1 はじめに
1.1 調査目的 28
1.2 市場の定義 28
1.3 調査範囲 29
1.3.1 対象範囲と除外項目 29
1.3.2 対象市場と地域範囲 30
1.3.3 考慮した年数 31
1.4 考慮した通貨 31
1.5 制限事項 31
1.6 利害関係者 32
1.7 変更点のまとめ 32
2 調査方法 34
2.1 調査データ 34
2.1.1 二次データ 35
2.1.1.1 主要な二次情報源のリスト 35
2.1.1.2 二次資料からの主要データ 35
2.1.2 一次データ 36
2.1.2.1 一次インタビュー参加者リスト 36
2.1.2.2 主要な業界インサイト 36
2.1.2.3 一次資料からの主要データ 37
2.1.2.4 一次データの内訳 37
2.2 市場規模の推定方法 39
2.2.1 ボトムアップアプローチ 39
2.2.1.1 地域分析 40
2.2.1.2 国レベル分析 40
2.2.1.3 需要サイドの仮定 40
2.2.1.4 需要サイドの計算 41
2.2.2 トップダウンアプローチ 41
2.2.2.1 供給側の仮定 43
2.2.2.2 供給側の計算 43
2.3 市場の内訳とデータの三角測量 44
2.4 予測 44
2.5 リサーチの前提 45
2.6 リスク分析 45
2.7 調査の限界
3 エグゼクティブサマリー 46
4 プレミアムインサイト 50
4.1 沿岸電力市場におけるプレーヤーにとっての魅力的な機会 50
4.2 海岸電力市場、地域別 51
4.3 アジア太平洋地域の陸上電力市場:設置タイプ別、国別 52
4.4 陸上電力市場:設置タイプ別 53
4.5 沿岸電力市場:接続タイプ別 53
4.6 海岸電力市場:コンポーネント別 53
4.7 陸上電力市場:出力別 54
5 市場の概要
5.1 はじめに
5.2 市場ダイナミクス 56
5.2.1 推進要因 56
5.2.1.1 持続可能性、カーボンニュートラル、脱炭素化への取り組みに対する政府当局の注目の高まり 56
5.2.1.2 海上交通量の増加と港湾ネットワークの拡大 59
5.2.1.3 クルーズ船産業の繁栄 60
5.2.2 阻害要因 61
5.2.2.1 高い初期投資コスト 61
5.2.2.2 港湾間で統一された技術的・規制的枠組みの欠如 62
5.2.3 機会 64
5.2.3.1 海岸電力技術の進歩 64
5.2.3.2 沿岸電力システムへの再生可能エネルギーの統合 64
5.2.4 課題 66
5.2.4.1 限られた送電網容量と再生可能エネルギー源の利用可能性 66
5.2.4.2 沿岸電力システムの運用及び技術的課題 66
5.3 顧客ビジネスに影響を与えるトレンド/混乱 67
5.4 エコシステム分析 68
5.5 価格分析 70
5.5.1 2023年における陸上電力システムコンポーネントの指標価格 70
5.5.2 シャワー電源システムの船舶別価格(2023 年) 71
5.6 投資と資金調達のシナリオ
5.7 サプライチェーン分析 72
5.8 技術分析 74
5.8.1 主要技術 74
5.8.1.1 高電圧陸上接続(HVSC)システム 74
5.8.2 隣接技術 74
5.8.2.1 スマートグリッド技術 74
5.8.2.2 モジュール式陸上電力ソリューション 74
5.9 主要会議・イベント(2024~2025年) 75
5.10 貿易分析 76
5.10.1 輸入シナリオ(HSコード8504) 76
5.10.2 輸出シナリオ(HSコード8504) 77
5.11 関税と規制の状況 78
5.11.1 関税分析(HSコード8504) 78
5.11.2 規制機関、政府機関、その他の組織 79
5.11.3 世界の陸上電力市場に関連する法規制 82
5.12 特許分析 83
5.13 ポーターのファイブフォース分析 85
5.13.1 新規参入の脅威 87
5.13.2 代替品の脅威 87
5.13.3 供給者の交渉力 87
5.13.4 買い手の交渉力 87
5.13.5 競合の激しさ 88
5.14 主要ステークホルダーと購買基準 88
5.14.1 購入プロセスにおける主要ステークホルダー 88
5.14.2 購買基準 89
5.15 ケーススタディ分析 90
5.15.1 ワサライン、ダンフォス駆動装置のバコン 100 駆動装置でハイブリッド電気フェリーのエネル ギー効率を改善 90
5.15.2 seam 社と danfoss drives 社が通勤客にゼロエミッションサービスを提供する Nesodd フェリーを支援 90
5.15.3 ダンフォスドライブがより環境に優しく効率的な漁業のためにスクレバスの訓練船を改造 91
5.16 発電AI/AIが陸上電力市場に与える影響 91
5.17 沿岸電力市場のマクロ経済見通し 93
5.17.1 GDPが陸上電力市場に与える影響 93
5.17.2 研究開発費 94
5.17.3 沿岸電力システムへの投資 94
5.17.4 スマートグリッド技術への投資による電力部門の変革 95
6 陸上電力市場、設置タイプ別 96
6.1 導入 97
6.2 沿岸 98
