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市場調查報告書

船舶用混合動力設備的全球市場:結構·最終用途·各地區

Marine Hybrid Propulsion Market (Configuration Analysis - Diesel-electric, Parallel, and Serial; End-use Analysis - Tugboats & OSVs, Ferries, and Defense Vessels) - Global Industry Analysis, Size, Share, Growth Trends, and Forecast 2016 - 2024

出版商 Transparency Market Research 商品編碼 335205
出版日期 內容資訊 英文 135 Pages
商品交期: 最快1-2個工作天內
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船舶用混合動力設備的全球市場:結構·最終用途·各地區 Marine Hybrid Propulsion Market (Configuration Analysis - Diesel-electric, Parallel, and Serial; End-use Analysis - Tugboats & OSVs, Ferries, and Defense Vessels) - Global Industry Analysis, Size, Share, Growth Trends, and Forecast 2016 - 2024
出版日期: 2017年04月03日 內容資訊: 英文 135 Pages
簡介

本報告提供船舶用混合動力設備的全球市場調查,提供市場基本結構,及市場成長的主要影響因素,市場趨勢與今後預測,結構·最終用途·地區別詳細趨勢,分析市場發展的方向性,再彙整競爭情形,主要企業的簡介等資訊。

第1章 序

  • 調查範圍·調查區分
  • 調查的重點

第2章 調查手法

第3章 摘要整理

  • 市場規模
  • 主要的市場趨勢
  • 地區概要

第4章 市場概要

  • 簡介
  • 產品概要
  • 市場指標
  • 市場動態
    • 推動因素
    • 阻礙因素
    • 機會
  • 船舶用混合動力設備:市場規模·預測
  • 波特的五力分析

第5章 船舶用混合動力設備市場分析

  • 全球法規形勢
  • 市場預測:各地區
  • 市場預測:各結構·最終用途
  • 供給需求情勢
  • 市場趨勢

第6章 船舶用混合動力設備市場分析:各結構

  • 主要的觀察
  • 主要趨勢
  • 市場規模預測:各結構
  • 市場預測:各結構
  • 市場魅力分析:各結構

第7章 船舶用混合動力設備市場分析:各最終用途

  • 主要的觀察
  • 主要趨勢
  • 市場規模預測:各最終用途
  • 市場預測:各最終用途
  • 市場魅力分析:各最終用途

第8章 北美的船舶用混合動力設備市場

  • 主要的觀察
  • 市場概要
  • 金額佔有率:各結構
  • 金額佔有率:各用途
  • 金額佔有率分析:各國
  • 市場預測:各國
  • 丁烷氣的濾芯市場:各國
    • 美國
    • 加拿大
  • 市場魅力分析

第9章 歐洲的船舶用混合動力設備市場

  • 主要的觀察
  • 市場概要
  • 金額佔有率:各結構
  • 金額佔有率:各用途
  • 金額佔有率分析:各國
  • 市場預測:各國
  • 丁烷氣的濾芯市場:各國
    • 荷蘭
    • 英國
    • 挪威
    • 其他歐洲各國
  • 市場魅力分析

第10章 亞太地區的船舶用混合動力設備市場

  • 主要的觀察
  • 市場概要
  • 金額佔有率:各結構
  • 金額佔有率:各用途
  • 金額佔有率分析:各國
  • 市場預測:各國
  • 丁烷氣的濾芯市場:各國
    • 中國
    • 日本
    • 新加坡
    • 其他的亞太地區地各國
  • 市場魅力分析

第11章 中東·非洲的船舶用混合動力設備市場

  • 主要的觀察
  • 市場概要
  • 金額佔有率:各結構
  • 金額佔有率:各用途
  • 金額佔有率分析:各國
  • 市場預測:各國
  • 丁烷氣的濾芯市場:各國
    • 海灣合作理事會(GCC)
    • 南非
    • 其他中東·非洲各國
  • 市場魅力分析

第12章 南美的船舶用混合動力設備市場

  • 主要的觀察
  • 市場概要
  • 金額佔有率:各結構
  • 金額佔有率:各用途
  • 金額佔有率分析:各國
  • 市場預測:各國
  • 丁烷氣的濾芯市場:各國
    • 巴西
    • 其他的南美各國
  • 市場魅力分析

