浮体式LNG発電設備の世界市場予測(~2023年)

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◆英語タイトル:Floating LNG Power Vessel Market by Component (Power Generation System and Power Distribution System), Power Output (Up to 72 MW, 72 MW-400 MW, Above 400 MW), Vessel Type (Power Barge and Power Ship), and Region - Global Forecast to 2023
◆発行会社/調査会社:MarketsandMarkets
◆商品コード:EP-6551
◆発行日:2018年8月24日
◆調査対象地域:グローバル
◆産業分野:エネルギー・電力
◆ページ数:117
◆レポート言語:英語
◆レポート形式:PDF
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MarketsandMarketsが発行した当調査レポートでは、浮体式LNG発電設備の世界市場について調査・分析し、エグゼクティブサマリー、市場インサイト、市場概観/市場動向、コンポーネント(発電システム、配電システム)分析、電力出力(72MW未満、72MW~400MW、400MW超)分析、船舶タイプ(パワーバージ、パワーシップ)分析、浮体式LNG発電設備の世界市場規模及び予測、市場動向、競争状況、関連企業分析などの情報をお届けいたします。
*** レポート概要(サマリー)***

The global floating LNG power vessel market is projected to reach a market size of USD 931.6 million by 2023 from an estimated USD 860.1 million in 2018, at a CAGR of 1.61%. This growth can be attributed to the increasing demand for power, lack of power infrastructure, and added benefits over land-based power plants.
The report segments the floating LNG power vessel market, by vessel type, into power barge and power ship. The power ship segment is expected to hold the largest market share by 2023. The power ship is generally used in the energy leasing market for short- and mid-term contracts because of its self-propelling property. Karadeniz Holding (Turkey) dominates the supply of power ships in the market. Most of the projects use power between 100 MW and 150 MW and run on liquid fuel or natural gas, which are expected to witness high growth in the market.

The floating LNG power vessel market, by component, is segmented into the power generation system and power distribution system. The power generation system segment is expected to dominate the floating LNG power vessel market by 2023. It is further classified into gas turbine & IC engine and steam turbine & generator. Gas turbine & IC engine are the two key components in the floating power generation system market. The gas engine technologies can be connected to the existing gas pipeline system to avoid diesel fuel supply issues that occur during natural calamities, whereas IC engines are used in floating LNG power applications with a power output between 5.0 MW and 20.0 MW.

In this report, the floating LNG power vessel market has been analyzed with respect to 4 regions, namely, North America, the Middle East & Africa, Asia Pacific, and the RoW. The Asia Pacific market is estimated to be the largest floating LNG power vessel market from 2018 to 2023. The growth of population in the Asia Pacific region has increased the demand for electricity, which is one of the major factors driving the floating LNG power vessel market. Also, the governments of several countries are spending heavily to meet the increased demand for power. For instance, Karpowership, one of the leading players in the power ship market, was awarded a contract by Myanmar Electric Power Generation Enterprise to provide an FPP in Rangoon, Myanmar. Such activities are expected to drive the floating LNG power vessel market in the region.

The high capital cost associated with the operations, maintenance, transportation, and logistics, price disparity across regional markets, and increasing focus on renewable energy could act as restraints for the floating LNG power vessel market. The leading players in the floating LNG power vessel market include Siemens AG (Germany), MAN Diesel & Turbo SE (Germany), Wärtsilä Corporation (Finland), General Electric Company (US), and Caterpillar Inc. (US). Contracts & agreements is the most commonly adopted strategy by the top players. It is followed by new product launches and partnerships, collaborations, alliances, and joint ventures.

