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市場調查報告書

燃氣渦輪機的全球市場:2016-2020年

Global Gas Turbine Market 2016-2020

出版商 TechNavio (Infiniti Research Ltd.) 商品編碼 358411
出版日期 內容資訊 英文 106 Pages
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燃氣渦輪機的全球市場:2016-2020年 Global Gas Turbine Market 2016-2020
出版日期: 2016年05月19日 內容資訊: 英文 106 Pages
簡介

燃氣渦輪機主要用於燃氣火力發電廠。利用混合燃料和空氣點火的內燃機,得到的高溫燃氣通過管嘴誘導至燃氣渦輪機內,用渦輪機的結構。燃氣渦輪機的全球市場,預計今後到2020年,表示3.49%的年複合成長率。

本報告以燃氣渦輪機的全球市場為焦點,提供各技術 (複合循環燃氣渦輪機、開放式循環燃氣渦輪機)、設計形式 (重結構燃氣渦輪機、航空轉用燃氣渦輪機)、終端用戶產業 (電力、運輸機器、石油、燃氣) 及地區 (亞太地區,南北美洲,歐洲、中東、非洲) 的現狀及今後變化,來自產業專業資訊基礎的市場推動要素,課題,趨勢,主要加入企業相關的調查、分析資訊彙整。

第1章 摘要整理

  • 焦點

第2章 報告的範圍

  • 市場概要
  • 主要企業銷售產品

第3章 市場調查的方法

  • 取材方式
  • 經濟指標

第4章 簡介

  • 市場的主要特徵

第5章 市場環境

  • 市場概要
  • 市場規模與預測 - 收益及設備容量
  • 波特的五力分析

第6章 市場推動要素

  • 正在提高燃氣渦輪機的效率和耐用性
  • 分散式發電的崛起
  • 運輸機器用燃氣渦輪機的需求增加
  • 二氧化碳排放的法規
  • 供給企業的體質強化
  • 低於其他低碳排放替代法的低額初期成本
  • 複合火力發電廠的增加

第7章 推動要素的影響度

第8章 市場課題

  • 天然氣價格的變動風險
  • 能源混合的轉換
  • 天然氣的蘊藏量與供給的不規則性
  • 天然氣處理固有的課題

第9章 推動要素與課題的影響度

第10章 市場趨勢

  • 複合火力發電及氣化複循環發電 (IGCC) 技術的開發
  • 石油價格低
  • F級燃氣渦輪機需求的急劇減少
  • 全世界的嚴格的政府法規
  • 替代燃料的利用增加 - 尤其是航空轉用燃氣渦輪機

第11章 市場區隔 - 各技術

  • 燃氣渦輪機的全球市場 - 各技術
  • 複合循環燃氣渦輪機
  • 開放式循環燃氣渦輪機

第12章 市場區隔 - 各設計形式

  • 燃氣渦輪機的全球市場 - 各設計形式
  • 重結構燃氣渦輪機
  • 航空轉用燃氣渦輪機

第13章 市場區隔 - 各終端用戶產業

  • 燃氣渦輪機的全球市場 - 各設計形式
  • 電力部門
  • 運輸機器部門
  • 石油、燃氣部門

第14章 地區市場區隔

  • 燃氣渦輪機的全球市場 - 各地區
  • 亞太地區
  • 南北美洲
  • 歐洲、中東、非洲

第15章 商業環境

  • 競爭情形
  • 其他有力供給企業

第16章 主要供給企業分析

  • Ansaldo Energia
  • GE
  • 川崎重工業株式會社
  • 三菱日立電力系統株式會社
  • Siemens
  • Solar Turbines

第17章 附錄

  • 簡稱一覽

第18章 關於Technavio

目錄
Product Code: IRTNTR9381

About the Gas Turbine Market

Gas turbines are used mainly in gas-fired power plants; these plants have an internal combustion engine wherein the fuel is mixed with air, leading to ignition. The resultant high-temperature gas is directed toward a gas turbine through a nozzle, which results in rotation of the turbine.

Technavio's analysts forecast the global gas turbine market to grow at a CAGR of 3.49% during the period 2016-2020.

