The Measurement Of Tractor Performance

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The Measurement Of Tractor Performance

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Author : Neville Stuart Gould
language : en
Publisher:
Release Date : 1987

The Measurement Of Tractor Performance written by Neville Stuart Gould and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1987 with Tractors categories.

A Tractor Performance Monitor Based On An Indirect Method Of Fuel Consumption Measurement

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Author : S. N. Pang
language : en
Publisher:
Release Date : 1984

A Tractor Performance Monitor Based On An Indirect Method Of Fuel Consumption Measurement written by S. N. Pang and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1984 with categories.

Tractor Measurement And Data Acquisition System For Hydraulic Power Draft Force And Power Take Off Torque

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Author : James B. W. Roeber
language : en
Publisher:
Release Date : 2016

Tractor Measurement And Data Acquisition System For Hydraulic Power Draft Force And Power Take Off Torque written by James B. W. Roeber and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2016 with categories.

Numerous advancements in machinery performance of agricultural tractors have been made in recent years. The Organisation for Economic Co-operation and Development (OECD) tests predetermined points (e.g., maximum power and torque) for drawbar, Power Take-Off (PTO), and hydraulic power as separate tests for tractor performance. Testing methods with the tractor operating at a steady state have been done for years, which were uncharacteristic of agricultural tractor operations in field conditions. As part of this thesis work, field usable data acquisition systems (DAQs) were developed to record implement energy consumption (e.g., drawbar loading, PTO torque, and hydraulic power). The system used LabVIEW software and National Instrument's compact data acquisition systems (cDAQs) to record data from instrumentation measuring drawbar, PTO, and hydraulic loads. Data were collected and verified in accordance with OECD standards at the Nebraska Tractor Test Lab (NTTL), an official OECD testing facility. Requirements of the systems were: implementation of each system on multiple machines with minor alterations, minimal changes to the tractor, and equivalent data compared to that recorded by the NTTL testing devices and procedures. Manufacturer's calibration information along with standardized testing equipment used to tune NTTL testing devices were used to verify that the system would provide data in conformance with OECD testing procedures. The hydraulic system was verified with varying hydraulic line curvatures near the sensors that provided data within a 1 percent difference of the actual hydraulic power. Drawbar tests included calibration of a strain gage instrumented drawbar which recorded loads within 0.67 kN of the calibration fixture. Track testing of the drawbar resulted in measured differences of less than 1 kN with the NTTL load car. For PTO measurements, a power take-off calibration was conducted using a commercially available torque transducer. No statistically significant differences were found between the torque values of the PTO transducer and the dynamometer. The differences in torque values ranged from 3 N∙m to 23 N∙m.

Instrumentation To Measure Fwda Tractor Performance

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Author : Tingfan Pang
language : en
Publisher:
Release Date : 1989

Instrumentation To Measure Fwda Tractor Performance written by Tingfan Pang and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1989 with categories.

Abstract: An instrumentation system was developed on a 63.4 KW FWDA (Front Wheel Drive Assist) KUBOTA M8 950DT tractor to measure tractor horizontal and vertical drawbar pull forces, rotational wheel speeds, true ground speed and fuel consumption. Three bi-directional strain gaged clevis pins were used as an integrally mounted three point hitch dynamometer. An on-board MEGADAC data acquisition system was employed for monitoring and recording tractor performance parameters. This system was interfaced with an IBM microcomputer via RS-232-C for data analysis. Procedures for development are reported along with results from field tests.

Traction Performance Characteristics Of Tractors On Agricultural Soils

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Author : Kenneth Walter Domier
language : en
Publisher:
Release Date : 1967

Traction Performance Characteristics Of Tractors On Agricultural Soils written by Kenneth Walter Domier and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1967 with Agricultural machinery categories.

Tractor Mechanics

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Author :
language : en
Publisher:
Release Date : 1976

Tractor Mechanics written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1976 with Tractors categories.

Measuring The Drawbar Performance Of Walking Tractors

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Author : Mangompia U. Angod
language : en
Publisher:
Release Date : 1985

Measuring The Drawbar Performance Of Walking Tractors written by Mangompia U. Angod and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1985 with Tractors categories.

Performance Assessment Of Agricultural Tractors Method For Determination Of Turning And Clearance Diameters

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Author : British Standards Institute Staff
language : en
Publisher:
Release Date : 1983-07-29

Performance Assessment Of Agricultural Tractors Method For Determination Of Turning And Clearance Diameters written by British Standards Institute Staff and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1983-07-29 with categories.

