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ディーゼル発電設備の将来の発展および代替技術:2019-2029年

Diesel Generator Set Future Developments and Alternative Technologies 2019-2029

発行 IDTechEx Ltd. 商品コード 716060
出版日 ページ情報 英文 228 Pages
納期: 即日から翌営業日
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本日の銀行送金レート: 1USD=113.03円で換算しております。
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ディーゼル発電設備の将来の発展および代替技術:2019-2029年 Diesel Generator Set Future Developments and Alternative Technologies 2019-2029
出版日: 2018年10月04日 ページ情報: 英文 228 Pages
概要

当レポートでは、世界のディーゼル発電設備市場について調査し、アプリケーション、代替技術、市場、および特許の分析、市場予測、主要企業のプロファイルなどを提供しています。

第1章 エグゼクティブサマリー

第2章 現況・将来の発展

第3章 アプリケーション

  • ディーゼル発電設備のメリット
  • 通信
  • 鉱業
  • 石油・ガス
  • 農業
  • 建設
  • データセンター
  • 軍事
  • ユーティリティ
  • その他の産業:海洋・脱塩・水産養殖・病院、ほか

第4章 ディーゼル発電機の代替技術

  • LCOEについてのメモ
  • 代替燃料の発電機
  • ガス燃料タイプ
  • 天然ガス vs. ディーゼル
  • バイオディーゼル
  • CHP
  • 液体窒素/液体空気
  • 太陽光
  • パワーエレクトロニクス
  • 水上型太陽光発電システム
  • 風力
  • 風力 + ストレージ
  • 海洋エネルギー
  • 波力
  • 潮力
  • 燃料電池
  • 代替技術の比較、ほか

第5章 ハイブリッドシステム

  • エネルギーストレージ
  • 定置型ストレージの役割がますます重要に
  • エネルギーストレージ技術の性能比較
  • バッテリーのトリレンマ
  • リチウムイオン電池
  • バッテリーストレージのコスト削減
  • レドックスフロー電池
  • その他のストレージ技術
  • バッテリーレス化の範囲
  • フライホイール、ほか

第6章 市場分析

  • 世界のメガトレンド
  • 人口増加
  • 経済拡大
  • GDP成長
  • 気候変動
  • 都市化
  • 世界の電力需要
  • 市場成長の促進要因
  • 商品価格
  • 燃料経済
  • エネルギーシステムの変化
  • 規制
  • 規制タイムライン
  • 排出量削減
  • 環境意識
  • 市場成長の促進要因・抑制要因の対立

第7章 特許分析

  • 発電機設備の特許分析
  • 発電機設備の特許情勢概要
  • 発電機設備の特許譲受人分析
  • 後処理技術の特許分析
  • 後処理技術の特許譲受人分析
  • ハイブリッドシステムの特許分析
  • Caterpillar:近年の主要特許分析
  • Cummins:近年の主要特許分析

第8章 市場予測

  • 世界の発電機設備市場予測
  • ディーゼル・ガス発電機設備市場予測
  • 発電機設備レンタル市場予測
  • 予測の前提条件・分析
  • ディーゼル発電設備市場の予測:地域別
  • 地域別の予測分析
  • 電力需要の増加にも関わらず、アフリカで減少
  • 発電機設備の代替予測
  • 代替技術予測
  • 代替技術の予測分析

第9章 企業プロファイル

  • 発電機設備
    • ABB
    • Aggreko
    • Atlas Copco
    • Caterpillar
    • Cummins
    • Dearman
    • FG Wilson
    • Generac
    • GE Power
    • Himoinsa
    • JCB
    • Kohler
    • Mahindra Powerol
    • 三菱重工業
    • MTU Onsite Power
    • Wartsila
  • 代替技術
  • PV
    • 5B
    • Alta Devices
    • ECLIPS
    • Fraunhofer ISE
    • Heliatek
    • Oxford Photovoltaics
    • PWRstation
    • Renovagen
  • 燃料電池
    • Ballard
    • Gencell
    • Hydrogenics
  • 海洋エネルギー
    • Carnegie Wave Energy
    • Corpower Ocean
    • Eco Wave Power
    • Seabased
    • Wello Sweden
  • 風力
    • Ampyx
    • Inergys
    • Kite power Systems
    • Makani
    • TwingTec
    • Windlift
  • エネルギーストレージ
    • AES Energy Storage
    • Faradion
    • Primus Power
    • RedT
    • SonnenBatteries
    • Tesla
    • UniEnergy Technologies
目次

The use of diesel generator sets (gensets) has proliferated over the past decade as the primary choice for reliable mobile, stationary or temporary on-site power. Tightening emissions regulations, environmental concerns and plummeting renewable energy costs are putting increased pressure on the diesel genset industry. As manufacturers and suppliers of generator sets look to adapt to a changing energy system, there are a range of key technology developments that will play a crucial role in shaping future use.

