Er. Uttam Raj Timilsina(MSc.Engineering,IIT Roorkee)
Professor of Agricultural Engineering,Agriculture and Forestry University (AFU), Rampur, Chitwan, Nepal
uttamrajtimilsina@gmail.com
*All Right Reserved**
Uploaded and Shared by AgriYouthNepal
Er. Uttam Raj Timilsina(MSc.Engineering,IIT Roorkee)
Professor of Agricultural Engineering,Agriculture and Forestry University (AFU), Rampur, Chitwan, Nepal
uttamrajtimilsina@gmail.com
*All Right Reserved**
Uploaded and Shared by AgriYouthNepal
This document summarizes a crop cutting machine that reduces human effort in harvesting crops. It can cut crops like jowar, tuar, and soybeans using two rotating blades. It is powered by a 3HP engine and uses a belt and pulley system to transfer power to the cutting blades at half the speed for increased torque. The machine cuts crops in two rows simultaneously and can harvest one acre in 2 hours, reducing labor costs compared to manual harvesting. It requires minimal maintenance and can be operated by an unskilled person.
The document provides information about combine harvesters. It discusses that combine harvesters are machines that harvest, thresh, and clean grains from straw in a single operation. They can be tractor pulled or self-propelled. The main components of a combine harvester include the cutting unit, threshing unit, separating unit, cleaning unit, and grain and straw handling units. It works by cutting crops, threshing them, separating the husk from grains, cleaning the grains, and storing them. The document also lists the requirements for an effective combine harvester.
crop harvester in agricultural approachSuchit Moon
This document describes the design and development of a crop harvester machine. It can cut dry stalks of crops like grains efficiently with less human effort. The machine has two cutting blades attached to separate shafts powered by a single cylinder engine through a transmission system of pulleys and belts. This simple design makes the harvester affordable for small farmers and easier to operate than manual harvesting. It can cut crops in two rows simultaneously and reduce labor costs. The document provides details of the various components, calculations for power transmission ratios, and diagrams of the design and working.
The combine harvester is a large, self-propelled machine that harvests grain crops by cutting them and then separating and collecting the grains. It performs two basic functions - reaping the crop by cutting it, and threshing to separate the grains from other debris. The manufacturing process involves cutting and welding steel into the body and grain tank structures, painting, and final assembly of major components like the engine. It works by gathering the crop with a header, reel, and cutter bar, then conveying it inside for threshing by a drum to separate grains, which fall into a collecting tank, while unwanted material is expelled out the back.
Turkey has a large agricultural sector, producing over 1/3 of its land area. It has a strong agricultural machinery industry with over 1000 manufacturers producing various equipment. While tractor production is dominated by a few large companies, most agricultural machinery producers are small family businesses. The agricultural machinery sector aims to increase exports and improve quality standards to be more competitive internationally.
Er. Uttam Raj Timilsina(MSc.Engineering,IIT Roorkee)
Professor of Agricultural Engineering,Agriculture and Forestry University (AFU), Rampur, Chitwan, Nepal
uttamrajtimilsina@gmail.com
*All Right Reserved**
Uploaded and Shared by AgriYouthNepal
Er. Uttam Raj Timilsina(MSc.Engineering,IIT Roorkee)
Professor of Agricultural Engineering,Agriculture and Forestry University (AFU), Rampur, Chitwan, Nepal
uttamrajtimilsina@gmail.com
*All Right Reserved**
Uploaded and Shared by AgriYouthNepal
This document summarizes a crop cutting machine that reduces human effort in harvesting crops. It can cut crops like jowar, tuar, and soybeans using two rotating blades. It is powered by a 3HP engine and uses a belt and pulley system to transfer power to the cutting blades at half the speed for increased torque. The machine cuts crops in two rows simultaneously and can harvest one acre in 2 hours, reducing labor costs compared to manual harvesting. It requires minimal maintenance and can be operated by an unskilled person.
