise espacial do nível de ruído emitido por trator agrícola. Revista Brasileira de Ciências Agrárias 7(3). 514-520. http://doi.org/10.5039/agraria.v7i3a1228

Ribeiro Júnior PJ and Diggle PJ. 2001. GeoR: a package for geostatistical analysis. R-News 1: 4-18. Szekut FD, Azevedo CA, Boas MA and Zuculotto T. 2018. Hydraulic per formance of drippers with different waters and lateral line slopes. Revista Brasileira de Engenharia Agrícola e Ambiental, 22, 813-818.

Silva MP. 2019. Ruído emitido por trator de rabiça em operação de preparo de solo. (Master’s thesis). Universidade Federal do Ceará. Ceará. 50 p.

Silva RPD, Fontana G, Lopes A and Furlani CE. 2004. Avaliação do nível de ruído em colhedoras combinadas. Engenharia Agrícola, 24(2), 381-387.

Sindelar FCW. Conto SM and Ahlert L. 2014. Teoria e prática em estatística para cursos de graduação. Univates, Lajeado. 200 p.

Spadim ER, Marascal I, Batistuzzil MM, Denadail MS and Guerra SPS. 2015. Dependência espacial do ruído de tratores agrícolas em diferentes rotações do motor. Revista de Agricultura Neotropical 2(3): 29-33.

Vieira SRJL, Hatfield J, Nielsen D and Biggar J. 1983. Geostatistical theory and application to variability of some agronomical properties. Hilgardia 51: 1-75.

Werkema MCC. 1995. Ferramentas estatísticas básicas para o gerenciamento de processos. QFCO, Belo Horizonte. 290 p.

How to Cite

APA

Battermarco da Silva Martins, F. ., Araújo e Silva Ferraz, G. ., Barreto Cunha, J. P. ., Bedin Marin, D., Mendes do Santos, L. & Santos Santana, L. . (2022). Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor. Revista Facultad Nacional de Agronomía Medellín, 75(2), 9941–9949. https://doi.org/10.15446/rfnam.v75n2.96242

ACM

[1]

Battermarco da Silva Martins, F. , Araújo e Silva Ferraz, G. , Barreto Cunha, J.P. , Bedin Marin, D., Mendes do Santos, L. and Santos Santana, L. 2022. Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor. Revista Facultad Nacional de Agronomía Medellín. 75, 2 (May 2022), 9941–9949. DOI:https://doi.org/10.15446/rfnam.v75n2.96242.

ACS

(1)

Battermarco da Silva Martins, F. .; Araújo e Silva Ferraz, G. .; Barreto Cunha, J. P. .; Bedin Marin, D.; Mendes do Santos, L.; Santos Santana, L. . Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor. Rev. Fac. Nac. Agron. Medellín 2022, 75, 9941-9949.

ABNT

BATTERMARCO DA SILVA MARTINS, F. .; ARAÚJO E SILVA FERRAZ, G. .; BARRETO CUNHA, J. P. .; BEDIN MARIN, D.; MENDES DO SANTOS, L.; SANTOS SANTANA, L. . Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor. Revista Facultad Nacional de Agronomía Medellín, [S. l.], v. 75, n. 2, p. 9941–9949, 2022. DOI: 10.15446/rfnam.v75n2.96242. Disponível em: https://revistas.unal.edu.co/index.php/refame/article/view/96242. Acesso em: 20 mar. 2026.

Chicago

Battermarco da Silva Martins, Fabiano, Gabriel Araújo e Silva Ferraz, João Paulo Barreto Cunha, Diego Bedin Marin, Luana Mendes do Santos, and Lucas Santos Santana. 2022. “Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor”. Revista Facultad Nacional De Agronomía Medellín 75 (2):9941-49. https://doi.org/10.15446/rfnam.v75n2.96242.

Harvard

Battermarco da Silva Martins, F. ., Araújo e Silva Ferraz, G. ., Barreto Cunha, J. P. ., Bedin Marin, D., Mendes do Santos, L. and Santos Santana, L. . (2022) “Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor”, Revista Facultad Nacional de Agronomía Medellín, 75(2), pp. 9941–9949. doi: 10.15446/rfnam.v75n2.96242.

IEEE

[1]

F. . Battermarco da Silva Martins, G. . Araújo e Silva Ferraz, J. P. . Barreto Cunha, D. Bedin Marin, L. Mendes do Santos, and L. . Santos Santana, “Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor”, Rev. Fac. Nac. Agron. Medellín, vol. 75, no. 2, pp. 9941–9949, May 2022.

MLA

Battermarco da Silva Martins, F. ., G. . Araújo e Silva Ferraz, J. P. . Barreto Cunha, D. Bedin Marin, L. Mendes do Santos, and L. . Santos Santana. “Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor”. Revista Facultad Nacional de Agronomía Medellín, vol. 75, no. 2, May 2022, pp. 9941-9, doi:10.15446/rfnam.v75n2.96242.

Turabian

Battermarco da Silva Martins, Fabiano, Gabriel Araújo e Silva Ferraz, João Paulo Barreto Cunha, Diego Bedin Marin, Luana Mendes do Santos, and Lucas Santos Santana. “Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor”. Revista Facultad Nacional de Agronomía Medellín 75, no. 2 (May 1, 2022): 9941–9949. Accessed March 20, 2026. https://revistas.unal.edu.co/index.php/refame/article/view/96242.

Vancouver

1.

Battermarco da Silva Martins F, Araújo e Silva Ferraz G, Barreto Cunha JP, Bedin Marin D, Mendes do Santos L, Santos Santana L. Spatial variability characterization of acoustic discomfort and zone of admissible noise caused by micro-tractor. Rev. Fac. Nac. Agron. Medellín [Internet]. 2022 May 1 [cited 2026 Mar. 20];75(2):9941-9. Available from: https://revistas.unal.edu.co/index.php/refame/article/view/96242

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