6.2.1 持続可能性目標達成のための再生可能エネルギー導入の増加がセグメント成長を促進 98
6.3 船側 99
6.3.1 港湾地域の排出削減と騒音公害の最小化が急務となり、セグメント成長を加速 99
6.3.2 船舶別 100
6.3.2.1 クルーズ 101
6.3.2.1.1 代替燃料と先進動力技術へのクルーズ業界の投資増が市場成長を促進 101
6.3.2.2 フェリー 103
6.3.2.2.1 持続可能な公共交通機関への注目の高まりがセグメント成長を促進 103
6.3.2.3 コンテナ船 104
6.3.2.3.1 持続可能な物流重視で陸上電力システムの採用が増加 104
6.3.2.4 ROROと車両運搬船 105
6.3.2.4.1 効率的で環境に優しい港湾運営に対する需要の高まりがセグメント成長を促進 105
6.3.2.5 バルクキャリア 106
6.3.2.5.1 補助エンジンへの依存度低減が急務で市場成長の可能性 106
6.3.2.6 タンカー 107
6.3.2.6.1 環境規制がよりグリーンで持続可能な運航を可能にし、市場成長に寄与 107
6.3.2.7 一般貨物 108
6.3.2.7.1 陸上電力システムの採用を促す燃料費の上昇 108
6.3.2.8 その他の船舶 110
7 沿岸電力市場、接続タイプ別 112
7.1 導入 113
7.2 新規設置 114
7.2.1 代替燃料への海運業界の急速な移行が有利な機会を生む 114
7.3 改修 115
7.3.1 船隊の近代化が急務であり、市場成長を支える 115
8 陸上電力市場、コンポーネント別 117
8.1 導入 118
8.2 周波数変換器 119
8.2.1 需要を加速する適切な周波数の電力を提供することで、船上システムの円滑な動作を確保する能力 119
8.3 変圧器 120
8.3.1 需要を急増させる陸上電力システムにおける電圧調整と配電の重要性 120
8.4 開閉装置 121
8.4.1 海運業界関係者の電化と脱炭素化への関心の高まりが需要を押し上げる 121
8.5 ケーブルと付属品 123
8.5.1 高電圧陸上電力システムの採用が増加し、セグメントの成長を促進 123
8.6 その他の部品 124
9 沿岸電力市場:出力別 126
9.1 導入 127
9.2 30MVA未満 128
9.2.1 クルーズ船やフェリーがGHG排出抑制を重視し、需要急増 128
9.3 30~60 MVA 129
9.3.1 需要喚起のための厳しい環境規制への対応の必要性 129
9.4 60MVA以上 130
9.4.1 大容量陸上電力施設建設への投資の増加がセグメントの成長を促進 130
10 沿岸電力市場、地域別 132
10.1 はじめに 133
10.2 アジア太平洋地域 135
10.2.1 中国 141
10.2.1.1 技術的に先進的な陸上電力システム部品の開発への投資が市場成長を支える 141
10.2.2 インド 143
10.2.2.1 港湾車両によりクリーンな燃料の採用が成長機会を創出 143
10.2.3 韓国 145
10.2.3.1 グリーンポート構想への大規模投資が市場を牽引 145
10.2.4 オーストラリア 147
10.2.4.1 海事活動による温室効果ガス排出削減への取り組みが需要を促進 147
10.2.5 シンガポール 149
10.2.5.1 港湾インフラへの戦略的投資が市場成長を促進 149
10.2.6 日本 151
10.2.6.1 国際環境基準への適合が市場成長を促進 151
10.2.7 その他のアジア太平洋地域 153
10.3 北米 156
10.3.1 米国 161
10.3.1.1 運輸部門におけるクリーンエネルギー転換が需要を加速 161
10.3.2 カナダ 163
10.3.2.1 港湾におけるGHG排出量削減のための連邦政府・州政府による資金調達イニシアティブが需要を押し上げる 163
10.3.3 メキシコ 165
10.3.3.1 物流インフラの改善と環境負荷の低減に大きな重点が置かれ、普及が進む 165
10.4 欧州 168
10.4.1 ドイツ 172
10.4.1.1 持続可能な海事慣行のリーダーになることが強調され、市場成長が加速 172
10.4.2 イギリス 174
10.4.2.1 クリーン・マリタイム・プランの採用によるネット・ゼロ・エミッション目標の達成 が市場成長を後押し 174
10.4.3 スウェーデン 176
10.4.3.1 海運の脱炭素化に向けた取り組みが市場を後押し 176
10.4.4 オランダ 178
10.4.4.1 カーボンニュートラルなハブ港湾への転換が需要を刺激 178
10.4.5 ノルウェー 181
10.4.5.1 港湾地域の大気質改善のためのグリーン技術への投資が市場を牽引 181
10.4.6 その他のヨーロッパ 183
10.5 中東・アフリカ 185
10.5.1 GCC 190
10.5.1.1 サウジアラビア 190
10.5.1.1.1 海洋インフラへの再生可能エネルギーの統合が市場成長を支える 190
10.5.1.2 UAE 193