The document provides information about combine harvesters. It discusses that combine harvesters are machines that harvest, thresh, and clean grains from straw in a single operation. They can be tractor pulled or self-propelled. The main components of a combine harvester include the cutting unit, threshing unit, separating unit, cleaning unit, and grain and straw handling units. It works by cutting crops, threshing them, separating the husk from grains, cleaning the grains, and storing them. The document also lists the requirements for an effective combine harvester.
crop harvester in agricultural approachSuchit Moon
This document describes the design and development of a crop harvester machine. It can cut dry stalks of crops like grains efficiently with less human effort. The machine has two cutting blades attached to separate shafts powered by a single cylinder engine through a transmission system of pulleys and belts. This simple design makes the harvester affordable for small farmers and easier to operate than manual harvesting. It can cut crops in two rows simultaneously and reduce labor costs. The document provides details of the various components, calculations for power transmission ratios, and diagrams of the design and working.
The combine harvester is a large, self-propelled machine that harvests grain crops by cutting them and then separating and collecting the grains. It performs two basic functions - reaping the crop by cutting it, and threshing to separate the grains from other debris. The manufacturing process involves cutting and welding steel into the body and grain tank structures, painting, and final assembly of major components like the engine. It works by gathering the crop with a header, reel, and cutter bar, then conveying it inside for threshing by a drum to separate grains, which fall into a collecting tank, while unwanted material is expelled out the back.
Turkey has a large agricultural sector, producing over 1/3 of its land area. It has a strong agricultural machinery industry with over 1000 manufacturers producing various equipment. While tractor production is dominated by a few large companies, most agricultural machinery producers are small family businesses. The agricultural machinery sector aims to increase exports and improve quality standards to be more competitive internationally.
Agro Buzz - Farm Mechanization in IndiaGodrejAgrovet
Mechanized agriculture has not been given its due in our country. While government efforts are in place, they are not significant in terms of crop productivity, farm incomes and the well-being of farmers in general.
1) Farm mechanization in India faces problems due to small land holdings, lack of knowledge and financial constraints among small farmers. Government initiatives to promote mechanization include training programs and subsidies.
2) The average farm power availability in India is 1.5 kW/ha but varies widely between states. States with higher availability such as Punjab have much higher agricultural productivity. In Assam, availability is only 0.8 kW/ha, below the national average.
3) Strategies to increase farm mechanization in India include developing equipment suitable for different terrains, establishing farm machinery banks, increasing average power availability, and strengthening collaboration between farmers and researchers.
To improve the quality of agriculture, we have developed a mechanism for cutting of different crops, so that harvesting can be done easily in minimum period of time.
To overcome all issues a new manually handled and engine operated cutter is fabricated for cutting of multiple types of crop like paddy, wheat, oil seeds, and pulses etc. named as “Multiple Crop Cutting Machine”. There is two types of blades are used according to need of crops. First is rotary blades, those crops needs high torque i.e. paddy, wheat this blades used. And another is reciprocating which is used for pulses and oil seeds.
A backgrounder on the farm mechanisation sector in India that was prepared for the EIMA Agrimach 2009. Agrimach is a flagship FICCI exhibition and conference on farm mechanisation in the country.
This document provides information on plant protection equipment used for applying pesticides and herbicides to crops. It discusses different types of sprayers and dusters, including manually operated, engine powered, and airplane models. The key components of sprayers are described, such as pumps, tanks, agitators, and nozzles. Different types of nozzles are outlined and factors for selecting the proper nozzles are explained. Safety precautions for operating plant protection equipment are also reviewed to prevent operator exposure to toxic chemicals.
Er. Uttam Raj Timilsina(MSc.Engineering,IIT Roorkee)
Professor of Agricultural Engineering,Agriculture and Forestry University (AFU), Rampur, Chitwan, Nepal
uttamrajtimilsina@gmail.com
*All Right Reserved**
Uploaded and Shared by AgriYouthNepal
There is greater adoption of mechanization in Indian agriculture to improve returns and sustainability. Tractor use is increasing, replacing manual and animal labor. The tractor industry has grown significantly over the years and is now the largest in the world, though still characterized by lower-horsepower models. Key drivers of continued growth include lower tractor penetration rates, government support for agriculture, an improved credit environment, labor shortages, and replacement demand. The market is dominated by a few major players and is expected to keep expanding.