Covered in this report

The report covers the present scenario and the growth prospects of the global gas turbine market for 2016-2020. The capacity additions of new gas turbines as well as aftermarket gas turbines in various end-user segments and the average price of various types of gas turbines have been considered in determining the market size.

The market is divided into the following segments based on geography:

  • Americas
  • APAC
  • EMEA

Technavio's report, Global Gas Turbine Market 2016-2020, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market.

Key vendors

  • Ansaldo Energia
  • GE
  • Kawasaki Heavy Industries
  • Mitsubishi Hitachi Power Systems
  • Siemens
  • Solar Turbines

Other Prominent Vendors

  • MAN Diesel and Turbo
  • Motor Sich
  • Niigata Power Systems
  • OPRA Turbines
  • Power Machines

Market driver

  • Increasing efficiency and durability of gas turbines
  • For a full, detailed list, view our report

Market challenge

  • Risk of volatility in natural gas prices
  • For a full, detailed list, view our report

Market trend

  • Stringent government regulations worldwide
  • For a full, detailed list, view our report

Key questions answered in this report

  • What will the market size be in 2020 and what will the growth rate be?
  • What are the key market trends?
  • What is driving this market?
  • What are the challenges to market growth?
  • Who are the key vendors in this market space?
  • What are the market opportunities and threats faced by the key vendors?
  • What are the strengths and weaknesses of the key vendors?

You can request one free hour of our analyst's time when you purchase this market report. Details are provided within the report.

Table of Contents

PART 01: Executive summary

  • Highlights

PART 02: Scope of the report

  • Market overview
  • Top-vendor offerings

PART 03: Market research methodology

  • Research methodology
  • Economic indicators

PART 04: Introduction

  • Key market highlights

PART 05: Market landscape

  • Market overview
  • Market size and forecast by revenue and capacity installed
  • Five forces analysis

PART 06: Market drivers

  • Increasing efficiency and durability of gas turbines
  • Rise in distributed power generation
  • Growing demand for gas turbines from mobility segment
  • Regulations on carbon emissions
  • Consolidation of market vendors
  • Lower initial cost than other low-carbon emission substitutes
  • Increase in CCGT power plants

PART 07: Impact of drivers

PART 08: Market challenges

  • Risk of volatility in natural gas prices
  • Change in energy mix
  • Irregularities in natural gas reserves and supplies
  • Inherent challenges of handling natural gas

PART 09: Impact of drivers and challenges

PART 10: Market trends

  • Development of GTCC and IGCC technologies
  • Low oil prices
  • Rapid decline in demand for F-class gas turbines
  • Stringent government regulations worldwide
  • Growing use of alternative fuels - especially in aeroderivative gas turbines

PART 11: Market segmentation by technology

  • Global gas turbine market by technology
  • Combined cycle gas turbines
  • Open cycle gas turbines

PART 12: Market segmentation by design type

  • Global gas turbine market by design type
  • Heavy-duty (frame) gas turbines
  • Aeroderivative gas turbines

PART 13: Market segmentation by end-user

  • Global gas turbine market by end-user
  • Global gas turbine market in power generation sector
  • Global gas turbine market in mobility sector
  • Global gas turbine market in oil and gas sector

PART 14: Geographical segmentation

  • Global gas turbine market by geography
  • APAC
  • Americas
  • EMEA

PART 15: Vendor landscape

  • Competitive scenario
  • Other prominent vendors

PART 16: Key vendor analysis

  • Ansaldo Energia
  • GE
  • Kawasaki Heavy Industries
  • Mitsubishi Hitachi Power Systems
  • Siemens
  • Solar Turbines

