2013
DOI: 10.4081/jae.2013.326
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Dynamic-energetic balance of agricultural tractors: active systems for the measurement of the power requirements in static tests and under field conditions

Abstract: Modern tractors are characterized by the introduction of devices designed to increase the operative performances of the machines, such as systems for monitoring and controlling various functions (through a massive use of electronics and hydraulics), or deputed to improve the comfort of the driver (paying more attention to ergonomics, air-conditioning, noise and vibration). Such devices need energy to be operated, affecting the energetic balance of the tractor. In this context, the availability of suitable meth… Show more

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Cited by 13 publications
(10 citation statements)
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“…The dynamometric brake was also used, after the field tests, in order to reproduce the mean conditions of fuel delivery, measured PTO and engine speed. This simulation aimed at evaluating the total torque and power provided by the engine and the corresponding fuel consumption [45].…”
Section: Operating Machinery and Soil Parametersmentioning
confidence: 99%
“…The dynamometric brake was also used, after the field tests, in order to reproduce the mean conditions of fuel delivery, measured PTO and engine speed. This simulation aimed at evaluating the total torque and power provided by the engine and the corresponding fuel consumption [45].…”
Section: Operating Machinery and Soil Parametersmentioning
confidence: 99%
“…The availability of data on energy requirement, fuel consumption and force of traction of tillage implements is the main factor to determine the power class of the required tractor (Moitzi et al, 2013;Pochi et al, 2013) and to estimate the effects of different implements in relation to the quality of the tillage in specific soil types, in terms of depth of tillage, soil cloddiness and crop residue or biomass cover (Raper et al, 2000;Chen et al, 2004;Sahu and Raheman, 2006).…”
Section: Introductionmentioning
confidence: 99%
“…Conventional tillage systems may produce undesirable effects, such as worsening of soil structure due to compaction, loss of nutrients in deeper layers and of organic matter in upper depths (Lal, 2004), increasing soil erosion caused by wind or by surface runoff (De Laune and Sij, 2012), excessive energy requirements and costs (Perfect et al, 1997). These effects can be reduced, especially in compact clay soil, by replacing conventional implements with soil conservation tillage equipment, to reduce the number of passes, the working depth, the fuel consumption and the energy input (Raper and Bergtold, 2007;Fanigliulo and Pochi, 2011), by using one pass implements with wider working width and equipped with suitable geometry working tools (Godwin, 2007).The availability of data on energy requirement, fuel consumption and force of traction of tillage implements is the main factor to determine the power class of the required tractor (Moitzi et al, 2013;Pochi et al, 2013) and to estimate the effects of different implements in relation to the quality of the tillage in specific soil types, in terms of depth of tillage, soil cloddiness and crop residue or biomass cover (Raper et al, 2000;Chen et al, 2004;Sahu and Raheman, 2006).Studies on conventional and reduced tillage in scientific literature have provided a large amount of information on methods, labour and energy in different soil conditions (Al Suhaibani and Al-Janobi, 1997;Arvidsson et al, 2004;Wandkar et al, 2013), but only a few gave a comprehensive picture of the energy request and of the quality of tillage for the most common methods performing primary tillage in compact soils. McLaughlin et al (2008) studied energy inputs and draft for eight different primary tillage implements in a clay loam soil, but no data on tillage quality parameters were provided.…”
mentioning
confidence: 99%
“…Moreover, the usage time distribution among different agricultural operations is also influenced by the tractor power: increasing the power, tractors are increasingly employed in heavy operations such as primary soil tillage [34]. Finally, different functions can be involved at the same time in the execution of each agricultural operation (e.g., tillage with active implements involves both drive train and PTO, while passive implements only require traction power) [35]. Taking these factors into account, a hypothesis has been formulated (Table 3), relating to the average usage of a 105 kW power tractor with 100 dm 3 of UTTO fluid in the reservoir, in an actual working time of 700 h (approximately corresponding to a year) during which the three functions could have been carried out individually or in combination.…”
Section: Test Conditionsmentioning
confidence: 99%