10.5.1.2.1 船舶にクリーンな電力を供給するための太陽光発電や風力発電プロジェク トへの大規模投資が市場成長を加速 193
10.5.1.3 GCCのその他の地域 195
10.5.2 エジプト 197
10.5.2.1 再生可能エネルギー源の陸上電力システムへの統合が市場を牽引 197
10.5.3 南アフリカ 199
10.5.3.1 海洋汚染削減への政府の取り組みが需要を押し上げる 199
10.5.4 その他の中東・アフリカ地域 201
10.6 南米 204
10.6.1 ブラジル 208
10.6.1.1 再生可能エネルギーへの大規模投資が陸上電力システムプロバイダーに機会を創出 208
10.6.2 アルゼンチン 210
10.6.2.1 主要港湾地域の持続可能性と排出削減への取り組みが市場を牽引 210
10.6.3 その他の南米諸国 212
11 競争環境 215
11.1 はじめに 215
11.2 主要企業の戦略/勝利への権利(2021~2024年) 215
11.3 収益分析(2019~2023年) 218
11.4 市場シェア分析、2023年 219
11.5 企業評価と財務指標 222
11.6 製品タイプ別/地理的プレゼンス別比較 223
11.7 企業評価マトリックス:主要企業、2023年 224
11.7.1 スター企業 224
11.7.2 新興リーダー 224
11.7.3 浸透型プレーヤー 224
11.7.4 参加企業 224
11.7.5 企業フットプリント:主要プレーヤー、2023年 226
11.7.5.1 企業フットプリント 226
11.7.5.2 地域別フットプリント 227
11.7.5.3 設置タイプのフットプリント 228
11.7.5.4 出力フットプリント 229
11.7.5.5 接続タイプのフットプリント 230
11.8 企業評価マトリクス:新興企業/SM(2023年) 231
11.8.1 進歩的企業 231
11.8.2 対応力のある企業 231
11.8.3 ダイナミックな企業 231
11.8.4 スターティングブロック 231
11.8.5 競争ベンチマーキング:新興企業/SM(2023年) 233
11.8.5.1 主要新興企業/中小企業の詳細リスト 233
233 11.8.5.2 主要新興企業/SMEの競争ベンチマーク 233
11.9 競争シナリオ 234
11.9.1 製品の上市/開発 234
11.9.2 取引 235
11.9.3 拡張 240
11.9.4 その他の開発 241
12 企業プロファイル 242
ABB (Switzerland)
Schneider Electric (France)
General Electric Company (US)
Eaton (Ireland)
Siemens (Germany)
and Cavotec SA (Switzerland)
13 付録 306
13.1 業界の専門家による洞察 306
13.2 ディスカッションガイド 306
13.3 Knowledgestore: Marketsandmarketsの購読ポータル 310
13.4 カスタマイズオプション 312
13.5 関連レポート 312
13.6 著者の詳細 313
There are multiple factors that propel the growth of the global shore power market. Since there is increasing environmental awareness and regulations that are limiting the emissions from shipping activities, there is a need for ports and shipping firms to embrace greener options such as shore power. Another significant factor is the increased emphasis on decarbonization and clean energy technologies especially given that this system helps in sourcing shore power making it possible to easily reduce greenhouse gas emissions and attain global sustainability targets. Furthermore, factors such as upgraded shore power systems and energy efficient equipment are making it feasible and cost-effective to adopt these systems. In addition, government policies and incentives help to promote the worldwide development of the shore power network.