第13章 競爭情形

  • 競爭矩陣
  • 企業簡介
  • General Electric
  • Siemens AG
  • Caterpillar Inc.
  • BAE Systems
  • Wartsila Corporation
  • 三菱重工
  • Torqeedo GmbH
  • STEYR MOTORS GmbH
  • SCHOTTEL Group
  • MAN Diesel & Turbo SE

第14章 重要點

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目錄

Report Preview

Global Marine Hybrid Propulsion Market: Snapshot

The marine industry is increasingly investing in technologies that help lower emissions, improve fuel efficiency, and adhere to new environmental regulations. Thus, hybrid propulsion systems are being rapidly deployed by vessel operators across the world. Marine hybrid propulsion systems are gradually emerging as one of the most preferred clean propulsion systems globally and are being used in several vessel categories.

Fuel charges account for substantial share of a vessel's operating expenditure. As a result, shipping liners are adopting efficient fuel technologies such as hybrid propulsion to increase their profit margins. Implementation of stringent government regulations and strict monitoring of spillage in the marine ecosystem are driving the demand for hybrid propulsion systems. The operating power requirements and size of drive components are important factors in the selection of appropriate hybrid configurations for vessels.

Spurred by the aforementioned factors, the global marine hybrid propulsion market is forecast to reach S$5.25 bn by the end of 2024, from US$2.65 bn in 2015. If these figures hold true, the global market will exhibit a CAGR of 8.2% between 2016 and 2024.

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Diesel-electric Systems Emerge as Widely Adopted Hybrid Technology

The marine hybrid propulsion market has been segmented into three categories: Configuration, end use, and region. In terms of configuration, the marine hybrid propulsion market has been classified into diesel-electric, parallel hybrid, and serial hybrid. Of these, the diesel-electric segment accounted for the leading share of 53.3% in 2015. Diesel-electric system is a widely adopted hybrid technology owing to its simple structure and low installation costs. Diesel-electric systems are easy to configure and install. Therefore, several vessel operators have been switching from the conventional diesel systems to diesel-electric configurations to comply with the environmental regulations prevalent in their respective regions. Diesel-electric propulsion systems have witnessed a rapid growth rate in the past few decades and is expected to dominate the marine hybrid propulsion market based on configuration through the forecast period.

In terms of end use, the market has been segregated into tugboats & OSV's, ferries, defense vessels, and others. Installations of these configuration types are completely dependent on the operational requirements of the vessel operators. The operating power requirements and size of the drive components are crucial factors considered while vessel operators select the appropriate hybrid configurations for their respective vessels.

Europe to Remain Dominant Market through Forecast Period

Regionally, the global hybrid propulsion market encompasses North America, Europe, Asia Pacific, Latin America, and the Middle East and Africa. Among these nations, Europe emerged dominant with a share of 34.60% in 2015. The region market is driven by the presence of several manufacturing companies. However, growth in the region will remain moderate through the forecast period. In North America, several associations are monitoring carbon emission. The leading nations in North America also have maritime monitoring satellites that detect excess carbon emission from ferries and if there is any oil spillage. Spurred by these factors, the maritime hybrid propulsion market will witness positive growth in North America.

In the coming years, Asia Pacific is expected to offer greener pastures to a large number of small- and large-scale hybrid propulsion manufacturing companies. China and Japan have emerged as lead in terms of production and consumption in Asia Pacific. Rising opportunities in these nations will significantly aid the expansion of the marine hybrid propulsion market. Besides this, the market is also expected to witness lucrative opportunities in the Middle East and Africa and Latin America.

Some of the major companies operating in this market are Siemens AG, General Electric, BAE Systems plc, Wartsila, and MAN Diesel & Turbo SE among others.