The report provides an anatomy of the global diesel genset market, looking at key challenges surrounding genset components including exhaust aftertreatment technologies, engine control systems, load management and battery integration. Different genset operational modes and their use in a number of industries is examined in depth, looking at how future market developments will vary according to application. Due to cheap natural gas supply and lower emissions, alternative fuel gensets are on the rise and the report details the technical and market considerations and insight into both gas and dual-fuel gensets. Over 15 of the leading global genset manufacturers and suppliers are profiled and those with the most future proof strategies are dissected. A patent analysis chapter looks at the genset patent landscape, showing the most active patent assignees, key patent technology areas, patent trends that have evolved over time and some of the most significant IP of recent years.

Alternative renewable energy technologies, both with and without battery storage, including solar, wind, fuel cell, wave and tidal generation are covered in detail. The report evaluates the key characteristics of each technology, including case studies and future developments in the context of generator sets. Hybrid diesel/renewable/storage systems, often in a minigrid context, is identified as an area that will have an increasingly significant influence on future genset use. A hybrid component and system level analysis is presented, looking at design and management considerations relating to the integration of a genset with renewable energy and/or energy storage technologies as well as the most suitable business models and financing options available. Containerized hybrid systems and the potential value benefits that they can offer is also covered.

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The report includes ten year market forecasts for diesel generator sets, natural gas and alternative technology market values both globally and regionally. The forecasts are considered against key global megatrends and market drivers to provide valuable insight into future industry direction allowing the reader to understand the short-, medium- and long-term market sizes for each technology. IDTechEx forecasts are built up through a combination of detailed technical know-how, our long standing engagement with the technology community and our in-depth understanding of end-use markets. Cost projections are based upon our in-house bottom-up cost models.

Analyst access from IDTechEx

All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

Table of Contents

1. EXECUTIVE SUMMARY

  • 1.1. Diesel generator hybridisation presents the greatest potential
  • 1.2. A changing landscape
  • 1.3. Global generator set market forecast ($bn) 2019-2029
  • 1.4. Forecast analysis
  • 1.5. Alternative technologies forecast ($bn) 2019-2029
  • 1.6. Alternative technology forecast analysis
  • 1.7. Alternative technology comparison
  • 1.8. Power generating technology approximate scalability comparison

2. CURRENT STATE OF PLAY AND FUTURE DEVELOPMENTS

  • 2.1. News from 2018
  • 2.2. Anatomy of a diesel generator set
  • 2.3. Typical cost breakdown of a generator set system
  • 2.4. Diesel generator set basics
  • 2.5. Diesel generator set operational modes
  • 2.6. Diesel genset market
  • 2.7. Emissions
  • 2.8. Pollutants
  • 2.9. Fuel injection
  • 2.10. Diesel particulate filters (DPF)
  • 2.11. Selective catalytic reduction (SCR)
  • 2.12. Diesel oxidation catalysts (DOC)
  • 2.13. 'Dieselgate'
  • 2.14. Combined aftertreatment system
  • 2.15. Diesel aftertreatment technologies can be expensive
  • 2.16. Control systems
  • 2.17. Diesel technology timeline
  • 2.18. The advantages and limitations of a diesel generator set
  • 2.19. Why does the future of diesel generator sets matter?

3. APPLICATIONS

  • 3.1. Values benefits of diesel generator sets
  • 3.2. Telecoms
  • 3.3. Telecoms changing business models
  • 3.4. Telecoms
  • 3.5. Mining
  • 3.6. Mining industry diesel use
  • 3.7. Alternative technologies
  • 3.8. Factors driving change in the mining industry
  • 3.9. Global mining sites with 1MW+ solar or wind
  • 3.10. Oil & gas
  • 3.11. Diesel use in the oil & gas industry
  • 3.12. Agriculture
  • 3.13. Irrigation pumps in agriculture
  • 3.14. Technologies
  • 3.15. Solar irrigation system design
  • 3.16. Cost-benefit
  • 3.17. India leading the way
  • 3.18. Solar irrigation pumps in India
  • 3.19. Construction
  • 3.20. Data centres
  • 3.21. Data centre current power demand
  • 3.22. Data centre future power demand
  • 3.23. The importance of a reliable data centre power supply
  • 3.24. Military
  • 3.25. Challenges of military diesel consumption
  • 3.26. Utility diesel use
  • 3.27. Diesel generator value benefit to utilities
  • 3.28. Other industries; maritime, desalination, aquaculture, hospitals