Opportunities
Stringent emission norms for diesel engine powered marine gensets & rise in hybrid fuel engines
The demand for marine gensets operating on diesel fuel oil as well as natural gas (LNG) has increased. The gas and fuel oil hybrid increases fuel efficiency and lowers the cost of operations. The maintenance cost of operating hybrid gensets is also lesser as compared to single fuel oil powered marine genset. Operation & maintenance costs are an important factor for the end-user. Lower emissions than only-diesel gensets is another advantage of hybrid-fuel powered marine gensets, especially the ones with natural gas and diesel fuel option. Hybrid gensets produce a less volume of sulfur oxides (SOx) as well as NOx and particulate matter emissions. These advantages along with stringent emission norms have increased the demand for hybrid-fuel powered marine gensets and have created new opportunities for the component manufacturers in the floating LNG Power Vessel market.

Growth in adoption of LNG as an energy source
According to the International Energy Outlook 2017 (IEO2017), the world’s natural gas producers are expected to increase supplies by 42% from 2015 to 2040. In Russia, the production of natural gas is expected to increase mainly due to increasing development of resources in the country’s Arctic and eastern regions. The US production growth is mainly from shale resources. In China, production would increase due to the development of shale resources, which are projected to account for over half of the country’s total natural gas production by 2040. The comparatively lesser emissions of natural gas-fired power plants at costs that are lower than renewable energy generation are providing an alternative to utilities facing stringent emission regulations. Utilities in the US have responded to the tough emission regulations on coal plants by switching to natural gas-fired power generation. Policy makers are also seeking to leverage gas-fired plants as an option to help reduce overall emissions in the near term. Cleaner gas-fired electricity generation is expected to drive the LNG power generation market. The benefits of floating power plants would provide a growth opportunity for the floating LNG power vessel market.

Challenges
Growth in distributed energy generation
Distributed generation is the act of power generation carried out at or close to the point of end-use. Distributed generation systems are generally defined as being less than 100 MW in capacity (typically less than 50 MW) and can be stationary as well as mobile in nature. Distributed power technology includes solar panels, gas and diesel engines, small wind turbines, fuel cells, and gas turbines. The demand for energy from distributed energy resources has grown globally due to several reasons, such as planned rolling blackouts, power quality problems, unexpected utility power outages, and increases in power costs. Instead of relying totally on utilities for power needs, end-users, which include residential, commercial, and industrial customers, have started generating power from distributed energy sources. This approach is backed by incentives offered by governments, such as net metering and feed-in tariffs, among others. The General Electric Company (U.S.) estimates that annual distributed power capacity additions will rise from 142 GW in 2012 to 200 GW by 2020, while investments in distributed power technologies will grow to USD 206 billion by 2020. Meanwhile, utilities have also started shifting their business models from directly selling electricity to involving end-users as a part of their business to cater to the peak demand without large-scale capacity additions. This, in turn, will eliminate the need for the construction of a new power plant. Hence, the distributed generation resources could pose a challenge for the floating LNG Power Vessel market.

Gas Turbine
Company Names

Kawasaki Heavy Industries (Japan)

Mitsubishi Hitachi Power Systems, Ltd (MHPS) (Japan)

Ansaldo (Italy)

Harbin Electric (China)

OPRA (Netherland)

OPRA (Netherland)

Vericor Power (US)

Bharat Heavy Electricals Limited (BHEL) (India)

Centrax (UK)

Zorya (Ukraine)

Note: The list mentioned are for companies which provide these components. They may or may not operate in the floating power plant industry.

Steam Turbine
Company Names

Toshiba Corporation (Japan)

Mitsubishi Hitachi Power Systems, Ltd (MHPS) (Japan)

Eliott Group (Japan)

Ansaldo Energia (Italy)

Shanghai Electric Group Co. Ltd. (China)

Dongfang Electric Corporation Limited (China)

Harbin Electric International Company Limited (China)

Doosan Skoda Power (Czech Republic)

Bharat Heavy Electricals Limited (BHEL) (India)

Fuji Electric Co., Ltd. (Japan)

Note: The list mentioned are for companies which provide these components. They may or may not operate in the floating power plant industry.