Report Description

Global Marine Hybrid Propulsion Market: Overview

This research study analyzes the market for marine hybrid propulsion systems in terms of revenue. The marine hybrid propulsion market has been segmented on the basis of configuration, end-users, and geography. For the purpose of this study, 2015 has been taken as the base year while all forecasts have been given for the 2016-2024 period. Market data for all the segments has been provided at the regional as well as country-specific levels for the 2013-2022 period. The regional segments have been further divided into sub-segments comprising seven unique countries that are major players in the global marine hybrid propulsion market. The report provides a comprehensive competitive landscape and features companies engaged in the marine hybrid propulsion business. The report also provides a detailed industry analysis of the marine hybrid propulsion market with the help of the Porter's Five Forces model. The Porter's Five Forces analysis aids in understanding the five major forces that affect the industry structure and profitability of the global marine hybrid propulsion market. The forces analyzed are the bargaining power of buyers, bargaining power of suppliers, threat from new entrants, threat from substitutes, and degree of competition in the market.

Global Hybrid Propulsion Market: Scope of Report

The high-level analysis provides detailed insights into the business of marine hybrid propulsion globally. Major drivers, restraints, and opportunities of the marine hybrid propulsion market are analyzed in detail and illustrated in the report through graphs and tables. One of the most prominent drivers is the increasing investments by vessel operators in fuel-efficient and environment-friendly technologies. Vessel and towage operators in the marine industry are now investing in marine hybrid propulsion systems to optimize operational performance. Development in technology originating from the hybrid automotive industry has assisted technology developers in designing efficient and economical marine hybrid propulsion systems. Market attractiveness analysis was carried out for the marine hybrid propulsion industry on the basis of end-use. Market attractiveness was estimated on the basis of consumer preferences that directly impact the market.

Global Hybrid Propulsion Market: Trends and Opportunities

Marine engineering companies are committed to developing efficient propulsion technologies. Several technology developers have collaborated with vessel operators to develop propulsion systems which offer increased power density coupled with fuel efficiency. Several major port authorities and maritime organizations have declared emission standards for vessels operating in designated areas. Shipping operators are obligated to comply with emission regulations while operating in those areas. Marine hybrid propulsion system is a cost-efficient option to meet the NOx Emission Control Area (NECA) and Sulfur Emission Control Area (SECA) requirements. The new International Maritime Organization (IMO) regulations on ship emissions are imposed starting in 2015 in Emission Control Areas (ECAs). As marine regulations are being primarily imposed in the coastal regions of Europe and North America, the majority of the development in the hybrid propulsion market is being witnessed only in these regions. Factors driving the demand for marine hybrid systems are growing seaborne trade, raw material prices, increasing investments in shipping industries, and regulations and policies to minimize carbon emissions in different regions.

Global Hybrid Propulsion Market: Key Segments

The marine hybrid propulsion market has been segmented into three broad categories on the basis of configuration as diesel-electric, parallel, and serial hybrid systems. The marine hybrid propulsion market was also analyzed on the basis of end-users as tugboats & OSV's, ferries, defense vessels, and others. The marine hybrid propulsion market was analyzed across five geographies: North America, Europe, Asia Pacific, Middle East & Africa, and Latin America. Although hybrid propulsion systems are being widely adopted across the world, the major share of development is witnessed in Europe alone. Regional data has been provided for each sub-segment of the marine hybrid propulsion market.

Companies Mentioned in Report

Key market participants in the marine hybrid propulsion market include Siemens AG, General Electric, BAE Systems plc, Wartsila, and MAN Diesel & Turbo SE among others. The report provides an overview of these companies, followed by their financial details, business strategies, and recent developments.

Marine Hybrid Propulsion Market: Configuration Analysis

  • Diesel-electric
  • Parallel
  • Serial

Marine Hybrid Propulsion Market: End-use Analysis

  • Tugboats & OSVs
  • Ferries
  • Defense Vessels
  • Others

Marine Hybrid Propulsion Market: Regional Analysis

  • North America
    • U.S.
    • Rest of North America
  • Europe
    • Norway
    • Netherlands
    • U.K.
    • Rest of Europe
  • Asia Pacific
    • China
    • Japan
    • Singapore
    • Rest of Asia Pacific
  • Middle East & Africa
    • GCC
    • South Africa
    • Rest of MEA
  • Latin America
    • Brazil
    • Rest of Latin America