The document discusses the status of farm mechanization in India, noting that strengthening farm power will be crucial to increase food production as India has a large agricultural workforce but low levels of farm mechanization compared to other countries. It provides details on the sources of farm power in India, which is currently dominated by tractors, and faces challenges of high costs, land fragmentation, and low tractor penetration that limit wider adoption of farm mechanization. However, the tractor market is expected to continue growing as it represents an opportunity to boost low agricultural productivity through the introduction of machinery.
Mechanization in agriculture refers to the use of machinery to support and enhance farming operations. Over the past few centuries, but particularly in the last 300 years, agricultural techniques have increasingly relied on mechanization to boost productivity and efficiency. The introduction of steam and gasoline-powered machines in the early 1900s drove a rapid decline in the percentage of the US workforce engaged in farming, from 38% to just 3% by century's end. Key farm equipment includes tractors for plowing and hauling, tillage implements for soil preparation, spraying devices for crop protection, combines for harvesting grains, and planters/seeders for establishing crops. Mechanization provides benefits like substituting for expensive labor and compensating for seasonal workload variations,
Er. Uttam Raj Timilsina(MSc.Engineering,IIT Roorkee)
Professor of Agricultural Engineering,Agriculture and Forestry University (AFU), Rampur, Chitwan, Nepal
uttamrajtimilsina@gmail.com
*All Right Reserved**
Uploaded and Shared by AgriYouthNepal
This document discusses tractor safety hazards and how to operate tractors safely. The five key mechanical hazards are roll-overs, run-overs, PTO hazards, mounting/dismounting, and noise. The five human factors that contribute to hazardous operation are risk taking behavior, insufficient training, physical limitations, impaired functions, and psychological limitations. The three main environmental hazards are broken ground, sloping ground, and climatic influences. The document provides guidance on controlling risks from each of these hazards.
The document discusses various types of agricultural equipment used on farms. It describes machinery that provides power to replace manual labor, improve work capacity, and ensure quality and uniform results. Some examples of agricultural equipment mentioned include tractors, sprayers, combines, planters, plows, balers, and loaders. Each type of equipment has a specific purpose, such as cultivating soil, planting seeds, harvesting crops, or transporting grain. In total, over 20 different pieces of machinery used in agriculture are identified and briefly described.
Amisy provide you with paddy/wheat reaper harvester of high quality. Also it can be matched with the walking tractor which is widely applicable to harvesting crop, especially for the harvest of muddy land.
The document provides details on the design process for modeling a harvest machine using 3D modeling software. Key parts like the cutter bar reel and pin were analyzed using finite element analysis to determine strength and durability. The design process section outlines how various parts like the header auger, header, and pin were created in the software. Sketches were made and extruded, sweeps and patterns were used to generate the final part geometries. The assembly process is also described with a flow chart showing how the individual parts were brought together.
An economic analysis of teff productivity, efficiency, and supply response in...essp2
International Food Policy Research Institute/ Ethiopia Strategy Support Program (IFPRI/ ESSP)and Ethiopian Development Research Institute (EDRI) Coordinated a conference with Agriculutral Transformation Agency (ATA) and Ministry of Agriculutrue (MoA) on Teff Value Chain at Hilton Hotel Addis Ababa on October 10, 2013.
IRIS SOLUTIONS A Leading R&D Company. Providing Latest IEEE Projects , Software & Embedded Courses.