“Above 60 MVA segment, by power output, is expected to hold third largest market share during forecast period”
The global shore power market segment "Above 60 MVA" ranks the third position in terms of market share. The primary reason for this is the growing need of high capacity power solutions used in bigger vessels like the container ships and oil tankers. These types of vessels consume a great deal of electrical energy as a lot of their systems are run on board, hence high capacity deployable shore power connection is necessary for effective and clean operations. Furthermore, ports are developing better facilities to take care of the bigger operations, which include the significant reduction of emissions while the vessels are docked. This segment is also driven by the increasing implementation of regulations that require the use of shore power for large vessels to avoid emissions. Therefore, due to these reasons, there is an increasing requirement for shore power systems with more than 60 MVA system capability which in turn entrenches its position in the market.
“New installation segment, by installation type, is expected to capture second largest market share during forecast period”
The "New Installation" sub-segment within the scope of By Installation market in shore power market worldwide has second largest market share due to rising trends in the construction of new port facilities with shore power systems. Ports and shipping companies are more concerned about sustainability and reduction of carbon emissions; hence calls for new projects incorporating shore power facilities on new ports and new vessels are on the rise. High levels of investments for reconstruction of old facilities indicate the willingness to embrace cleaner and greener technologies that are in line with the government’s infrastructural goals and are also efficient. Moreover, the integration of the advanced technologies in the shore power solutions accelerates the market for new installations, resulting into an important market strategy as more advanced and energy consuming ships are introduced in the ports.
“Europe is expected to be the third largest during forecast period.”
Owing to the robust legal structure and the several sustainability plans in place, Europe comes in as the third largest market in the Global Shore Power Market. The environmental standards put forth by the European Union, among them, the European Green Deal and that of the Marine Environment Protection Committee, have accelerated the use of shore power technologies within ports and shipping lines considerably. In addition, Europe has ports such as Rotterdam and Hamburg which are some of the largest in the world, and which have incorporated shore power facilities to help curb the emission of pollutants into the port. In addition, the continuous influx of advanced technology and system modernization helps the region maintain its competitive edge in the shore power sector Further. The interlink between the policies, issues of climate change and the emergence of new technologies are some of the reasons why this region has a significant market in this sector that is still shaping up.
In-depth interviews have been conducted with chief executive officers (CEOs), Directors, and other executives from various key organizations operating in the biorefinery market.
By Company Type: Tier 1- 30%, Tier 2- 55%, and Tier 3- 15%
By Designation: C-level Executives - 30%, Director Level- 20%, and Others- 50%
By Region: North America – 18%, Europe – 8%, Asia Pacific – 60%, South America – 4%, Middle East & Africa – 10%
Note: Other designations include sales managers, marketing managers, product managers, and product engineers.
The tier of the companies is defined based on their total revenue as of 2023. Tier 1: USD 1 billion and above, Tier 2: From USD 500 million to USD 1 billion, and Tier 3:
The global shore power market is dominated by key players that hold a wide regional presence and offer a diverse range of products. Leading companies in the shore power market include ABB (Switzerland), Schneider Electric (France), General Electric Company (US), Eaton (Ireland), Siemens (Germany), and Cavotec SA (Switzerland), among others. These players focus on strategies such as product innovations, acquisitions, contracts, and expansions to strengthen their market position. New product launches, coupled with strategic investments in power infrastructure and energy-efficient technologies, are key approaches adopted by these companies to maintain competitive advantages in the evolving market landscape.