Table of Contents

1. Preface

  • 1.1. Report Scope and Market Segmentation
  • 1.2. Research Highlights

2. Assumptions and Research Methodology

  • 2.1. Assumptions and Acronyms Used
  • 2.2. Research Methodology

3. Executive Summary

  • 3.1. Market Size (US$ Mn)
  • 3.2. Key Trends
  • 3.3. Regional Overview, 2015

4 .Market Overview

  • 4.1. Introduction
  • 4.2. Product Overview
  • 4.3. Market Indicators
  • 4.4. Market Dynamics
    • 4.4.1. Drivers
    • 4.4.2. Restraints
    • 4.4.3. KeyOpportunities
  • 4.5. Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • 4.6. Porter's Analysis
    • 4.6.1. Threat of Substitutes
    • 4.6.2. Bargaining Power of Buyers
    • 4.6.3. Bargaining Power of Suppliers
    • 4.6.4. Threat of New Entrants
    • 4.6.5. Degree of Competition
    • 4.5.6. Value Chain Analysis

5. Global Marine Hybrid Propulsion Market Analysis

  • 5.1. Global Regulatory Scenario
  • 5.2. Global Marine Hybrid Propulsion Market Forecast, by Region
  • 5.3. Global Marine Hybrid Propulsion Market Forecast, by Configuration and End-Use
  • 5.4. Global Marine Hybrid Propulsion Market - Global Supply Demand Scenario
  • 5.6. Market Trends

6. Marine Hybrid Propulsion Market Analysis by Configuration

  • 6.1. Key Findings
  • 6.2. Key Trends
  • 6.3. Global Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, by Configuration
  • 6.4. Global Marine Hybrid Propulsion Market Forecast, by Configuration
  • 6.5. Global Marine Hybrid Propulsion Market Attractiveness Analysis, by Configuration

7. Marine Hybrid Propulsion Market Analysis by End-Use

  • 7.1. Key Findings
  • 7.2. Key Trends
  • 7.3. Global Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, by End-Use
  • 7.4. Global Marine Hybrid Propulsion Market Forecast, by End-Use
  • 7.5. Global Marine Hybrid Propulsion Market Attractiveness Analysis, by End-Use

8. North America Marine Hybrid Propulsion Market Analysis

  • 8.1. Key Findings
  • 8.2. North America Marine Hybrid Propulsion Market Overview
  • 8.3. North America Marine Hybrid Propulsion Market Value Share Analysis, by Configuration and End-Use
  • 8.4. North America Marine Hybrid Propulsion Market Forecast, by Application
  • 8.5. North America Marine Hybrid Propulsion Market Forecast, by Application
  • 8.6. North America Marine Hybrid Propulsion Market Value Share Analysis, by Country
  • 8.7. North America Marine Hybrid Propulsion Market Forecast, by Country
  • 8.8. North America Butane Gas Cartridge Market Analysis, by Country
    • 8.8.1. U.S
    • 8.8.2. Canada
  • 8.9. North America Marine Hybrid Propulsion Market Attractiveness Analysis

9. Europe Marine Hybrid Propulsion Market Analysis

  • 9.1. Key Findings
  • 9.2. Europe Marine Hybrid PropulsionMarket Overview
  • 9.3. Europe Marine Hybrid Propulsion Market Value Share Analysis, by Configuration and End Use
  • 9.4. Europe Marine Hybrid Propulsion Market Forecast, by Configuration
  • 9.5. Europe Marine Hybrid Propulsion Market Forecast, by End-Use
  • 9.6. Europe Marine Hybrid PropulsionMarket Value Share Analysis, by Country
  • 9.7. Europe Marine Hybrid Propulsion Market Forecast, by Country
  • 9.8. Europe Marine Hybrid Propulsion Market Analysis, by Country
    • 9.8.1. The Netherlands
    • 9.8.2. U.K.
    • 9.8.3. Norway
    • 9.8.4. Rest of Europe
  • 9.9. Europe Marine Hybrid Propulsion Market Attractiveness Analysis

