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建設業、農業、鉱業向け電動車両 2015-2025年:ハイブリッド自動車と純電動の建設、メンテナンス、農業、鉱業向け車両の技術、市場
Electric Vehicles for Construction, Agriculture and Mining 2015-2025:Hybrid & pure electric construction, maintenance, agriculture, mining vehicles technology, markets
■商品番号 idtcamev ■出版日 2014-10-01
■出版社 ID TechEx ■ページ数 111
■図表数 67 ■価格 U$ 3,495
■商品形態 電子媒体    
注:外貨表示の価格は購入申込日のTTSレートで換算し、消費税を加えたものが商品の購入価格になります。
レポート概要
この調査レポートは、鉱業、農業、建設業向け電動式車両市場を調査・分析しています。

主な掲載内容
採鉱用車両
建設用車両と農業用車両
クレーン、リフター、移動発射台
鉱業、農業、建設業向け電動車両の主要対応技術

目次

Table of Contents

1. EXECUTIVE SUMMARY AND CONCLUSIONS

1.1. Overview
1.2. Value proposition and environmental restrictions
1.3. Forecasts
1.4. Autonomous vehicles for agriculture and mining
1.5. Examples of cranes and lifters
1.6. Caterpillar and Komatsu move to energy harvesting on hybrid electric vehicles

2. MINING ELECTRIC VEHICLES

2.1. Overview
2.1.1. Underground mining
2.1.2. The cost of clean air
2.1.3. Greater depth, greater benefits
2.1.4. Open cast mining
2.1.5. Photovoltaics: threat and salvation
2.2. Mining Industry Vehicle Outlook 2013 2025
2.2.1. 2013 market estimate
2.2.2. Caterpillar USA, Komatsu Japan, Atlas Copco Sweden
2.2.3. Sandvik Sweden
2.2.4. Joy Global USA
2.2.5. PapaBravo Canada
2.2.6. Mining vehicles market estimate 2013
2.3. The state of the mining industry
2.4. Thermal coal in structural decline
2.5. Roadmap to electrification of mining vehicles
2.5.1. Asia's growing mining industry, increasingly exploited with electric vehicles: Shaanxi Tongyun China, XEMC China etc
2.5.2. Canadian government supports hybrid diesel electric loaders
2.6. Pioneer companies in electrification
2.6.1. Atlas Copco Sweden
2.7. Forecast: mining electric vehicles 2014 2025
2.7.1. Legal push
2.8. EPA's regulation on non-road diesel engines
2.8.1. Overview
2.8.2. Non-road emissions reductions

3. CONSTRUCTION AND AGRICULTURE VEHICLES

3.1. Construction and agricultural electric vehicles
3.1.1. Overview
3.1.2. Market drivers
3.2. Pioneers in electrification of construction and agriculture vehicles
3.2.1. Caterpillar
3.2.2. Caterpillar - BAE Systems UK
3.2.3. John Deere (Deere and Company) USA
3.2.4. Mitsubishi Japan
3.2.5. Multi Tool Trac Netherlands
3.3. Agriculture industry vehicle market
3.3.1. Overview
3.3.2. Agricultural vehicle electrification
3.3.3. The need for a standardised communication system in Agricultural Machines
3.3.4. AGCO Fendt Germany
3.3.5. John Deere USA
3.3.6. Merlo Italy
3.3.7. New Holland (Fiat Italy)
3.3.8. Robots in agriculture
3.4. Construction and agriculture vehicle market and players
3.4.1. Mahindra & Mahindra
3.4.2. John Deere USA
3.4.3. JCB UK
3.4.4. Agricultural vehicle market by company
3.4.5. Construction vehicle market by company
3.4.6. Forecast for construction and agricultural electric vehicles 2014-2025

4. CRANES, LIFTERS, MOBILE PLATFORMS

4.1. Overview

5. KEY ENABLING TECHNOLOGIES IN MINING, AGRICULTURAL AND CONSTRUCTION ELECTRIC VEHICLES

5.1. Overview
5.2. Batteries and voltages
5.2.1. Batteries
5.2.2. Voltages
5.3. Supercapacitors
5.3.1. VISEDO Finland
5.3.2. Supercapacitors in Port Cranes: Maxwell Technologies USA, Ioxus USA, VISEDO Finland
5.4. Range extenders and fuel cells
5.5. Electric Motors
5.5.1. Benefits of electric motors in agricultural machines.
5.5.2. Design aspects
5.5.3. Regenerative braking considerations
5.5.4. Reducing limitations: trend by type
5.5.5. Motor technology by type of vehicle
5.5.6. Detailed design studies still come up with opposite conclusions
5.5.7. Over supply initially
5.5.8. Switched reluctance motors a disruptive traction motor technology?
5.5.9. Three ways that traction motor makers race to escape rare earths
5.6. New power electronics
5.6.1. Increased performance and complexity
5.6.2. Wide band gap semiconductors
5.7. Autonomous vehicles in mining and agricultural applications (Velodyne, Caterpillar, Renault, Google, Radiohead)
5.7.1. Google USA Renault France
5.7.2. Mining vehicles, autonomous: Caterpillar USA, Velodyne USA
5.7.3. Impact of Autonomous Mining Machines