Research Coverage:
The report defines, describes, and forecasts the shore power market by installation type, component, connection, power output, and region. It also offers a detailed qualitative and quantitative analysis of the market. The report comprehensively reviews the major market drivers, restraints, opportunities, and challenges. It also covers various important aspects of the market. A detailed analysis of the key industry players has been done to provide insights into their business overview, solutions, and services; key strategies; Contracts, partnerships, agreements. new product launches, mergers and acquisitions, and recent developments associated with the biorefinery market. Competitive analysis of upcoming startups in the shore power market ecosystem is covered in this report.
Reasons to buy this report:
The report will help the market leaders/new entrants busbar market and the subsegments. This report will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and to plan suitable go-to-market strategies. The report also helps stakeholders understand the pulse of the market and provides them with information on key market drivers, restraints, challenges, and opportunities.
The report provides insights on the following pointers:
•Analysis of key drivers (Rising focus on sustainability and decarbonization, Increasing maritime traffic and port expansion, Expansion of cruise ship industry), restraints (High initial investment costs, Lack of standardization across ports) opportunities (Advances in shore power technology, Growth in renewable energy integration), and challenges (Limited grid capacity and renewable energy availability, Slow adoption and low penetration rates, Operational and technical challenges) influencing the growth.
•Product Development/ Innovation: To develop products and innovate, is the key motivator for the growth of global shore power markets as entities seek to expand their offerings and fulfill the rising regulatory requirements for eco-friendly policies. The designers and engineers of shore power systems are now more focused on coming up with flexible and efficient power systems that will make it easier for sea ports to service all kinds of ships and fit into the existing port architecture. Technological progress, which includes the invention of powerful frequency transformers and smart grid technologies, is making energy management more efficient and cutting down on the use of oil products. In order to further cut emissions and facilitate the shift from high-carbon energy systems to low-carbon ones, companies are actively researching auxiliary energy components, such as hydrogen and battery storage systems. This is an interesting development as technology not only increases the production of goods but also enhances the market position of producers in relation to the existing challenges, the need for which has been growing in the maritime sector, thanks to the calls for reduction in carbon emissions.
•Market Development: The worldwide shore power market is on the rise, primarily due to heightened environmental awareness and the increasing number of regulations focused on minimizing greenhouse gases emissions from shipping activities. With the increasing number of ports that are implementing shore power solutions, which helps vessels connect to the electricity source at the dock rather than rely on onboard generators, there is likely to be more advancements in technologies and facilities incorporated into the system. Notably, players such as the likes of Siemens, ABB amongst others are taking the lead in coming of age technologies to shore power applications. As noted by several market research studies, the trend is expected to have a vigorous growth of the specific market and its constituent components over the forecast period, owing to focus on green shipping tendencies and fuel switching. This expansion creates avenues for investors to enhance existing clean technologies that are in demand as a result of rising shore power needs in ports around the world .
•Market Diversification: To meet the increasing market demand, companies are developing hybrid shore power systems incorporating already existing shore energy solutions to renewable energies ex. solar, wind power, etc. which is more environmentally friendly than fossil fuels. Facilitations of the global shore power market are also extending their geographical boundaries by making investments in Asia Pacific and Middle East regions which are in developing stages and improving their port infrastructures. Such strategic expansion makes it possible for the enterprises to avoid risks, find new profitable sources and comply with the worldwide environmental standards. These factors are driving the growth in the global shore power market.
•Competitive Assessment: In-depth analysis of market share, growth plans, and service offerings of top companies in the global shore power market, including ABB (Switzerland), Schneider Electric (France), General Electric Company (US), Cavotec SA (Switzerland), VINCI Energies (France), Eaton (Ireland), Siemens (Germany), and Wärtsilä (Finland) among others.