10. Asia Pacific Marine Hybrid Propulsion Market Analysis

  • 10.1. Key Findings
  • 10.2. Asia Pacific Marine Hybrid PropulsionMarket Overview
  • 10.3. Asia Pacific Marine Hybrid Propulsion Market Value Share Analysis, by Configuration and End-Use
  • 10.4. Asia Pacific Marine Hybrid Propulsion Market Forecast, by Configuration
  • 10.5. Asia Pacific Marine Hybrid Propulsion Market Forecast, by End-Use
  • 10.6. Asia Pacific Marine Hybrid Propulsion Market Value Share Analysis, by Country
  • 10.7. Asia Pacific Marine Hybrid Propulsion Market Forecast, by Country
  • 10.8. Asia Pacific Marine Hybrid PropulsionMarket Analysis, by Country
    • 10.8.1. China
    • 10.8.2. Japan
    • 10.8.3. Singapore
    • 10.8.5. Rest of Asia Pacific
  • 10.9. Asia Pacific Marine Hybrid Propulsion Market Attractiveness Analysis

11. Middle East & AfricaMarine Hybrid Propulsion Market Analysis

  • 11.1. Key Findings
  • 11.2. Middle East & Africa Marine Hybrid Propulsion Market Overview
  • 11.3. Middle East & Africa Marine Hybrid Propulsion Market Value Share Analysis, By Configuration and End-Use
  • 11.4. Middle East & Africa Marine Hybrid Propulsion Market Forecast, by Configuration
  • 11.5. Middle East & Africa Marine Hybrid Propulsion Market Forecast, by End-Use
  • 11.6. Middle East & Africa Marine Hybrid PropulsionMarket Value Share Analysis, by Country
  • 11.7. Middle East & Africa Marine Hybrid Propulsion Market Forecast, by Country
  • 11.8. Middle East & Africa Marine Hybrid Propulsion Market Analysis, by Country
    • 11.8.1. GCC
    • 11.8.2. South Africa
    • 11.8.5. Rest of Middle East & Africa
  • 11.9. Middle East & Africa Marine Hybrid PropulsionMarket Attractiveness Analysis

12. Latin America Marine Hybrid Propulsion Market Analysis

  • 12.1. Key Findings
  • 12.2. Latin America Marine Hybrid Propulsion Market Overview
  • 12.3. Latin America Marine Hybrid Propulsion Market Value Share Analysis, By Configuration and End-Use
  • 12.4. Latin America Marine Hybrid Propulsion Market Forecast, by Configuration
  • 12.5. Latin America Marine Hybrid Propulsion Market Forecast, by End-Use
  • 12.6. Latin America Marine Hybrid PropulsionMarket Value Share Analysis, by Country
  • 12.7. Latin America Marine Hybrid Propulsion Market Forecast, by Country
  • 12.8. Latin America Marine Hybrid Propulsion Market Analysis, by Country
    • 12.8.1. Brazil
    • 12.8.2. Rest of Middle East & Africa
  • 12.9. Latin America Marine Hybrid PropulsionMarket Attractiveness Analysis

