Computing time and energy requirements to assess tractor operational efficiency : application to a plowing operation

Computing time and energy requirements to assess tractor operational efficiency : application to a plowing operation

The development of large-scale agricultural mechanization required to sustain food production, combined with limited conventional fuel resources, spurs on to better assess the time and energy investments required for commodities production. The proposed analysis is based on the description of field...

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Main Authors: Christophe Burgun, Stephanie Lacour, Alain Delacroix, Georges Descombes, Valérie Doyen
Format: Article
Language:English
Published: Scientific Agricultural Society of Finland 2013-06-01
Series:Agricultural and Food Science
Online Access:https://journal.fi/afs/article/view/7629
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spelling doaj-e952784aa9904b28b17a416eafada4032020-11-25T00:50:51ZengScientific Agricultural Society of FinlandAgricultural and Food Science1459-60671795-18952013-06-01222 Computing time and energy requirements to assess tractor operational efficiency : application to a plowing operationChristophe Burgun0Stephanie Lacour1Alain DelacroixGeorges DescombesValérie DoyenIRSTEA - TSAN Laboratoire de Génie des Procédés pour l'Environnement, l'Energie et la Santé 1, rue Pierre-Gilles de Gennes CS 10030 92761 Antony Cedex FRANCEIRSTEA - TSAN Laboratoire de Génie des Procédés pour l'Environnement, l'Energie et la Santé 1, rue Pierre-Gilles de Gennes CS 10030 92761 Antony Cedex FRANCEThe development of large-scale agricultural mechanization required to sustain food production, combined with limited conventional fuel resources, spurs on to better assess the time and energy investments required for commodities production. The proposed analysis is based on the description of field working dynamics collected on an experimental tractor during a plowing operation. The energy needs can there be characterized as having a dual alternating profile, depending on the tractor working phase within the field. As a result, two field oriented performance indicators consisting in time efficiency [h.ha-1] and area specific consumption [l.ha-1] are defined out of the profile characteristics. A model converting the draft of an implement into an engine running point is then developed to compute these indicators. The model is fitted on data collected over conventional bench tests, and is validated by an application to a plowing operation. Lastly, a sensitivity analysis on the operational parameters is conducted. https://journal.fi/afs/article/view/7629
collection DOAJ
language English
format Article
sources DOAJ
author Christophe Burgun
Stephanie Lacour
Alain Delacroix
Georges Descombes
Valérie Doyen
spellingShingle Christophe Burgun
Stephanie Lacour
Alain Delacroix
Georges Descombes
Valérie Doyen
Computing time and energy requirements to assess tractor operational efficiency : application to a plowing operation
Agricultural and Food Science
author_facet Christophe Burgun
Stephanie Lacour
Alain Delacroix
Georges Descombes
Valérie Doyen
author_sort Christophe Burgun
title Computing time and energy requirements to assess tractor operational efficiency : application to a plowing operation
title_short Computing time and energy requirements to assess tractor operational efficiency : application to a plowing operation
title_full Computing time and energy requirements to assess tractor operational efficiency : application to a plowing operation
title_fullStr Computing time and energy requirements to assess tractor operational efficiency : application to a plowing operation
title_full_unstemmed Computing time and energy requirements to assess tractor operational efficiency : application to a plowing operation
title_sort computing time and energy requirements to assess tractor operational efficiency : application to a plowing operation
publisher Scientific Agricultural Society of Finland
series Agricultural and Food Science
issn 1459-6067
1795-1895
publishDate 2013-06-01
description The development of large-scale agricultural mechanization required to sustain food production, combined with limited conventional fuel resources, spurs on to better assess the time and energy investments required for commodities production. The proposed analysis is based on the description of field working dynamics collected on an experimental tractor during a plowing operation. The energy needs can there be characterized as having a dual alternating profile, depending on the tractor working phase within the field. As a result, two field oriented performance indicators consisting in time efficiency [h.ha-1] and area specific consumption [l.ha-1] are defined out of the profile characteristics. A model converting the draft of an implement into an engine running point is then developed to compute these indicators. The model is fitted on data collected over conventional bench tests, and is validated by an application to a plowing operation. Lastly, a sensitivity analysis on the operational parameters is conducted.
url https://journal.fi/afs/article/view/7629
work_keys_str_mv AT christopheburgun computingtimeandenergyrequirementstoassesstractoroperationalefficiencyapplicationtoaplowingoperation
AT stephanielacour computingtimeandenergyrequirementstoassesstractoroperationalefficiencyapplicationtoaplowingoperation
AT alaindelacroix computingtimeandenergyrequirementstoassesstractoroperationalefficiencyapplicationtoaplowingoperation
AT georgesdescombes computingtimeandenergyrequirementstoassesstractoroperationalefficiencyapplicationtoaplowingoperation
AT valeriedoyen computingtimeandenergyrequirementstoassesstractoroperationalefficiencyapplicationtoaplowingoperation
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