Overview of Global Long-Distance Road Transportation of Industrial Roundwood

Kalle Kärhä; Milla Seuri; Patricio Mac Donagh; Mauricio Acuna; Christian Kanzian; Vladimir Petković; Renato Cesar Gonçalves Robert; Luis Henrique Suppi Costa; Rodrigo Coelho da Cruz; Tihomir Krumov; Allan Bradley; Dominik Röser; Cristian Pinto; Wang Dian; Zdravko Pandur; Jiří Dvořák; Martin Torbjørn Jørgensen; Peeter Muiste; Marek Irdla; Christophe Ginet; Thomas Purfürst; Hans Ulrich Dietz; Raffaele Spinelli; Yasushi Suzuki; Hiroaki Shirasawa; Andis Lazdiņš; Rien Visser; Campbell Harvey; Dag Skjølaas; Tadeusz Moskalik; Grzegorz Trzciński; Stelian Alexandru Borz; Elena Camelia Muşat; Matevž Triplat; Francois Oberholzer; Bruce Talbot; Eduardo Tolosana; Henrik von Hofsten; Anil Orhan Akay; Borys Bakay; Joseph L. Conrad; Alejandro Olivera

doi:10.5552/crojfe.2024.2286

Overview of Global Long-Distance Road Transportation of Industrial Roundwood

Kalle Kärhä^*, Milla Seuri, Patricio Mac Donagh, Mauricio Acuna, Christian Kanzian, Vladimir Petković, Renato Cesar Gonçalves Robert, Luis Henrique Suppi Costa, Rodrigo Coelho da Cruz, Tihomir Krumov, Allan Bradley, Dominik Röser, Cristian Pinto, Wang Dian, Zdravko Pandur, Jiří Dvořák, Martin Torbjørn Jørgensen, Peeter Muiste, Marek Irdla, Christophe GinetThomas Purfürst, Hans Ulrich Dietz, Raffaele Spinelli, Yasushi Suzuki, Hiroaki Shirasawa, Andis Lazdiņš, Rien Visser, Campbell Harvey, Dag Skjølaas, Tadeusz Moskalik, Grzegorz Trzciński, Stelian Alexandru Borz, Elena Camelia Muşat, Matevž Triplat, Francois Oberholzer, Bruce Talbot, Eduardo Tolosana, Henrik von Hofsten, Anil Orhan Akay, Borys Bakay, Joseph L. Conrad, Alejandro Olivera

^*Corresponding author af dette arbejde

Skovskolen

Publikation: Bidrag til tidsskrift › Review › peer review

11 Citationer (Scopus)

Abstract

The aim of the study was to provide a comprehensive overview of global long-distance road transportation of industrial roundwood. The study focused on the maximum gross vehicle weight (GVW) limits allowed with different timber truck configurations, typical payloads in timber trucking, the road transportation share of the total industrial roundwood longdistance transportation volume, and the average long-distance transportation distances and costs of industrial roundwood. The study was carried out as a questionnaire survey. The questionnaire was sent to timber transportation logistics experts and research scientists in the 30 countries with the largest industrial roundwood removals in Europe, as well as selected major forestry countries in the world (Argentina, Australia, Brazil, Canada, Chile, China, Japan, New Zealand, South Africa, Türkiye, the United States of America and Uruguay) in February 2022, and closed in May 2022. A total of 31 countries took part in the survey. The survey illustrated that timber trucking was the main long-distance transportation method of industrial roundwood in almost every country surveyed. Road transportation averaged 89% of the total industrial roundwood long-distance transportation volume. Timber truck configurations of 4 to 9 axles with GVW limits of around 30 tonnes to over 70 tonnes were most commonly used. The results indicated that higher GVW limits allowed significantly higher payloads in timber trucking, with the lowest payloads at less than 25 tonnes, and the highest payloads more than 45 tonnes. The average road transportation distance with industrial roundwood was 128 km, and the average long-distance transportation cost in timber trucking was €11.1 per tonne of timber transported. In the entire survey material, there was a direct relationship between transportation distance and transportation costs and an inverse relationship between maximum GVW limits and transportation costs. Consequently, in order to reduce transportation costs, it is essential to maximise payloads (within legal limits) and minimise haul distances. Several measures to increase cost-and energy-efficiency, and to reduce greenhouse gas emissions in road transportation logistics, are discussed in the paper. On the basis of the survey, it is recommended that upto-date statistical data and novel research studies on the long-distance transportation of industrial roundwood be conducted in some countries in the future.