PART 17: Appendix

  • List of abbreviations

PART 18: Explore Technavio

List of Exhibits

  • Exhibit 01: Working principle of CCGT
  • Exhibit 02: Working principle of open cycle gas turbine
  • Exhibit 03: Characteristics of standard heavy-duty (frame) and aeroderivative gas turbines
  • Exhibit 04: Key countries in each region
  • Exhibit 05: Product offerings
  • Exhibit 06: Schematic diagram of gas turbine-based power plant
  • Exhibit 07: Available sources of power generation
  • Exhibit 08: Global gas turbine market
  • Exhibit 09: Global gas turbine market by revenue ($ billions) and capacity addition (GW) 2015-2020
  • Exhibit 10: Five forces analysis
  • Exhibit 11: Global distributed power growth by installed capacity, investment, and share of capacity addition 2000-2020
  • Exhibit 12: Technical and commercial maturity of different power generation technologies
  • Exhibit 13: Global marine fleet 2005-2014
  • Exhibit 14: Global economy GDP 2014-2020 ($ billions)
  • Exhibit 15: Marine trade volume demand 2015-2020 (millions of tons)
  • Exhibit 16: GHG emissions from different sectors
  • Exhibit 17: CO2 emission limits on new coal power plants across US, UK, and China
  • Exhibit 18: Power installation cost per kW of different power generation sources
  • Exhibit 19: Comparison between coal-fired and gas-fired plants
  • Exhibit 20: Share of CCGT in thermal power 2000-2014
  • Exhibit 21: Global electricity generation by fuel share 2003
  • Exhibit 22: Global electricity generation by fuel share 2013
  • Exhibit 23: US net energy generation 2010
  • Exhibit 24: US net energy generation 2015
  • Exhibit 25: Impact of drivers
  • Exhibit 26: Renewable investments 2010-2014 ($ billions)
  • Exhibit 27: Share of fossil fuels in global energy mix 2014 and 2035
  • Exhibit 28: Impact of drivers and challenges
  • Exhibit 29: Global gas turbine market by technology 2015 and2020
  • Exhibit 30: Gas turbine technology type in terms of revenue generation
  • Exhibit 31: Global combined cycle gas turbine market 2015-2020 ($ billions)
  • Exhibit 32: LCOE of CCGT in comparison to its substitutes
  • Exhibit 33: Global open cycle gas turbine market 2015-2020 ($ billions)
  • Exhibit 34: Comparison of efficiency among prominent gas turbine models in open cycle and combined cycle configurations
  • Exhibit 35: Global gas turbine market by design type 2015 and 2020
  • Exhibit 36: Gas turbine design types in terms of revenue generation 2015-2020
  • Exhibit 37: Global heavy-duty (frame) gas turbine market 2015-2020 ($ billions)
  • Exhibit 38: Heavy-duty (frame) turbines with high thermal efficiency
  • Exhibit 39: Global aeroderivative gas turbine market 2015-2020 ($ billions)
  • Exhibit 40: Operational characteristics of gas-fired electricity generation
  • Exhibit 41: Global gas turbine market by end-user 2015 and 2020
  • Exhibit 42: Gas turbine end-user in terms of revenue generation
  • Exhibit 43: Impact of major end-users on market
  • Exhibit 44: Global gas turbine market in power generation sector 2015-2020 ($ billions)
  • Exhibit 45: Fuel cost for gas turbine power plants in various regions 2020
  • Exhibit 46: Global gas turbine market in mobility sector 2015-2020 ($ billions)
  • Exhibit 47: Global gas turbine market in oil and gas sector 2015-2020 ($ billions)
  • Exhibit 48: Global gas turbine market by geography 2015-2020
  • Exhibit 49: Gas turbine market in APAC 2015-2020 ($ billions)
  • Exhibit 50: Generation cost in APAC (c/kWh)
  • Exhibit 51: Gas turbine market in Americas 2015-2020 ($ billions)
  • Exhibit 52: Gas turbine market in EMEA 2015-2020 ($ billions)
  • Exhibit 53: Major M&A activities in market
  • Exhibit 54: Market share of key vendors in 2010 and 2015
  • Exhibit 55: Geographical presence of key vendors
  • Exhibit 56: Top end-users in terms of revenue for key vendors in market
  • Exhibit 57: Key vendors and their presence in global gas turbine market by design type
  • Exhibit 58: Vendor portfolio analysis
  • Exhibit 59: Other prominent gas turbine manufacturers
  • Exhibit 60: Solar Turbines: Key gas turbine-driven generator models
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