FINAL YEAR STUDENT PROJECTS/ MINI PROJECTS/INPLANT TRAININGREALTIME PROJECT ASSISTANCE
EMBEDDED SYSTEM PROJECTS 2012-13:
WIRELESS BASED EMBEDDED SYSTEM PROJECT. ZIGBEE BASED WIRELESS SENSOR NETWORKS . IEEE SOLVED PAPERS PROJECT. RFID, SMART CARD AND FINGER PRINT PROJECT. GSM/GPRS/GPS. ROBOTICS PROJECT. ELECTRICAL BASED EMBEDDED SYSTEM PROJECT. POWER ELECTRONICS PROJECT. MATLAB PROJECT. IMAGE PROCESSING PROJECT*POWER ELECTRONIC ALL IEEE PAPARS…VLSI& MATLAB.
SAFTWARE PROJECTS:
JAVA/J2EE/J2ME PROJECTS. .Net PROJECTS,VB,C#. IMAGE PROCESSING PROJECTSFINAL YEAR PROJECTS FOR FOLLOWING DEGREES:
Research PapersM.E /M.TECH, MCA, M.ScB.E/ B.TECH (ECE, EEE, E&I, ICE, CSE, IT)DIPLOMA (ECE, E&I, EEE, CSE, IT, ROBOTICS)
HIGH QUALITY TRAINING AT AFFORDABLE COSTINVENTIVE IEEE 2011 BASED PROJECTS DETAILS & KEYTO EMERGE AS A INNOVATIVE EXPERTISE IN DIFFERENT FIELDSQUALIFIED INDUSTRIAL EXPERT FOR training FOR THE STUDENTSJOB SUPPORT FOR QUALIFIED CANDIDATES
Training For:
M.E /M.TECH, MCA, M.Sc(CSE, IT)B.E/ B.TECH (ECE, EEE, E&I, ICE, CSE, IT)DIPLOMA (ECE, E&I, EEE, CSE, IT, ROBOTICS)BCA, B.Sc (CSE, IT)
With Regards,
IRIS SOLUTIONS
Presentation at the Workshop on Crop Production Equipment for the System of Rice Intensification (SRI)
Presenter: Anizan Isahak
Authors: Anizan Isahak, Nur Izzad Fahmi, Firdaus Nordin and Febri Doni
Title: Prototype Transplanter: The Malaysian Rowcaster
Date: November 3, 2014
Venue: ACISAI, Asian Institute of Technology, Thailand
The document discusses maintenance and repairs for tractors. It recommends checking the owner's manual for maintenance schedules, obtaining the proper tools, protecting the tractor from weather, checking fluids regularly, and monitoring tire pressure. Common tractor issues covered include engines that won't start, produce black smoke, or take heavy loads. Solutions provided include cleaning air filters, adjusting valves, checking fuel systems, and repairing or replacing worn parts. Troubleshooting tips are also given for clutch, brake, hydraulic, and electrical systems. The document emphasizes following maintenance schedules and using the correct tools, fluids, and parts to keep tractors running properly.
Agro Buzz - Farm Mechanization in IndiaGodrejAgrovet
Mechanized agriculture has not been given its due in our country. While government efforts are in place, they are not significant in terms of crop productivity, farm incomes and the well-being of farmers in general.
1) Farm mechanization in India faces problems due to small land holdings, lack of knowledge and financial constraints among small farmers. Government initiatives to promote mechanization include training programs and subsidies.
2) The average farm power availability in India is 1.5 kW/ha but varies widely between states. States with higher availability such as Punjab have much higher agricultural productivity. In Assam, availability is only 0.8 kW/ha, below the national average.
3) Strategies to increase farm mechanization in India include developing equipment suitable for different terrains, establishing farm machinery banks, increasing average power availability, and strengthening collaboration between farmers and researchers.
To improve the quality of agriculture, we have developed a mechanism for cutting of different crops, so that harvesting can be done easily in minimum period of time.
To overcome all issues a new manually handled and engine operated cutter is fabricated for cutting of multiple types of crop like paddy, wheat, oil seeds, and pulses etc. named as “Multiple Crop Cutting Machine”. There is two types of blades are used according to need of crops. First is rotary blades, those crops needs high torque i.e. paddy, wheat this blades used. And another is reciprocating which is used for pulses and oil seeds.