1 INTRODUCTION 28
1.1 STUDY OBJECTIVES 28
1.2 MARKET DEFINITION 28
1.3 STUDY SCOPE 29
1.3.1 INCLUSIONS AND EXCLUSIONS 29
1.3.2 MARKETS COVERED AND REGIONAL SCOPE 30
1.3.3 YEARS CONSIDERED 31
1.4 CURRENCY CONSIDERED 31
1.5 LIMITATIONS 31
1.6 STAKEHOLDERS 32
1.7 SUMMARY OF CHANGES 32
2 RESEARCH METHODOLOGY 34
2.1 RESEARCH DATA 34
2.1.1 SECONDARY DATA 35
2.1.1.1 List of key secondary sources 35
2.1.1.2 Key data from secondary sources 35
2.1.2 PRIMARY DATA 36
2.1.2.1 List of primary interview participants 36
2.1.2.2 Key industry insights 36
2.1.2.3 Key data from primary sources 37
2.1.2.4 Breakdown of primaries 37
2.2 MARKET SIZE ESTIMATION METHODOLOGY 39
2.2.1 BOTTOM-UP APPROACH 39
2.2.1.1 Regional analysis 40
2.2.1.2 Country-level analysis 40
2.2.1.3 Demand-side assumptions 40
2.2.1.4 Demand-side calculations 41
2.2.2 TOP-DOWN APPROACH 41
2.2.2.1 Supply-side assumptions 43
2.2.2.2 Supply-side calculations 43
2.3 MARKET BREAKDOWN AND DATA TRIANGULATION 44
2.4 FORECAST 44
2.5 RESEARCH ASSUMPTIONS 45
2.6 RISK ANALYSIS 45
2.7 RESEARCH LIMITATIONS 45
3 EXECUTIVE SUMMARY 46
4 PREMIUM INSIGHTS 50
4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN SHORE POWER MARKET 50
4.2 SHORE POWER MARKET, BY REGION 51
4.3 SHORE POWER MARKET IN ASIA PACIFIC, BY INSTALLATION TYPE AND COUNTRY 52
4.4 SHORE POWER MARKET, BY INSTALLATION TYPE 53
4.5 SHORE POWER MARKET, BY CONNECTION TYPE 53
4.6 SHORE POWER MARKET, BY COMPONENT 53
4.7 SHORE POWER MARKET, BY POWER OUTPUT 54
5 MARKET OVERVIEW 55
5.1 INTRODUCTION 55
5.2 MARKET DYNAMICS 56
5.2.1 DRIVERS 56
5.2.1.1 Rising focus of government authorities on sustainability, carbon neutrality, and decarbonization initiatives 56
5.2.1.2 Increasing maritime traffic and expanding port networks 59
5.2.1.3 Thriving cruise ship industry 60
5.2.2 RESTRAINTS 61
5.2.2.1 High initial investment costs 61
5.2.2.2 Lack of uniform technical and regulatory frameworks across ports 62
5.2.3 OPPORTUNITIES 64
5.2.3.1 Advances in shore power technology 64
5.2.3.2 Integration of renewable energy into shore power systems 64
5.2.4 CHALLENGES 66
5.2.4.1 Limited grid capacity and renewable energy source availability 66
5.2.4.2 Operational and technical challenges of shore power systems 66
5.3 TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS 67
5.4 ECOSYSTEM ANALYSIS 68
5.5 PRICING ANALYSIS 70
5.5.1 INDICATIVE PRICING OF SHORE POWER SYSTEM COMPONENTS, 2023 70
5.5.2 INDICATIVE PRICING OF SHOWER POWER SYSTEMS, BY VESSEL, 2023 71
5.6 INVESTMENT AND FUNDING SCENARIO 71
5.7 SUPPLY CHAIN ANALYSIS 72
5.8 TECHNOLOGY ANALYSIS 74
5.8.1 KEY TECHNOLOGIES 74
5.8.1.1 High-voltage shore connection (HVSC) systems 74
5.8.2 ADJACENT TECHNOLOGIES 74
5.8.2.1 Smart grid technologies 74
5.8.2.2 Modular shore power solutions 74
5.9 KEY CONFERENCES AND EVENTS, 2024–2025 75
5.10 TRADE ANALYSIS 76
5.10.1 IMPORT SCENARIO (HS CODE 8504) 76
5.10.2 EXPORT SCENARIO (HS CODE 8504) 77
5.11 TARIFF AND REGULATORY LANDSCAPE 78
5.11.1 TARIFF ANALYSIS (HS CODE 8504) 78
5.11.2 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 79
5.11.3 CODES AND REGULATIONS RELATED TO GLOBAL SHORE POWER MARKET 82
5.12 PATENT ANALYSIS 83
5.13 PORTER’S FIVE FORCES ANALYSIS 85