Agricultural tractors, Agricultural equipment, Tractors, Performance testing, Turning circles, Clearances, Measurement, Diameter measurement

The Development Validation And Implementation Of A Data Acquisition System To Quantify In Field Tractor Performance Characteristics

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Author : Dalton Owen
language : en
Publisher:
Release Date : 2019

The Development Validation And Implementation Of A Data Acquisition System To Quantify In Field Tractor Performance Characteristics written by Dalton Owen and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2019 with categories.

In the agriculture industry, in-field efficiency of tractors is critical information for operators and producers. Properly matching tractor to implement using real-world tractor performance characteristics is the primary factor that effects in-field efficiency. Currently, tractor testing is primarily conducted in a controlled lab environment to quantify attributes such as power take-off (PTO) power and fuel consumption. However, in-field quantification of these attributes is necessary to gain a full understanding of the machine's performance. Therefore, this study was conducted with two primary objectives: 1) develop a data acquisition system to measure real-time tractor performance at varying machine states during field operations, and; 2) evaluate the performance of tractors individually and compared to each other. Studies were conducted to test multiple different sized tractors with varying implements used in a specific crop production cycle; these tractors included two smaller 71 HP machines, a 90 HP and a 100 HP machine. The primary performance comparison goals were to evaluate the performance efficiency differences between a cabin and open station machine of the same size, and to evaluate the differences in performance between two similarly sized machines. A custom data acquisition (DAQ) system developed comprises of a torque sensor, flow meter, and GPS to acquire target performance parameters using a National Instruments cRIO system. The PTO torque sensor and fuel flow meter were tested and validated in a controlled lab using a PTO dynamometer and fuel scale. Validation field studies conducted showed that the DAQ system captured real-time performance parameters; strong correlation was observed between power, speed, and fuel consumption. Using the real-time data allows for a better understanding of the relationship between machine and implement, as well as a more thorough understanding of the effect of terrain and crop load on fuel consumption and PTO power. The peak torque values through the implement drivetrain and their frequencies coupled with the average breakdown of power consumption by the implement gives the manufacturer and producer the opportunity to modify usage trends or design, respectively. Spatial fuel consumption data on a tractor by tractor basis allows varying machines to be compared directly based on their efficiency. Testing of the two smaller tractors took place on the same day in a uniform field. While the data did not indicate any difference between open station and cabin machines, strong correlation was observed between both operating speed and PTO mode selection and performance efficiency. The testing of the two larger tractors was done on sequential cuts of alfalfa on the same field; to account for this, bales were geotagged and weighed to produce a forage density map. Data from testing yielded two main results; the first being that the fuel consumption rate of each tractor and operation can be accurately predicted using an equation using PTO power and operating speed as variables. The equation that defines the fuel consumption for the swathing operation predicts the fuel consumption within 10% over 75% of the time in both sized machines. Data recorded by the DAQ system yields the information necessary to give the manufacturer a thorough understanding of how machines and implements interact with each other, as well as how external factors effect machine performance.

Tractor Implement Systems

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Author : Ralph Alcock
language : en
Publisher: Springer Science & Business Media
Release Date : 2012-12-06

Tractor Implement Systems written by Ralph Alcock and has been published by Springer Science & Business Media this book supported file pdf, txt, epub, kindle and other format this book has been release on 2012-12-06 with Science categories.

Agriculture has benefited considerably from the wide-scale use of tractors and associated implements. Tractors have developed along two, at times contradictory, design paths. The first of these has resulted in functional improvements to the vehicle, making it capable of im proved performance in the often harsh environmental conditions in which it is required to operate. For example, agricultural tires have improved the versatility of tractors by allowing them to operate at relatively high speeds on a variety of terrains, and hydraulics have provided for flexibility in controlling and operating implements. It can also be seen that these particular functional design improvements have contributed significantly to the second design pathway, that of ergon omics, and the human-machine interface. Recent stress on the working environment for the tractor operator has led to design improvements relative to tractor cabs, the placement and labeling of controls, etc. This text discusses those factors relevant to the design, selection, and operation of tractor-implement systems. The audience for which it is intended is undergraduate and graduate students of agricultural engineering studying power and machinery. However, the text is suf ficiently applied to have relevance for those extension personnel in volved with advising farmers on the selection and operation of tractor implement combinations. The tractor cannot be regarded in isolation from the implement, nor from the environment in which both the tractor and implement are ix x Preface working.