A backgrounder on the farm mechanisation sector in India that was prepared for the EIMA Agrimach 2009. Agrimach is a flagship FICCI exhibition and conference on farm mechanisation in the country.
This document provides information on plant protection equipment used for applying pesticides and herbicides to crops. It discusses different types of sprayers and dusters, including manually operated, engine powered, and airplane models. The key components of sprayers are described, such as pumps, tanks, agitators, and nozzles. Different types of nozzles are outlined and factors for selecting the proper nozzles are explained. Safety precautions for operating plant protection equipment are also reviewed to prevent operator exposure to toxic chemicals.
Er. Uttam Raj Timilsina(MSc.Engineering,IIT Roorkee)
Professor of Agricultural Engineering,Agriculture and Forestry University (AFU), Rampur, Chitwan, Nepal
uttamrajtimilsina@gmail.com
*All Right Reserved**
Uploaded and Shared by AgriYouthNepal
There is greater adoption of mechanization in Indian agriculture to improve returns and sustainability. Tractor use is increasing, replacing manual and animal labor. The tractor industry has grown significantly over the years and is now the largest in the world, though still characterized by lower-horsepower models. Key drivers of continued growth include lower tractor penetration rates, government support for agriculture, an improved credit environment, labor shortages, and replacement demand. The market is dominated by a few major players and is expected to keep expanding.
The document discusses the status of farm mechanization in India, noting that strengthening farm power will be crucial to increase food production as India has a large agricultural workforce but low levels of farm mechanization compared to other countries. It provides details on the sources of farm power in India, which is currently dominated by tractors, and faces challenges of high costs, land fragmentation, and low tractor penetration that limit wider adoption of farm mechanization. However, the tractor market is expected to continue growing as it represents an opportunity to boost low agricultural productivity through the introduction of machinery.
Mechanization in agriculture refers to the use of machinery to support and enhance farming operations. Over the past few centuries, but particularly in the last 300 years, agricultural techniques have increasingly relied on mechanization to boost productivity and efficiency. The introduction of steam and gasoline-powered machines in the early 1900s drove a rapid decline in the percentage of the US workforce engaged in farming, from 38% to just 3% by century's end. Key farm equipment includes tractors for plowing and hauling, tillage implements for soil preparation, spraying devices for crop protection, combines for harvesting grains, and planters/seeders for establishing crops. Mechanization provides benefits like substituting for expensive labor and compensating for seasonal workload variations,
Er. Uttam Raj Timilsina(MSc.Engineering,IIT Roorkee)
Professor of Agricultural Engineering,Agriculture and Forestry University (AFU), Rampur, Chitwan, Nepal
uttamrajtimilsina@gmail.com
*All Right Reserved**
Uploaded and Shared by AgriYouthNepal
This document discusses tractor safety hazards and how to operate tractors safely. The five key mechanical hazards are roll-overs, run-overs, PTO hazards, mounting/dismounting, and noise. The five human factors that contribute to hazardous operation are risk taking behavior, insufficient training, physical limitations, impaired functions, and psychological limitations. The three main environmental hazards are broken ground, sloping ground, and climatic influences. The document provides guidance on controlling risks from each of these hazards.
The document discusses various types of agricultural equipment used on farms. It describes machinery that provides power to replace manual labor, improve work capacity, and ensure quality and uniform results. Some examples of agricultural equipment mentioned include tractors, sprayers, combines, planters, plows, balers, and loaders. Each type of equipment has a specific purpose, such as cultivating soil, planting seeds, harvesting crops, or transporting grain. In total, over 20 different pieces of machinery used in agriculture are identified and briefly described.
Amisy provide you with paddy/wheat reaper harvester of high quality. Also it can be matched with the walking tractor which is widely applicable to harvesting crop, especially for the harvest of muddy land.