4. DIESEL GENERATOR ALTERNATIVE TECHNOLOGIES

  • 4.1. A note on LCOE
  • 4.2. Alternative fuel generator sets
  • 4.3. Gas fuel types
  • 4.4. Natural gas vs diesel
  • 4.5. Natural gas generator set fuel efficiency
  • 4.6. Biodiesel
  • 4.7. CHP
  • 4.8. Liquid nitrogen / liquid air
  • 4.9. Replacing diesel generators in transport refrigeration
  • 4.10. Global generator set market share by fuel type 2017
  • 4.11. Solar
  • 4.12. Solar vs diesel cost analysis
  • 4.13. Future PV module price prediction
  • 4.14. Anatomy of a solar + battery system
  • 4.15. Power electronics
  • 4.16. Impact on renewable energy systems
  • 4.17. Main PV options beyond silicon
  • 4.18. Research-cell efficiencies of different solar technologies
  • 4.19. Metrics comparison of different PV technologies
  • 4.20. Which new solar technologies and characteristics will contribute to generator set replacement?
  • 4.21. Technology development roadmap of alternative PV technologies
  • 4.22. Mobile solar market penetration; small scale
  • 4.23. Mobile solar market penetration; small-to-medium scale
  • 4.24. Mobile market penetration; larger scale
  • 4.25. Floatovoltaics
  • 4.26. PV key points
  • 4.27. Wind
  • 4.28. Wind Energy Characteristics
  • 4.29. Wind does not downscale well
  • 4.30. Horizontal vs vertical axis
  • 4.31. Wind + storage
  • 4.32. How to capture the strongest winds
  • 4.33. Airborne Wind Energy (AWE)
  • 4.34. Why AWE may be better than a conventional wind turbine
  • 4.35. Main Airborne Wind Energy options taken seriously
  • 4.36. Makani-x
  • 4.37. Wind energy key points
  • 4.38. Ocean power
  • 4.39. Wave Power
  • 4.40. Wave power key technologies
  • 4.41. Wave power is already reducing island diesel generator dependence
  • 4.42. Tidal power
  • 4.43. Choice of open air and water turbines
  • 4.44. Ocean power characteristics
  • 4.45. Ocean power key points
  • 4.46. Fuel Cells
  • 4.47. Fuel Cell Challenges
  • 4.48. Fuel Cell Characteristics
  • 4.49. Fuel Cell Technologies
  • 4.50. Fuel Cells - ammonia to have big impact for off-grid
  • 4.51. Fuel cell key points
  • 4.52. Alternative technology comparison
  • 4.53. Power generating technology approximate scalability comparison

5. HYBRID SYSTEMS

  • 5.1. Energy storage
  • 5.2. The increasingly important role of stationary storage
  • 5.3. Performance comparison of energy storage technologies
  • 5.4. The battery trilemma
  • 5.5. Li-ion batteries
  • 5.6. Battery storage cost reductions
  • 5.7. Redox flow batteries
  • 5.8. Other storage technologies
  • 5.9. Scope for battery elimination
  • 5.10. Flywheels
  • 5.11. Vehicle Integration
  • 5.12. The importance of hybrid systems
  • 5.13. Rental business models are key
  • 5.14. Hybridization of a genset system
  • 5.15. Diesel + storage
  • 5.16. Diesel + storage system design
  • 5.17. Diesel + battery storage system operating mode
  • 5.18. Diesel + battery storage commercial example
  • 5.19. Solar/wind + diesel
  • 5.20. Cost efficient solar/wind + diesel
  • 5.21. Solar + diesel system design
  • 5.22. Solar + diesel system components
  • 5.23. Solar + diesel system operating conditions
  • 5.24. Solar + diesel + storage system design
  • 5.25. Solar + diesel case study
  • 5.26. Battery suitability
  • 5.27. Hybrid system operational scenarios case study
  • 5.28. Hybrid system scenarios case study analysis
  • 5.29. Hybrid system scenarios case study savings
  • 5.30. Typical hybrid system savings
  • 5.31. The key players recognise hybridisation is coming
  • 5.32. Those that embrace hybridisation will be the first to benefit from it
  • 5.33. Hybrid micro/mini grids
  • 5.34. Off-grid categories
  • 5.35. Hybrid micro/mini grids advantages
  • 5.36. Third party or mixed ownership and financing
  • 5.37. Hybrid microgrid system design
  • 5.38. ABB containerized microgrid
  • 5.39. Schneider Electric portable microgrid
  • 5.40. GE renewable hybrid power solution
  • 5.41. Hybrid microgrid island case study
  • 5.42. Hybrid microgrid commercial & industrial case study
  • 5.43. Microgrid-as-a-service case study
  • 5.44. Hybrid system key points