6. REFERENCES

IDTECHEX RESEARCH REPORTS AND CONSULTANCY

TABLES

1.1. Forecasts for mining electric vehicles 2014-2025
1.2. Forecasts for electric construction and agricultural vehicles 2014-2025
1.3. Forecasts for heavy mobile cranes electric vehicles 2014-2025
1.4. Forecasts for indoor cranes/platform lifters 2014-2025
2.1. Mining Vehicles market estimate 2013 (Equipment and services)
2.2. Mining Vehicles market estimate 2013 (Equipment)
2.3. Global demand for steel, aluminium, copper and coal
2.4. Forecasts for mining electric vehicles 2014-2025
3.1. Agricultural vehicle market by company and revenue 2012-2013
3.2. Construction vehicles market estimate 2013 (Equipment and services).
3.3. Forecasts for electric construction and agricultural vehicles 2014-2025
4.1. Forecasts for heavy mobile cranes electric vehicles 2014-2025
4.2. Forecasts for indoor cranes/platform lifters 2014-2025
5.1. Some popular or researched options for lithium-ion batteries
5.2. 143 manufacturers and putative manufacturers of lithium-based rechargeable batteries with country, cathode and anode chemistry, electrolyte morphology, case type, applicational priorities and customer relationships, if any, in sel
5.3. Some common differences between the requirements of traction motors for pure electric vs hybrid electric traction vehicles
5.4. Examples of traditional limitations and market trends by type of basic design of traction motor
5.5. Summary of preferences of traction motor technology for vehicles

FIGURES

1.1. Forecasts for mining electric vehicles 2014-2025
1.2. Forecasts for electric agricultural and construction vehicles 2014-2025
1.3. Forecasts for heavy mobile cranes electric vehicles 2014-2025
1.4. Forecasts for indoor cranes/platform lifters 2014-2025
1.5. Grizzly robot electric vehicle for agriculture and mining
1.6. Sanyo vehicle with extending solar panels for charging when stationary and mine with electric trucks using local solar and wind
1.7. Energy and work synchronization
1.8. Bailey hybrid electric crane
1.9. Konecranes hybrid electric stacker
1.10. Pure electric manlift
2.1. Challenges in mining
2.2. Mass, energy and information flow in mining
2.3. Average fuel prices in Canada, cents per litre
2.4. Typical mine haul truck in Canada
2.5. Haul truck cost structure in mining
2.6. The electrified open cast mine using pure electric haul trucks and rail-veyors
2.7. Economics of electric haul trucks with rail-veyors compared with conveyors
2.8. The self-powered, electrified open-cast mine with energy-work synchronisation
2.9. Pure electric light mining vehicles
2.10. A Canadian loader by Mining Technologies International, equipped with a hybrid battery-diesel supply system
2.11. Tiers 1-4 non-road emissions standards
3.1. Example of projection of slow progress to volume production of electrically propelled agricultural vehicles
3.2. The Caterpillar 336E H is the brand's first hybrid electric excavator.
3.3. John Deere's 644 K hybrid electric loader
3.4. Mitsubishi pure electric micro-truck based on MiEV car being used in farming experiment.
3.5. Multi Tool Trac e-tractor
3.6. Anatomy of MTT tractor
3.7. Superlatives of hybrid tractor
3.8. ECO vehicle
3.9. New Holland fuel cell tractor
4.1. Forecasts for heavy mobile cranes electric vehicles 2014-2025
4.2. Mobile electric scissor lift by Wuhan Chancay Machinery and Electronics
4.3. Forecasts for indoor cranes/platform lifters 2014-2025
5.1. Voltage and other trends in pure electric vehicles
5.2. Stone crusher
5.3. The configuration of the module in the electric drive train
5.4. Fuel cell disillusion in agriculture
5.5. Second generation fuel cell tractor project
5.6. Second generation fuel cell tractor system
5.7. Comparison of standard and high speed motor suitable for vehicle traction
5.8. Choice of drive motor
5.9. Development of a model range of electric motors for agricultural machines
5.10. GaN Systems capability late 2014
5.11. Laser sensor on Google prototype
5.12. Google's last prototype of self driving car
5.13. Caterpillar's Command Autonomous hauling truck
5.14. Close up of Lidar radar on Caterpillar hauling truck
5.15. Lidar captures party sequence in Radiohead's House of Cards 3D data music video
5.16. Lidar mounted in a vehicle captures out door sequence in Radiohead's House of Cards 3D data music video


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