Originalsprog	Engelsk
Tidsskrift	Croatian Journal of Forest Engineering
Vol/bind	45
Udgave nummer	1
Sider (fra-til)	217-236
Antal sider	20
ISSN	1845-5719
DOI	https://doi.org/10.5552/crojfe.2024.2286
Status	Udgivet - 2024

Bibliografisk note

Publisher Copyright:
© 2023 by the authors. Submitted for possible open access publication under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).

Adgang til dokumentet

10.5552/crojfe.2024.2286Licens: CC BY

FulltextForlagets udgivne version, 1,77 MBLicens: CC BY

Citationsformater

Kärhä, K., Seuri, M., Mac Donagh, P., Acuna, M., Kanzian, C., Petković, V., Robert, R. C. G., Costa, L. H. S., da Cruz, R. C., Krumov, T., Bradley, A., Röser, D., Pinto, C., Dian, W., Pandur, Z., Dvořák, J., Jørgensen, M. T., Muiste, P., Irdla, M., ... Olivera, A. (2024). Overview of Global Long-Distance Road Transportation of Industrial Roundwood. Croatian Journal of Forest Engineering, 45(1), 217-236. https://doi.org/10.5552/crojfe.2024.2286

Kärhä, K, Seuri, M, Mac Donagh, P, Acuna, M, Kanzian, C, Petković, V, Robert, RCG, Costa, LHS, da Cruz, RC, Krumov, T, Bradley, A, Röser, D, Pinto, C, Dian, W, Pandur, Z, Dvořák, J, Jørgensen, MT, Muiste, P, Irdla, M, Ginet, C, Purfürst, T, Dietz, HU, Spinelli, R, Suzuki, Y, Shirasawa, H, Lazdiņš, A, Visser, R, Harvey, C, Skjølaas, D, Moskalik, T, Trzciński, G, Borz, SA, Muşat, EC, Triplat, M, Oberholzer, F, Talbot, B, Tolosana, E, von Hofsten, H, Akay, AO, Bakay, B, Conrad, JL & Olivera, A 2024, 'Overview of Global Long-Distance Road Transportation of Industrial Roundwood', Croatian Journal of Forest Engineering, bind 45, nr. 1, s. 217-236. https://doi.org/10.5552/crojfe.2024.2286

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title = "Overview of Global Long-Distance Road Transportation of Industrial Roundwood",

abstract = "The aim of the study was to provide a comprehensive overview of global long-distance road transportation of industrial roundwood. The study focused on the maximum gross vehicle weight (GVW) limits allowed with different timber truck configurations, typical payloads in timber trucking, the road transportation share of the total industrial roundwood longdistance transportation volume, and the average long-distance transportation distances and costs of industrial roundwood. The study was carried out as a questionnaire survey. The questionnaire was sent to timber transportation logistics experts and research scientists in the 30 countries with the largest industrial roundwood removals in Europe, as well as selected major forestry countries in the world (Argentina, Australia, Brazil, Canada, Chile, China, Japan, New Zealand, South Africa, T{\"u}rkiye, the United States of America and Uruguay) in February 2022, and closed in May 2022. A total of 31 countries took part in the survey. The survey illustrated that timber trucking was the main long-distance transportation method of industrial roundwood in almost every country surveyed. Road transportation averaged 89% of the total industrial roundwood long-distance transportation volume. Timber truck configurations of 4 to 9 axles with GVW limits of around 30 tonnes to over 70 tonnes were most commonly used. The results indicated that higher GVW limits allowed significantly higher payloads in timber trucking, with the lowest payloads at less than 25 tonnes, and the highest payloads more than 45 tonnes. The average road transportation distance with industrial roundwood was 128 km, and the average long-distance transportation cost in timber trucking was €11.1 per tonne of timber transported. In the entire survey material, there was a direct relationship between transportation distance and transportation costs and an inverse relationship between maximum GVW limits and transportation costs. Consequently, in order to reduce transportation costs, it is essential to maximise payloads (within legal limits) and minimise haul distances. Several measures to increase cost-and energy-efficiency, and to reduce greenhouse gas emissions in road transportation logistics, are discussed in the paper. On the basis of the survey, it is recommended that upto-date statistical data and novel research studies on the long-distance transportation of industrial roundwood be conducted in some countries in the future.",