Power Transformers
Company Names

ABB (Switzerland)

Crompton Greaves Ltd. (India)

Toshiba Corporation (Japan)

Hyundai Heavy Industries (South Korea)

Mitsubishi Electric Corporation (Japan)

Hyosung Corporation (South Korea)

Bharat Heavy Electricals Limited (BHEL) (India)

SPX Transformer Solutions, Inc. (US)

Note: The list mentioned are for companies which provide these components. They may or may not operate in the floating power plant industry.

Switchboard
Company Names

ABB (Switzerland)

Mitsubishi Electric Corporation (Japan)

Eaton Corporation (Republic of Ireland)

Rockwell Automation (US)

Schneider Electric (France)

Emerson Electric Company (US)

Note: The list mentioned are for companies which provide these components. They may or may not operate in the floating power plant industry.

*** レポート目次(コンテンツ)***

Table of Contents

1 Introduction (Page No. – 13)
1.1 Objectives of the Study
1.2 Definition
1.3 Market Scope
1.3.1 Markets Covered
1.3.2 Regions Covered
1.4 Years Considered for the Study
1.5 Currency
1.6 Stakeholders

2 Research Methodology (Page No. – 16)
2.1 Research Data
2.1.1 Secondary Data
2.1.1.1 Key Data From Secondary Sources
2.1.2 Primary Data
2.1.2.1 Key Data From Primary Sources
2.1.2.2 Key Industry Insights
2.1.2.3 Breakdown of Primaries
2.2 Market Size Estimation
2.2.1 Bottom-Up Approach
2.2.2 Top-Down Approach
2.3 Market Breakdown & Data Triangulation
2.4 Limitations
2.5 Assumptions

3 Executive Summary (Page No. – 24)

4 Premium Insights (Page No. – 28)
4.1 Floating LNG Power Vessel Market Overview
4.2 Floating LNG Power Vessel Market, By Vessel Type
4.3 Floating LNG Power Vessel Market: Component & Region
4.4 Floating LNG Power Vessel Market, By Power Output (2018–2023)
4.5 Floating LNG Power Vessel Market, By Component (2018–2023)
4.6 Power Generation Systems Floating LNG Power Vessel Market, By Key Components (2018)
4.7 Power Distribution Systems Floating LNG Power Vessel Market, By Key Components (2018)

5 Market Overview (Page No. – 32)
5.1 Introduction
5.2 Market Dynamics
5.2.1 Drivers
5.2.1.1 Increasing Demand for Power, Coupled With the Lack of Power Infrastructure
5.2.1.2 Benefits Over Land-Based Power Plants
5.2.2 Restraints
5.2.2.1 High Operating Cost Associated With Transportation, Logistics, & Accessibility Issues
5.2.2.2 Price Disparity Across Regional Markets
5.2.2.3 Increasing Focus on Renewable Energy – Floating Power Plants
5.2.3 Opportunities
5.2.3.1 Stringent Emission Norms for Diesel Engine Powered Marine Gensets & Rise in Hybrid Fuel Engines
5.2.3.2 Growth in Adoption of LNG as an Energy Source
5.2.4 Challenges
5.2.4.1 Growth in Distributed Energy Generation

6 Floating LNG Power Vessel Market, By Vessel Type (Page No. – 39)
6.1 Introduction
6.2 Power Barge
6.3 Power Ship

7 Floating LNG Power Vessel Market, By Power Output (Page No. – 42)
7.1 Introduction
7.2 Small Scale (Up to 72 MW)
7.3 Medium Scale (>72 MW–400 MW)
7.4 High Scale (>400 MW)

8 Floating LNG Power Vessel Market, By Component (Page No. – 46)
8.1 Introduction
8.2 Power Generation System
8.2.1 Gas Turbine & IC Engine
8.2.2 Steam Turbine & Generator
8.3 Power Distribution System
8.3.1 Transformer
8.3.2 Switchboard

9 Floating LNG Power Vessel Market, By Region (Page No. – 52)
9.1 Introduction
9.2 Asia Pacific
9.2.1 By Component
9.2.2 By Power Output
9.3 Middle East & Africa
9.3.1 By Component
9.3.2 By Power Output
9.4 North America
9.4.1 By Component
9.4.2 By Power Output
9.5 Rest of the World
9.5.1 By Component
9.5.2 By Power Output