The document provides details on the design process for modeling a harvest machine using 3D modeling software. Key parts like the cutter bar reel and pin were analyzed using finite element analysis to determine strength and durability. The design process section outlines how various parts like the header auger, header, and pin were created in the software. Sketches were made and extruded, sweeps and patterns were used to generate the final part geometries. The assembly process is also described with a flow chart showing how the individual parts were brought together.
An economic analysis of teff productivity, efficiency, and supply response in...essp2
International Food Policy Research Institute/ Ethiopia Strategy Support Program (IFPRI/ ESSP)and Ethiopian Development Research Institute (EDRI) Coordinated a conference with Agriculutral Transformation Agency (ATA) and Ministry of Agriculutrue (MoA) on Teff Value Chain at Hilton Hotel Addis Ababa on October 10, 2013.
IRIS SOLUTIONS A Leading R&D Company. Providing Latest IEEE Projects , Software & Embedded Courses.
FINAL YEAR STUDENT PROJECTS/ MINI PROJECTS/INPLANT TRAININGREALTIME PROJECT ASSISTANCE
EMBEDDED SYSTEM PROJECTS 2012-13:
WIRELESS BASED EMBEDDED SYSTEM PROJECT. ZIGBEE BASED WIRELESS SENSOR NETWORKS . IEEE SOLVED PAPERS PROJECT. RFID, SMART CARD AND FINGER PRINT PROJECT. GSM/GPRS/GPS. ROBOTICS PROJECT. ELECTRICAL BASED EMBEDDED SYSTEM PROJECT. POWER ELECTRONICS PROJECT. MATLAB PROJECT. IMAGE PROCESSING PROJECT*POWER ELECTRONIC ALL IEEE PAPARS…VLSI& MATLAB.
SAFTWARE PROJECTS:
JAVA/J2EE/J2ME PROJECTS. .Net PROJECTS,VB,C#. IMAGE PROCESSING PROJECTSFINAL YEAR PROJECTS FOR FOLLOWING DEGREES:
Research PapersM.E /M.TECH, MCA, M.ScB.E/ B.TECH (ECE, EEE, E&I, ICE, CSE, IT)DIPLOMA (ECE, E&I, EEE, CSE, IT, ROBOTICS)
HIGH QUALITY TRAINING AT AFFORDABLE COSTINVENTIVE IEEE 2011 BASED PROJECTS DETAILS & KEYTO EMERGE AS A INNOVATIVE EXPERTISE IN DIFFERENT FIELDSQUALIFIED INDUSTRIAL EXPERT FOR training FOR THE STUDENTSJOB SUPPORT FOR QUALIFIED CANDIDATES
Training For:
M.E /M.TECH, MCA, M.Sc(CSE, IT)B.E/ B.TECH (ECE, EEE, E&I, ICE, CSE, IT)DIPLOMA (ECE, E&I, EEE, CSE, IT, ROBOTICS)BCA, B.Sc (CSE, IT)
With Regards,
IRIS SOLUTIONS
Presentation at the Workshop on Crop Production Equipment for the System of Rice Intensification (SRI)
Presenter: Anizan Isahak
Authors: Anizan Isahak, Nur Izzad Fahmi, Firdaus Nordin and Febri Doni
Title: Prototype Transplanter: The Malaysian Rowcaster
Date: November 3, 2014
Venue: ACISAI, Asian Institute of Technology, Thailand
The document discusses maintenance and repairs for tractors. It recommends checking the owner's manual for maintenance schedules, obtaining the proper tools, protecting the tractor from weather, checking fluids regularly, and monitoring tire pressure. Common tractor issues covered include engines that won't start, produce black smoke, or take heavy loads. Solutions provided include cleaning air filters, adjusting valves, checking fuel systems, and repairing or replacing worn parts. Troubleshooting tips are also given for clutch, brake, hydraulic, and electrical systems. The document emphasizes following maintenance schedules and using the correct tools, fluids, and parts to keep tractors running properly.