5.13.1 THREAT OF NEW ENTRANTS 87
5.13.2 THREAT OF SUBSTITUTES 87
5.13.3 BARGAINING POWER OF SUPPLIERS 87
5.13.4 BARGAINING POWER OF BUYERS 87
5.13.5 INTENSITY OF COMPETITIVE RIVALRY 88
5.14 KEY STAKEHOLDERS AND BUYING CRITERIA 88
5.14.1 KEY STAKEHOLDERS IN BUYING PROCESS 88
5.14.2 BUYING CRITERIA 89
5.15 CASE STUDY ANALYSIS 90
5.15.1 WASALINE IMPROVES ENERGY EFFICIENCY OF HYBRID ELECTRIC FERRY WITH DANFOSS DRIVES’ VACON 100 DRIVES 90
5.15.2 SEAM AND DANFOSS DRIVES ASSIST NESODD FERRIES IN DELIVERING ZERO-EMISSION SERVICES TO COMMUTERS 90
5.15.3 DANFOSS DRIVES RETROFITS SKULEBAS TRAINING VESSEL FOR GREENER AND MORE EFFICIENT FISHING PRACTICES 91
5.16 IMPACT OF GENERATIVE AI/AI ON SHORE POWER MARKET 91
5.17 MACROECONOMIC OUTLOOK FOR SHORE POWER MARKET 93
5.17.1 IMPACT OF GDP ON SHORE POWER MARKET 93
5.17.2 RESEARCH AND DEVELOPMENT EXPENDITURE 94
5.17.3 INVESTMENTS IN SHORE POWER SYSTEMS 94
5.17.4 TRANSFORMATION OF POWER SECTOR THROUGH INVESTMENT IN SMART GRID TECHNOLOGY 95
6 SHORE POWER MARKET, BY INSTALLATION TYPE 96
6.1 INTRODUCTION 97
6.2 SHORESIDE 98
6.2.1 RISING ADOPTION OF RENEWABLE ENERGY TO ACHIEVE SUSTAINABILITY GOALS TO DRIVE SEGMENTAL GROWTH 98
6.3 SHIPSIDE 99
6.3.1 PRESSING NEED TO REDUCE EMISSIONS AND MINIMIZE NOISE POLLUTION IN PORT AREAS TO ACCELERATE SEGMENTAL GROWTH 99
6.3.2 BY VESSEL 100
6.3.2.1 Cruise 101
6.3.2.1.1 Rising investments by cruise industry in alternative fuels and advanced power technologies to augment market growth 101
6.3.2.2 Ferry 103
6.3.2.2.1 Increasing focus on sustainable public transportation to fuel segmental growth 103
6.3.2.3 Container vessel 104
6.3.2.3.1 Emphasis on sustainable logistics to increase adoption of shore power systems 104
6.3.2.4 Ro-Ro and vehicle carrier 105
6.3.2.4.1 Rising demand for efficient and eco-friendly port operations to fuel segmental growth 105
6.3.2.5 Bulk carrier 106
6.3.2.5.1 Urgent need to reduce dependence on auxiliary engines to create potential for market growth 106
6.3.2.6 Tanker 107
6.3.2.6.1 Environmental regulations enabling greener and sustainable operations to contribute to market growth 107
6.3.2.7 General cargo 108
6.3.2.7.1 Rising fuel costs to encourage adoption of shore power systems 108
6.3.2.8 Other vessels 110
7 SHORE POWER MARKET, BY CONNECTION TYPE 112
7.1 INTRODUCTION 113
7.2 NEW INSTALLATIONS 114
7.2.1 RAPID TRANSITION OF SHIPPING INDUSTRY TOWARD ALTERNATIVE FUELS TO CREATE LUCRATIVE OPPORTUNITIES 114
7.3 RETROFITS 115
7.3.1 PRESSING NEED TO MODERNIZE SHIPPING FLEET TO SUPPORT MARKET GROWTH 115
8 SHORE POWER MARKET, BY COMPONENT 117
8.1 INTRODUCTION 118
8.2 FREQUENCY CONVERTERS 119
8.2.1 ABILITY TO ENSURE SMOOTH OPERATION OF ONBOARD SYSTEMS BY OFFERING CORRECT FREQUENCY POWER TO ACCELERATE DEMAND 119
8.3 TRANSFORMERS 120
8.3.1 SIGNIFICANCE OF VOLTAGE REGULATION AND POWER DISTRIBUTION IN SHORE POWER SYSTEMS TO SPIKE DEMAND 120
8.4 SWITCHGEAR DEVICES 121
8.4.1 INCREASING FOCUS OF MARITIME INDUSTRY PLAYERS ON ELECTRIFICATION AND DECARBONIZATION TO BOOST DEMAND 121
8.5 CABLES & ACCESSORIES 123
8.5.1 RISING ADOPTION OF HIGHER VOLTAGE SHORE POWER SYSTEMS TO FUEL SEGMENTAL GROWTH 123
8.6 OTHER COMPONENTS 124
9 SHORE POWER MARKET, BY POWER OUTPUT 126