10 Competitive Landscape (Page No. – 61)
10.1 Overview
10.2 Key Players & Market Structure
10.3 Competitive Scenario
10.3.1 Contracts & Agreements
10.3.2 New Product Launches
10.3.3 Partnerships, Collaborations, Alliances, and Joint Ventures
10.4 List of Component Providers
10.4.1 Gas Turbine
10.4.2 Steam Turbine
10.4.3 Power Transformers
10.4.4 Switchboard

11 Company Profiles (Page No. – 67)
(Business Overview, Products Offered, Recent Developments, MnM View)*
11.1 Floating Power Vessel Manufacturers
11.1.1 Benchmarking
11.1.2 Waller Marine, Inc.
11.1.3 Karpowership
11.1.4 Power Barge Corporation
11.1.5 Modec, Inc.
11.1.6 Chiyoda Corporation
11.1.7 Wison Group
11.1.8 Samsung Heavy Industries Co., Ltd
11.1.9 Sevan Marine Asa
11.1.10 Hyundai Heavy Industries Co., Ltd.
11.1.11 IHI Corporation
11.1.12 Mitsui O.S.K. Lines, Ltd.
11.1.13 Mitsubishi Heavy Industries, Ltd.
11.2 Component Provider
11.2.1 Benchmarking
11.2.2 General Electric Company
11.2.3 Siemens AG
11.2.4 Wärtsilä Corporation
11.2.5 Man Diesel & Turbo SE
11.2.6 Caterpillar, Inc.

*Details on Business Overview, Products Offered, Recent Developments, MnM View Might Not Be Captured in Case of Unlisted Companies.

12 Appendix (Page No. – 100)
12.1 Insights of Industry Experts
12.2 Discussion Guide
12.3 Knowledge Store: Marketsandmarkets’ Subscription Portal
12.4 Available Customizations
12.5 Related Reports
12.6 Author Details

List of Tables (27 Tables)

Table 1 Global Floating LNG Power Vessel Market Snapshot
Table 2 Global Urban Population Overview, By Region - 1990, 2014, 2030, and 2050
Table 3 Global Access to Electricity, By Region (2016)
Table 4 Floating LNG Power Vessel Market, By Vessel Type, 2016–2023 (USD Million)
Table 5 Floating LNG Power Vessel Market, By Power Output, 2016–2023 (USD Million)
Table 6 Small Scale: Floating LNG Power Vessel Market Size, By Region, 2016–2023 (USD Million)
Table 7 Medium Scale: Floating LNG Power Vessel Market Size, By Region, 2016–2023 (USD Million)
Table 8 High Scale: Floating LNG Power Vessel Market Size, By Region, 2016–2023 (USD Million)
Table 9 Floating LNG Power Vessel Market, By Component, 2016–2023 (USD Million)
Table 10 Power Generation System: Floating LNG Power Vessel Market Size, By Region, 2016–2023 (USD Million)
Table 11 Power Generation System: Floating LNG Power Vessel Market Size, By Component, 2016–2023 (USD Million)
Table 12 Power Distribution System: Floating LNG Power Vessel Market Size, By Region, 2016–2023 (USD Million)
Table 13 Power Distribution System: Floating LNG Power Vessel Market Size, By Component, 2016–2023 (USD Million)
Table 14 Floating LNG Power Vessel Market Size, By Region, 2016–2023 (USD Million)
Table 15 Asia Pacific: Floating LNG Power Vessel Market Size, By Component, 2016–2023 (USD Million)
Table 16 Aisa Pacific: Floating LNG Power Vessel Market Size, By Power Output, 2016–2023 (USD Million)
Table 17 Middle East & Africa: Floating LNG Power Vessel Market Size, By Component, 2016–2023 (USD Million)
Table 18 Middle East & Africa: Floating LNG Power Vessel Market Size, By Power Output, 2016–2023 (USD Million)
Table 19 North America: Floating LNG Power Vessel Market Size, By Component, 2016–2023 (USD Million)
Table 20 North America: Floating LNG Power Vessel Market Size, By Power Output, 2016–2023 (USD Million)
Table 21 Rest of the World: Floating LNG Power Vessel Market Size, By Component, 2016–2023 (USD Million)
Table 22 Rest of the World: Floating LNG Power Vessel Market Size, By Power Output, 2016–2023 (USD Million)
Table 23 Market Ranking of the Major Players in the Floating LNG Power Vessel Market, By Value, 2016
Table 24 Karpownership Was the Most Active Player in the Market, January 2014–April 2018
Table 25 Contracts & Agreements
Table 26 New Product Launches
Table 27 Partnerships, Collaborations, Alliances, and Joint Ventures