keywords = "cost efficiency, gross vehicle weight (GVW) limit, payload, timber hauling, timber logistics, timber trucking, transportation cost, transportation distance",

author = "Kalle K{\"a}rh{\"a} and Milla Seuri and {Mac Donagh}, Patricio and Mauricio Acuna and Christian Kanzian and Vladimir Petkovi{\'c} and Robert, {Renato Cesar Gon{\c c}alves} and Costa, {Luis Henrique Suppi} and {da Cruz}, {Rodrigo Coelho} and Tihomir Krumov and Allan Bradley and Dominik R{\"o}ser and Cristian Pinto and Wang Dian and Zdravko Pandur and Ji{\v r}{\'i} Dvo{\v r}{\'a}k and J{\o}rgensen, {Martin Torbj{\o}rn} and Peeter Muiste and Marek Irdla and Christophe Ginet and Thomas Purf{\"u}rst and Dietz, {Hans Ulrich} and Raffaele Spinelli and Yasushi Suzuki and Hiroaki Shirasawa and Andis Lazdiņ{\v s} and Rien Visser and Campbell Harvey and Dag Skj{\o}laas and Tadeusz Moskalik and Grzegorz Trzci{\'n}ski and Borz, {Stelian Alexandru} and Mu{\c s}at, {Elena Camelia} and Matev{\v z} Triplat and Francois Oberholzer and Bruce Talbot and Eduardo Tolosana and {von Hofsten}, Henrik and Akay, {Anil Orhan} and Borys Bakay and Conrad, {Joseph L.} and Alejandro Olivera",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors. Submitted for possible open access publication under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).",

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doi = "10.5552/crojfe.2024.2286",

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journal = "Croatian Journal of Forest Engineering",

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T1 - Overview of Global Long-Distance Road Transportation of Industrial Roundwood

AU - Kärhä, Kalle

AU - Seuri, Milla

AU - Mac Donagh, Patricio

AU - Acuna, Mauricio

AU - Kanzian, Christian

AU - Petković, Vladimir

AU - Robert, Renato Cesar Gonçalves

AU - Costa, Luis Henrique Suppi

AU - da Cruz, Rodrigo Coelho

AU - Krumov, Tihomir

AU - Bradley, Allan

AU - Röser, Dominik

AU - Pinto, Cristian

AU - Dian, Wang

AU - Pandur, Zdravko

AU - Dvořák, Jiří

AU - Jørgensen, Martin Torbjørn

AU - Muiste, Peeter

AU - Irdla, Marek

AU - Ginet, Christophe

AU - Purfürst, Thomas

AU - Dietz, Hans Ulrich

AU - Spinelli, Raffaele

AU - Suzuki, Yasushi

AU - Shirasawa, Hiroaki

AU - Lazdiņš, Andis

AU - Visser, Rien

AU - Harvey, Campbell

AU - Skjølaas, Dag

AU - Moskalik, Tadeusz

AU - Trzciński, Grzegorz

AU - Borz, Stelian Alexandru

AU - Muşat, Elena Camelia

AU - Triplat, Matevž

AU - Oberholzer, Francois

AU - Talbot, Bruce

AU - Tolosana, Eduardo

AU - von Hofsten, Henrik

AU - Akay, Anil Orhan

AU - Bakay, Borys

AU - Conrad, Joseph L.

AU - Olivera, Alejandro

N1 - Publisher Copyright: © 2023 by the authors. Submitted for possible open access publication under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).

