特集 : 国別レポートが13,000件から検索可能になりました!

特集 : 海外市場の委託調査がセミカスタムベースでお手軽にできます

株式会社グローバルインフォメーション
TEL: 044-952-0102
表紙
市場調査レポート

オフハイウェイ車両の電化動向:世界市場の予測 ~2030年

Global Off-Highway Vehicle Electrification Trends, Forecast to 2030

発行 Frost & Sullivan 商品コード 916760
出版日 ページ情報 英文 104 Pages
納期: 即日から翌営業日
価格
本日の銀行送金レート: 1USD=107.71円で換算しております。
オフハイウェイ車両の電化動向:世界市場の予測 ~2030年 Global Off-Highway Vehicle Electrification Trends, Forecast to 2030
出版日: 2019年11月04日 ページ情報: 英文 104 Pages
概要

オフハイウェイ車両 (OHV) における電動車両の割合は、2030年には30%に達する見込みです。

当レポートでは、オフハイウェイ車両 (OHV) 市場における電化・ハイブリッド化の動向について調査し、主な技術動向、市場成長の促進要因・抑制要因、およおび競合企業の分析から市場の戦略的概要を提供するほか、オフハイウェイ商用車市場に影響を及ぼす主な市場概要・技術動向について分析しています。

エグゼクティブサマリー

調査範囲・目的・背景・手法

市場概要・分類

市場ダイナミクス

  • 市場促進要因
  • 促進要因の説明
  • 市場抑制要因
  • 抑制要因の説明

技術動向・分析

  • オフハイウェイ車両産業におけるハイブリッド化・電化の歴史的な発展
  • 世界の事業展望
  • 技術分析:技術ロードマップ
  • 技術ロードマップの説明
  • 建設機器の排ガスに影響する要因
  • ハイブリッドパワートレインのニーズ
  • 主なハイブリッドパワートレインのサブシステム
  • 排ガス基準のロードマップ
  • 排ガス基準
  • 排ガス基準:欧州
  • 排ガス基準:EPA
  • 排ガス基準:Bharat Stage (インド)

定量的予測

  • オフハイウェイ車両のハイブリッド化:市場展望
  • 世界の排ガス技術における開発の概要
  • 世界のオフハイウェイ車両出荷台数予測
  • 予測の前提条件
  • オフハイウェイ車両の電化動向:小型トラクター (19-56kW)
  • オフハイウェイ車両の電化動向:大型トラクター (56-160kW)
  • オフハイウェイ車両の電化動向:小型掘削機 (19-56kW)
  • オフハイウェイ車両の電化動向:大型掘削機 (56-160kW)
  • オフハイウェイ車両の電化動向:小型ローダー (19-56kW)
  • オフハイウェイ車両の電化動向:大型ローダー (56-160kW)
  • オフハイウェイ車両の電化動向:小型ドーザー (19-56kW)
  • オフハイウェイ車両の電化動向:大型ドーザー (56-160kW)
  • 予測の議論

競合情勢

  • CATERPILLAR INC.
  • LIEBHERR AG
  • TEREX Corporation
  • Volvo Construction Equipment
  • コマツ
  • Doosan Infracore
  • 日立建機
  • CNH Industrial NV
  • SANY HEAVY INDUSTRY CO.,LTD
  • ヤンマー、その他

成長機会

結論・将来の展望

付録

目次
Product Code: PA8A-18

Market Share of Electrically Driven Off-Highway Vehicles (OHVs) will Reach Up to 30% by 2030

This study's aim to benchmark the total market penetration of the potential off-highway electric powertrain market and study the existing machines running on electric and hybrid technology in global markets. OEM and engine Manufacturers are increasingly embracing the future Mega Trend of Zero Emissions by expanding their portfolio of powertrain options. Strengthening of emission regulations and the need for less fuel consumption have led to leading off-highway original equipment manufacturers and suppliers developing a range of hybrid technologies that will enable fuel savings of up to 50% as well as machinery with improved operability.

This study also identifies and analyzes key market trends affecting the growth of the market. It will provide a strategic overview of the market by analyzing key technology trends, market drivers, and restraints, along with a competitor analysis by analyzing competitive factors, competitor market shares, and product portfolios.

Hybrid and electric powertrains in construction equipment are becoming popular due to the significant cost savings that they are expected to have. With reduced fuel consumption, better overall energy efficiency, and reduced machine downtimes, they are expected to be well received in the off-highway equipment industry. This research provides a detailed forecast of market adoption of these alternate powertrains for each type of off-highway equipment used for specific construction applications.

The study also provides a market overview and technology trends impacting select off-highway commercial vehicle markets. An ongoing trend in the market is broadening the range of applications and driving down costs to enable further penetration of technologies. Hybrid and electric powertrains will establish a premium market segment globally and provide opportunities for original equipment manufacturers, suppliers, and service providers.