List of Figures (40 Figures)

Figure 1 Market Segmentation: Floating LNG Power Vessel Market
Figure 2 Research Design
Figure 3 Bottom-Up Approach
Figure 4 Top-Down Approach
Figure 5 Data Triangulation Methodology
Figure 6 Assumptions
Figure 7 Asia Pacific to Dominate the Floating LNG Power Vessel Market During the Forecast Period
Figure 8 Power Generation System Segment to Dominate the Floating LNG Power Vessel Market From 2018–2023
Figure 9 High Scale (>400 MW) Segment Dominates the Floating LNG Power Vessel Market From 2018–2023
Figure 10 Increasing Demand for Power and Lack of Power Infrastructure to Drive the Floating LNG Power Vessel Market
Figure 11 The Power Ships Segment is Expected to Dominate the Market From 2018 to 2023
Figure 12 Asia Pacific is Expected to Hold the Largest Share of the Floating LNG Power Vessel Market in 2018
Figure 13 Medium Scale Segment is Expected to Grow at the Highest Rate During the Forecast Period
Figure 14 Power Generation Systems Segment to Dominate During the Forecast Period
Figure 15 Gas Turbines & IC Engines Segment to Hold the Largest Market Share in 2018
Figure 16 Transformer Segment to Hold the Largest Market Share in 2018
Figure 17 Market Dynamics: Floating LNG Power Vessel Market
Figure 18 Electrical Network Expenditure, By Region, 2016
Figure 19 Power Ship Floating LNG Power Vessel Segment is Expected to Have the Largest Market Share During the Forecast Period
Figure 20 High Scale Segment is Expected to Account for the Largest Market, 2018–2023
Figure 21 Power Distribution System Segment is Expected to Have the Highest Growth During the Forecast Period
Figure 22 Asia Pacific is the Largest Market in the Power Generation System Floating LNG Power Vessel Market Segment, 2018–2023
Figure 23 Middle East & Africa Dominated the Floating LNG Power Vessel Market in 2016
Figure 24 Floating LNG Power Vessel Market Size, By Region, 2018–2023 (USD Million)
Figure 25 Asia Pacific: Market Snapshot
Figure 26 Middle East & Africa: Market Snapshot
Figure 27 Key Developments in the Floating LNG Power Vessel Market, 2015–2018
Figure 28 Modec, Inc.: Company Snapshot
Figure 29 Chiyoda Corporation: Company Snapshot
Figure 30 Samsung Heavy Industries Co., Ltd: Company Snapshot
Figure 31 Sevan Marine ASA: Company Snapshot
Figure 32 Hyundai Heavy Industries Co., Ltd.: Company Snapshot
Figure 33 IHI Corporation: Company Snapshot
Figure 34 Mitsui O.S.K. Lines, Ltd.: Company Snapshot
Figure 35 Mitsubishi Heavy Industries, Ltd.: Company Snapshot
Figure 36 General Electric Company: Company Snapshot
Figure 37 Siemens AG: Company Snapshot
Figure 38 Wärtsilä Corporation: Company Snapshot
Figure 39 Man Diesel & Turbo SE: Company Snapshot
Figure 40 Caterpillar, Inc.: Company Snapshot

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