PY - 2024

Y1 - 2024

N2 - The aim of the study was to provide a comprehensive overview of global long-distance road transportation of industrial roundwood. The study focused on the maximum gross vehicle weight (GVW) limits allowed with different timber truck configurations, typical payloads in timber trucking, the road transportation share of the total industrial roundwood longdistance transportation volume, and the average long-distance transportation distances and costs of industrial roundwood. The study was carried out as a questionnaire survey. The questionnaire was sent to timber transportation logistics experts and research scientists in the 30 countries with the largest industrial roundwood removals in Europe, as well as selected major forestry countries in the world (Argentina, Australia, Brazil, Canada, Chile, China, Japan, New Zealand, South Africa, Türkiye, the United States of America and Uruguay) in February 2022, and closed in May 2022. A total of 31 countries took part in the survey. The survey illustrated that timber trucking was the main long-distance transportation method of industrial roundwood in almost every country surveyed. Road transportation averaged 89% of the total industrial roundwood long-distance transportation volume. Timber truck configurations of 4 to 9 axles with GVW limits of around 30 tonnes to over 70 tonnes were most commonly used. The results indicated that higher GVW limits allowed significantly higher payloads in timber trucking, with the lowest payloads at less than 25 tonnes, and the highest payloads more than 45 tonnes. The average road transportation distance with industrial roundwood was 128 km, and the average long-distance transportation cost in timber trucking was €11.1 per tonne of timber transported. In the entire survey material, there was a direct relationship between transportation distance and transportation costs and an inverse relationship between maximum GVW limits and transportation costs. Consequently, in order to reduce transportation costs, it is essential to maximise payloads (within legal limits) and minimise haul distances. Several measures to increase cost-and energy-efficiency, and to reduce greenhouse gas emissions in road transportation logistics, are discussed in the paper. On the basis of the survey, it is recommended that upto-date statistical data and novel research studies on the long-distance transportation of industrial roundwood be conducted in some countries in the future.

AB - The aim of the study was to provide a comprehensive overview of global long-distance road transportation of industrial roundwood. The study focused on the maximum gross vehicle weight (GVW) limits allowed with different timber truck configurations, typical payloads in timber trucking, the road transportation share of the total industrial roundwood longdistance transportation volume, and the average long-distance transportation distances and costs of industrial roundwood. The study was carried out as a questionnaire survey. The questionnaire was sent to timber transportation logistics experts and research scientists in the 30 countries with the largest industrial roundwood removals in Europe, as well as selected major forestry countries in the world (Argentina, Australia, Brazil, Canada, Chile, China, Japan, New Zealand, South Africa, Türkiye, the United States of America and Uruguay) in February 2022, and closed in May 2022. A total of 31 countries took part in the survey. The survey illustrated that timber trucking was the main long-distance transportation method of industrial roundwood in almost every country surveyed. Road transportation averaged 89% of the total industrial roundwood long-distance transportation volume. Timber truck configurations of 4 to 9 axles with GVW limits of around 30 tonnes to over 70 tonnes were most commonly used. The results indicated that higher GVW limits allowed significantly higher payloads in timber trucking, with the lowest payloads at less than 25 tonnes, and the highest payloads more than 45 tonnes. The average road transportation distance with industrial roundwood was 128 km, and the average long-distance transportation cost in timber trucking was €11.1 per tonne of timber transported. In the entire survey material, there was a direct relationship between transportation distance and transportation costs and an inverse relationship between maximum GVW limits and transportation costs. Consequently, in order to reduce transportation costs, it is essential to maximise payloads (within legal limits) and minimise haul distances. Several measures to increase cost-and energy-efficiency, and to reduce greenhouse gas emissions in road transportation logistics, are discussed in the paper. On the basis of the survey, it is recommended that upto-date statistical data and novel research studies on the long-distance transportation of industrial roundwood be conducted in some countries in the future.

KW - cost efficiency

KW - gross vehicle weight (GVW) limit

KW - payload

KW - timber hauling

KW - timber logistics

KW - timber trucking

KW - transportation cost

KW - transportation distance

U2 - 10.5552/crojfe.2024.2286

DO - 10.5552/crojfe.2024.2286

M3 - Review

AN - SCOPUS:85180477007

SN - 1845-5719

VL - 45

SP - 217

EP - 236

JO - Croatian Journal of Forest Engineering

JF - Croatian Journal of Forest Engineering

IS - 1

ER -