Soil Cutting and Tillage
Soil Cutting and Tillage

Author: E. McKyes

Publisher: Elsevier

Published: 1985-10-01

Total Pages: 226

ISBN-13: 044460104X

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After giving a brief history of tillage practices and implements used throughout the world dating back to ancient times, this book goes on to describe the basic soil mechanics techniques needed to calculate the forces developed in soil by simple-shaped cutting tools. The methods of measuring soil mechanical properties, water pressure in soil and shear rate effects are touched upon. A review is given of two and three dimensional soil cutting mathematical mechanics models to predict soil cutting forces and soil volumes disturbed by cutting and tillage tools, as well as the state-of-the-art of soil loosening, structural rearrangement and plant growth as affected by tillage tools. The author also includes an introduction to the analysis of traction machines. There are many numerical examples of mechanical analyses and predictions worked out in the various sections of the book as well as numerous unsolved problems at the end of a number of the chapters.Written in a textbook style, this monograph is ideal for anyone wanting to learn modern techniques for the mechanical description of soil cutting and tillage forces and soil volumes disturbed. It also provides a reference for analytical formulae and calculated force forces. It will be of interest to universities and colleges worldwide which have Agricultural Engineering Programs, Civil and Mechanical Engineering schools which specialize in soil mechanics and construction machinery as well as to research stations worldwide with interests in soil tillage, soil physics etc.

Soil Engineering
Soil Engineering

Author: Athanasios P. Dedousis

Publisher: Springer Science & Business Media

Published: 2010-01-27

Total Pages: 234

ISBN-13: 3642036813

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The agricultural world has changed significantly during the last years. The excessive use of heavy machinery, waste disposal, the use of agrochemicals and new soil cultivation means led to severe problems, which agricultural engineers have to cope with in order to prevent soil from permanent irreversible damage. This Soil Biology volume will update readers on several cutting-edge aspects of sustainable soil engineering including topics such as: soil compaction, soil density increases, soil disturbance and soil fragmentation; soil tillage machineries and optimization of tillage tools; soil traffic and traction, effects of heavy agricultural machines, the use of robotics in agriculture and controlled traffic farming; mechanical weed control, the characterization of soil variability and the recycling of compost and biosolids in agricultural soils.

Soil-Machine Interactions
Soil-Machine Interactions

Author: Shen

Publisher: Routledge

Published: 2017-11-13

Total Pages: 360

ISBN-13: 1351415662

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Aiming to improve work efficiency in such areas as tillage in agriculture, earth-moving in civil engineering, and tunnel-making in sea-bed operations, this work offers an introduction to Finite Element Method (FEM) analysis of soil-machine systems. It explains the advantage of FEM's numerical approach over traditional analytical and empirical methods of dealing with complex factors from nonlinear mechanical behaviour to geometric configurations.

Innovative Biosystems Engineering for Sustainable Agriculture, Forestry and Food Production
Innovative Biosystems Engineering for Sustainable Agriculture, Forestry and Food Production

Author: Antonio Coppola

Publisher: Springer Nature

Published: 2020-03-19

Total Pages: 860

ISBN-13: 3030392996

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This book gathers the latest advances, innovations, and applications in the field of innovative biosystems engineering for sustainable agriculture, forestry and food production. Focusing on the challenges of implementing sustainability in various contexts in the fields of biosystems engineering, it shows how the research has addressed the sustainable use of renewable and non-renewable resources. It also presents possible solutions to help achieve sustainable production. The Mid-Term Conference of the Italian Association of Agricultural Engineering (AIIA) is part of a series of conferences, seminars and meetings that the AIIA organizes, together with other public and private stakeholders, to promote the creation and dissemination of new knowledge in the sector. The contributions included in the book were selected by means of a rigorous peer-review process, and offer an extensive and multidisciplinary overview of interesting solutions in the field of innovative biosystems engineering for sustainable agriculture.

Soil-tool-residue Interactions
Soil-tool-residue Interactions

Author: Zhiwei Zeng

Publisher:

Published: 2019

Total Pages: 0

ISBN-13:

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Soil-tool-residue interactions are at the centre of many agricultural field operations. The study of soil-tool-residue interactions is one of the fundamental aspects of soil dynamics in agricultural engineering. The aim of this study was to investigate dynamic behaviours of soil-tool-residue interactions including soil cutting forces, soil displacement, soil loosening and furrow profile, straw displacement, residue cover and incorporation. Experimental studies of soil-tool-residue interactions were conducted for various soil-engaging tools (fluted coulter, rippled disc, and compact disc harrow) working on several field conditions (corn stubble, wheat stubble, and bare soil) at different operational parameters (working speed and depth). Numerical models of the soil-tool-residue interactions were developed for a micropenetrometer, a subsoiler, and a sweep using the discrete element method (DEM). The models were calibrated and validated by comparing simulation results with experimental data from soil bin and field tests. Field testing results of vertical tillage tools demonstrated that fluted coulters left less surface residue, incorporated more residue into the soil, created a wider furrow, and disturbed a larger area than rippled discs. The effect of working speed was more dominant than the coulter geometry on the tillage performance of the fluted coulters. Soil bin tests of a compact disc harrow indicated that disc spacing and offset had significant effects on soil disturbance characteristics, and the effects varied with the tillage depth. The DEM simulation results showed that the soil-micropenetrometer model produced comparable results to the laboratory measurements, in terms of the variation of cone index over penetration depth. The soil-subsoiler model was capable of predicting soil cutting resistance and soil disturbance characteristics with relative errors ranging from 2.63 to 10.2%. The straw-sweep-soil model was able to simulate dynamic attributes of bulk materials and individual particles, such as straw movement, moving trajectories and velocity contours. This study embraced a broad topic of soil-tool-residue interactions. The results have advanced the science of soil dynamics and contributed to the engineering knowledge required for the development of high-performance agricultural machinery that consumes minimal tractor power and creates optimal field conditions for crop growth.

Emerging Technologies in Agricultural Engineering
Emerging Technologies in Agricultural Engineering

Author: Megh R. Goyal

Publisher: CRC Press

Published: 2017-09-01

Total Pages: 427

ISBN-13: 1771883413

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This book covers an array of issues on emerging agricultural engineering and technology, featuring new research and studies. The volume is broken into three parts: emerging technologies, energy management in agriculture, and management of natural resources, in which particular attention is paid to water management, a necessary consideration for successful crop production, especially in water-scarce regions. Topics include: alleviating drainage congestion solar energy for agriculture anaerobic digestion by inoculation with compost self-propelled inter-cultivators agrobiodiversity watershed development and management This volume offers academia, engineers, technologists, students, and others from different disciplines information to gain knowledge on the breadth and depth of this multifaceted field of agricultural engineering. There is an urgent need to explore and investigate the current shortcomings and challenges of the current innovations and challenges.