13. Company Landscape

  • 13.1. Competition Matrix
  • 13.2. Company Profiles
    • 13.2.1. General Electric
      • 13.2.1.1. Company Overview
      • 13.2.1.2. Financial Overview
      • 13.2.1.3. Business Strategy
      • 13.2.1.4. SWOT Analysis
      • 13.2.1.5. Recent Developments
    • 13.2.2. Siemens AG
      • 13.2.2.1. Company Overview
      • 13.2.2.2. Financial Overview
      • 13.2.2.3. Business Strategy
      • 13.2.2.4. SWOT Analysis
      • 13.2.2.5. Recent Developments
    • 13.2.3. Caterpillar Inc.
      • 13.2.3.1. Company Overview
      • 13.2.3.2. Financial Overview
      • 13.2.3.3. Business Strategy
      • 13.2.3.4. SWOT Analysis
      • 13.2.3.5. Recent Developments
    • 13.2.4. BAE Systems
      • 13.2.4.1. Company Overview
      • 13.2.4.2. Financial Overview
      • 13.2.4.3. Business Strategy
      • 13.2.4.4. SWOT Analysis
      • 13.2.4.5. Recent Developments
    • 13.2.5. Wärtsilä Corporation
      • 13.2.5.1. Company Overview
      • 13.2.5.2. Financial Overview
      • 13.2.5.3. Business Strategy
      • 13.2.5.4. SWOT Analysis
      • 13.2.5.5. Recent Developments
    • 13.2.6. Mitsubishi Heavy Industries, Ltd.
      • 13.2.6.1. Company Overview
      • 13.2.6.2. Financial Overview
      • 13.2.6.3. Business Strategy
      • 13.2.6.4. SWOT Analysis
      • 13.2.6.5. Recent Developments
    • 13.2.7. Torqeedo GmbH
      • 13.2.7.1. Company Overview
      • 13.2.7.2. Financial Overview
      • 13.2.7.3. Business Strategy
      • 13.2.7.4. SWOT Analysis
      • 13.2.7.5. Recent Developments
    • 13.2.8. STEYR MOTORS GmbH
      • 13.2.8.1. Company Overview
      • 13.2.8.2. Financial Overview
      • 13.2.8.3. Business Strategy
      • 13.2.8.4. SWOT Analysis
      • 13.2.8.5. Recent Developments
    • 13.2.9. SCHOTTEL Group
      • 13.2.9.1. Company Overview
      • 13.2.9.2. Financial Overview
      • 13.2.9.3. Business Strategy
      • 13.2.9.4. SWOT Analysis
      • 13.2.9.5. Recent Developments
    • 13.2.10. MAN Diesel & Turbo SE
      • 13.2.10.1. Company Overview
      • 13.2.10.2. Financial Overview
      • 13.2.10.3. Business Strategy
      • 13.2.10.4. SWOT Analysis
      • 13.2.10.5. Recent Developments