6. MARKET ANALYSIS

  • 6.1. Global Megatrends
  • 6.2. Population growth
  • 6.3. Economic growth
  • 6.4. GDP growth
  • 6.5. Climate Change
  • 6.6. Urbanisation
  • 6.7. Global power demand
  • 6.8. Market Drivers
  • 6.9. Commodity prices
  • 6.10. Fuel Economy
  • 6.11. A changing energy system
  • 6.12. Regulations
  • 6.13. Regulatory timeline
  • 6.14. Emissions reductions
  • 6.15. Environmental awareness
  • 6.16. Conflicting market drivers and restraints

7. PATENT ANALYSIS

  • 7.1. Generator set patent analysis
  • 7.2. Generator set patent landscape overview
  • 7.3. Generator set patent assignee analysis
  • 7.4. Aftertreatment technology patent analysis
  • 7.5. Aftertreatment technology patent assignee analysis
  • 7.6. Hybrid system patent analysis
  • 7.7. Caterpillar - recent key patent analysis
  • 7.8. Cummins - recent key patent analysis

8. MARKET FORECASTS

  • 8.1. Global generator set market forecast ($bn) 2019-2029
  • 8.2. Diesel and gas generator set market forecast ($bn) 2019-2029
  • 8.3. Generator set rental market forecast 2018
  • 8.4. Forecast assumptions & analysis
  • 8.5. Diesel generator set market forecast by region ($bn) 2019-2029
  • 8.6. Regional forecast analysis
  • 8.7. Decline in Africa despite increased power demand
  • 8.8. Generator set alternatives forecast ($bn) 2019-2029
  • 8.9. Alternative technologies forecast ($bn) 2019-2029
  • 8.10. Alternative technology forecast analysis

9. COMPANY PROFILES

  • 9.1. Generator sets:
    • 9.1.1. ABB
    • 9.1.2. Aggreko
    • 9.1.3. Atlas Copco
    • 9.1.4. Caterpillar
    • 9.1.5. Cummins
    • 9.1.6. Dearman
    • 9.1.7. FG Wilson
    • 9.1.8. Generac
    • 9.1.9. GE Power
    • 9.1.10. Himoinsa
    • 9.1.11. JCB
    • 9.1.12. Kohler
    • 9.1.13. Mahindra Powerol
    • 9.1.14. Mistubishi Heavy Industries
    • 9.1.15. MTU Onsite Power
    • 9.1.16. Wartsila
  • 9.2. Alternatives:
  • 9.3. PV
    • 9.3.1. 5B
    • 9.3.2. Alta Devices
    • 9.3.3. ECLIPS
    • 9.3.4. Fraunhofer ISE
    • 9.3.5. Heliatek
    • 9.3.6. Oxford Photovoltaics
    • 9.3.7. PWRstation
    • 9.3.8. Renovagen
  • 9.4. Fuel Cell
    • 9.4.1. Ballard
    • 9.4.2. Gencell
    • 9.4.3. Hydrogenics
  • 9.5. Ocean Power
    • 9.5.1. Carnegie Wave Energy
    • 9.5.2. Corpower Ocean
    • 9.5.3. Eco Wave Power
    • 9.5.4. Seabased
    • 9.5.5. Wello Sweden
  • 9.6. Wind
    • 9.6.1. Ampyx
    • 9.6.2. Inergys
    • 9.6.3. Kite power Systems
    • 9.6.4. Makani
    • 9.6.5. TwingTec
    • 9.6.6. Windlift
  • 9.7. Energy Storage
    • 9.7.1. AES Energy Storage
    • 9.7.2. Faradion
    • 9.7.3. Primus Power
    • 9.7.4. RedT
    • 9.7.5. SonnenBatteries
    • 9.7.6. Tesla
    • 9.7.7. UniEnergy Technologies
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