Research Scope:

The study provides market forecasts and trends that are analyzed for the study period of 2016 to 2030, with the base year being 2018.

The geographic scope of the study is global (North America, Europe, Asia, ROW (Rest of World consists of key markets in South America, Africa, the Middle East).

Key Issues Addressed:

  • What is the existing market structure of hybrid and electric powertrain in off-highway equipment across the globe?
  • Which equipment is expected to have high growth in the electrification space of OHV?
  • What are the growth drivers, challenges, and opportunities in the global market?
  • How does the competitive scenario evolve? What new products are offered, and what are the strategies towards electrification?
  • What are the existing machines running on electric and hybrid technology?

Table of Contents

Executive Summary

  • Key Findings and Future Outlook
  • Electrification in OHV-An Overview
  • Electrification in OHV-An Overview (continued)
  • OHV Vehicles Hybrid Technology Roadmap
  • Decline in Battery Prices to Drive Electrification
  • Product Mapping
  • Overview of Recent Electrified Off-road Vehicles
  • State of the Art-Examples
  • State of the Art-Examples (continued)
  • State of the Art-Examples (continued)
  • State of the Art-Examples (continued)

Research Scope, Objectives, Background, and Methodology

  • Research Scope
  • Research Aims and Objectives
  • Key Questions this Study will Answer
  • Research Methodology

Market Overview and Classification

  • Market Segmentation

Market Dynamics

  • Market Drivers
  • Drivers Explained
  • Market Restraints
  • Restraints Explained

Technology Trends and Analysis

  • Historical Development of Hybridization and Electrification in Off-Highway Vehicle Industry
  • Global Business Outlook
  • Technology Analysis-Technology Roadmap
  • Explanation of Technology Roadmap
  • Factors Affecting Construction Equipment Emissions
  • Factors Affecting Construction Equipment Emissions (continued)
  • Need for Hybrid Powertrain
  • Key Hybrid Powertrain Subsystems
  • Emission Regulation Global Snapshot
  • Emission Norms Roadmap
  • Emission Norms
  • Emission Norms-Euro Standards
  • Emission Norms-EPA Standards
  • Emission Norms-EPA Standards (continued)
  • Emission Norms-Bharat Stage
  • Emission Norms-Bharat Stage (continued)

Quantitative Forecast

  • Off-Highway Vehicle Hybridization-Market Outlook
  • Global Overview of the Development in Emission Technology
  • Global Off-Highway Vehicle Unit Shipment Forecast
  • Forecasting Assumptions
  • Off-Highway Vehicle Electrification Trend-Small Tractor (19-56 kW)
  • Forecast Discussion
  • Off-Highway Vehicle Electrification Trend-Large Tractor (56-160 kW)
  • Forecast Discussion
  • Off-Highway Vehicle Electrification Trend-Small Excavator (19-56 kW)
  • Forecast Discussion
  • Off-Highway Vehicle Electrification Trend-Large Excavator (56-160 kW)
  • Forecast Discussion
  • Off-Highway Vehicle Electrification Trend-Small Loader (19-56 kW)
  • Forecast Discussion
  • Off-Highway Vehicle Electrification Trend-Large Loader (56-160 kW)
  • Forecast Discussion
  • Off-Highway Vehicle Electrification Trend-Small Dozer (19-56 kW)
  • Forecast Discussion
  • Off-Highway Vehicle Electrification Trend-Large Dozer (56-160 kW)
  • Forecast Discussion

Competitive Landscape

  • CATERPILLAR INC.
  • OEM Profiles-Caterpillar
  • LIEBHERR AG
  • TEREX Corporation
  • Volvo Construction Equipment
  • OEM Profiles-Volvo
  • Komatsu Ltd.
  • Komatsu Ltd. (continued)
  • Doosan Infracore
  • Hitachi Construction Machinery
  • CNH Industrial NV
  • SANY HEAVY INDUSTRY CO.,LTD
  • YANMAR CO.,LTD.
  • Mitsubishi Heavy Equipment
  • OEM Profiles-Deutz-Heinzmann
  • OEM Profiles-Mecalac
  • Products Offered
  • Products Offered (continued)
  • Products Offered (continued)
  • Products Offered (continued)

Growth Opportunities

  • Collaboration-Global Opportunity
  • Collaboration-Global Opportunity (continued)
  • Strategic Imperatives for Success and Growth

Conclusions and Future Outlook

  • Key Conclusion
  • Key Conclusion (continued)
  • Legal Disclaimer

Appendix

  • Market Engineering Methodology
  • List of Exhibits
  • List of Exhibits (continued)
  • List of Exhibits (continued)
  • List of Exhibits (continued)
  • List of Exhibits (continued)