14. Key Takeaway

List of Figures

  • Figure 1: Global Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 2: Global Marine Hybrid Propulsion Market Value Share Analysis, by Configuration, 2016 and 2024
  • Figure 3: Marine Hybrid Propulsion Market, by Diesel-Electric, (US$ Mn), 2015-2024
  • Figure 4: Marine Hybrid Propulsion Market, by Parallel Hybrid, (US$ Mn), 2015-2024
  • Figure 5: Marine Hybrid Propulsion Market, by Serial Hybrid, (US$ Mn), 2015-2024
  • Figure 6: Marine Hybrid Propulsion Market Attractiveness Analysis, by Configuration
  • Figure 7: Global Marine Hybrid Propulsion Market Value Share Analysis, by End-use, 2015 and 2024
  • Figure 8: Marine Hybrid Propulsion Market, by Tugboats & OSVs (US$ Mn), 2015-2024
  • Figure 9: Marine Hybrid Propulsion Market, by Ferries (US$ Mn), 2015-2024
  • Figure 10: Marine Hybrid Propulsion Market, by Defense Vessels (US$ Mn), 2015-2024
  • Figure 11: Marine Hybrid Propulsion Market, by Others (US$ Mn), 2015-2024
  • Figure 12: Marine Hybrid Propulsion Market Attractiveness Analysis, by End-use
  • Figure 13: Global Marine Hybrid Propulsion Market Value Share Analysis, by Region, 2015 and 2024
  • Figure 14: Global Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis By Configuration, 2015 and 2024
  • Figure 15: Global Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis By End-Use, 2015 and 2024
  • Figure 16: North America Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 17: North America Marine Hybrid Propulsion Market Attractiveness Analysis, by Country
  • Figure 18: North America Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by Configuration, 2015 and 2024
  • Figure 19: North America Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by End-use, 2015 and 2024
  • Figure 20: North America Market Value Share (US$ Mn) Analysis, by Country, 2015 and 2024
  • Figure 21: U.S. Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 22: Canada Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 23: North America Marine Hybrid Propulsion Market Attractiveness Analysis, by Configuration
  • Figure 24: North America Marine Hybrid Propulsion Market Attractiveness Analysis, by End-use
  • Figure 25: Europe Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 26: Europe Marine Hybrid Propulsion Market Attractiveness Analysis, by Country
  • Figure 27: Europe Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by Configuration, 2015 and 2024
  • Figure 28: Europe Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by End-use, 2015 and 2024
  • Figure 29: Europe Market Value Share (US$ Mn) Analysis, By Country, 2015 and 2024
  • Figure 30: The Netherlands Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 31: U.K. Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 32: Norway Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 33: Rest of Europe Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 34: Europe Marine Hybrid Propulsion Market Attractiveness Analysis, by Configuration
  • Figure 35: Europe Marine Hybrid Propulsion Market Attractiveness Analysis, by End-use
  • Figure 36: Asia Pacific Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 37: Asia Pacific Marine Hybrid Propulsion Market Attractiveness Analysis, by Country
  • Figure 38: Asia Pacific Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by Configuration, 2015 and 2024
  • Figure 39: Asia Pacific Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by End-use, 2015 and 2024
  • Figure 40: Asia Pacific Market Value Share (US$ Mn) Analysis, by Country, 2015 and 2024
  • Figure 41: China Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 42: Japan Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 43: Singapore Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 44: Rest of Asia Pacific Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 45: Asia Pacific Marine Hybrid Propulsion Market Attractiveness Analysis, by Configuration
  • Figure 46: Asia Pacific Marine Hybrid Propulsion Market Attractiveness Analysis, By End-use
  • Figure 47: Middle East & Africa Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 48: Middle East & Africa Marine Hybrid Propulsion Market Attractiveness Analysis, by Country
  • Figure 49: Middle East & Africa Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by Configuration, 2015 and 2024
  • Figure 50: Middle East & Africa Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by End-use, 2015 and 2024
  • Figure 51: Middle East & Africa Market Value Share (US$ Mn) Analysis, by Country, 2015 and 2024
  • Figure 52: GCC Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 53: South Africa Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 54: Rest of MEA Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 55: Middle East & Africa Marine Hybrid Propulsion Market Attractiveness Analysis, by Configuration
  • Figure 56: Middle East & Africa Marine Hybrid Propulsion Market Attractiveness Analysis, by End-use
  • Figure 57: Latin America Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 58: Latin America Marine Hybrid Propulsion Market Attractiveness Analysis, by Country
  • Figure 59: Latin America Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by Configuration, 2015 and 2024
  • Figure 60: Latin America Marine Hybrid Propulsion Market Value Share (US$ Mn) Analysis, by End-use, 2015 and 2024
  • Figure 61: Latin America Market Value Share (US$ Mn) Analysis, by Country, 2015 and 2024
  • Figure 62: Brazil Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 63: Rest of Latin America Marine Hybrid Propulsion Market Size (US$ Mn) Forecast, 2015-2024
  • Figure 64: Latin America Marine Hybrid Propulsion Market Attractiveness Analysis, by Configuration
  • Figure 65: Latin America Marine Hybrid Propulsion Market Attractiveness Analysis, by End-use

List of Tables

  • Table 1: Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Configuration, 2015-2024
  • Table 2: Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by End-use, 2015-2024
  • Table 3: Global Marine Hybrid Propulsion Market, Revenue (US$ Mn) Forecast, by Region, 2015-2024
  • Table 4: Global Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast By Configuration
  • Table 5: Global Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast By End-Use
  • Table 6: North America Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Configuration, 2015-2024
  • Table 7: North America Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by End-use, 2015-2024
  • Table 8: North America Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Country, 2015-2024
  • Table 9: Europe Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Configuration, 2015-2024
  • Table 10: Europe Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by End-use, 2015-2024
  • Table 11: Europe Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Country, 2015-2024
  • Table 12: Asia Pacific Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Configuration, 2015-2024
  • Table 13: Asia Pacific Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by End-use, 2015-2024
  • Table 14: Asia Pacific Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Country, 2015-2024
  • Table 15: Middle East & Africa Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Configuration, 2015-2024
  • Table 16: Middle East & Africa Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by End-use, 2015-2024
  • Table 17: Middle East & Africa Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Country, 2015-2024
  • Table 18: Latin America Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Configuration, 2015-2024
  • Table 19: Latin America Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by End-use, 2015-2024
  • Table 20: Latin America Marine Hybrid Propulsion Market Revenue (US$ Mn) Forecast, by Country, 2015-2024
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