9.1 INTRODUCTION 127
9.2 BELOW 30 MVA 128
9.2.1 EMPHASIS OF CRUISE SHIPS AND FERRIES ON CURBING GHG EMISSIONS TO SPIKE DEMAND 128
9.3 30–60 MVA 129
9.3.1 NEED TO COMPLY WITH STRICT ENVIRONMENTAL REGULATIONS TO STIMULATE DEMAND 129
9.4 ABOVE 60 MVA 130
9.4.1 INCREASING INVESTMENT IN BUILDING HIGH-CAPACITY SHORE POWER FACILITIES TO FUEL SEGMENTAL GROWTH 130
10 SHORE POWER MARKET, BY REGION 132
10.1 INTRODUCTION 133
10.2 ASIA PACIFIC 135
10.2.1 CHINA 141
10.2.1.1 Investment in developing technologically advanced shore power system components to support market growth 141
10.2.2 INDIA 143
10.2.2.1 Adoption of cleaner fuels for port vehicles to create growth opportunities 143
10.2.3 SOUTH KOREA 145
10.2.3.1 Substantial investment in green port initiatives to drive market 145
10.2.4 AUSTRALIA 147
10.2.4.1 Initiatives to reduce greenhouse gas emissions from maritime activities to spur demand 147
10.2.5 SINGAPORE 149
10.2.5.1 Strategic investments in port infrastructure to fuel market growth 149
10.2.6 JAPAN 151
10.2.6.1 Significant focus on meeting international environmental standards to foster market growth 151
10.2.7 REST OF ASIA PACIFIC 153
10.3 NORTH AMERICA 156
10.3.1 US 161
10.3.1.1 Clean energy transitions in transportation sector to accelerate demand 161
10.3.2 CANADA 163
10.3.2.1 Funding initiatives by federal and provincial governments to reduce GHG emissions in ports to boost demand 163
10.3.3 MEXICO 165
10.3.3.1 Significant focus on improving logistics infrastructure and reducing environmental impact to increase adoption 165
10.4 EUROPE 168
10.4.1 GERMANY 172
10.4.1.1 Emphasis on becoming leader in sustainable maritime practices to augment market growth 172
10.4.2 UK 174
10.4.2.1 Adoption of Clean Maritime Plan to achieve net-zero emission goals to support market growth 174
10.4.3 SWEDEN 176
10.4.3.1 Efforts to decarbonize maritime transport to propel market 176
10.4.4 NETHERLANDS 178
10.4.4.1 Initiative of transforming ports into carbon-neutral hubs to stimulate demand 178
10.4.5 NORWAY 181
10.4.5.1 Investments in green technologies to improve air quality in port areas to drive market 181
10.4.6 REST OF EUROPE 183
10.5 MIDDLE EAST & AFRICA 185
10.5.1 GCC 190
10.5.1.1 Saudi Arabia 190
10.5.1.1.1 Integration of renewable energy into maritime infrastructure to support market growth 190
10.5.1.2 UAE 193
10.5.1.2.1 Significant investments in solar and wind energy projects to provide clean electricity for ships to accelerate market growth 193
10.5.1.3 Rest of GCC 195
10.5.2 EGYPT 197
10.5.2.1 Integration of renewable sources into shore power systems to drive market 197
10.5.3 SOUTH AFRICA 199
10.5.3.1 Government focus on reducing maritime pollution to boost demand 199
10.5.4 REST OF MIDDLE EAST & AFRICA 201
10.6 SOUTH AMERICA 204
10.6.1 BRAZIL 208
10.6.1.1 Extensive investments in renewable energy to create opportunities for shore power system providers 208
10.6.2 ARGENTINA 210
10.6.2.1 Commitment to sustainability and reducing emissions in key port areas to drive market 210
10.6.3 REST OF SOUTH AMERICA 212
11 COMPETITIVE LANDSCAPE 215
11.1 INTRODUCTION 215
11.2 KEY PLAYER STRATEGIES/RIGHT TO WIN, 2021–2024 215
11.3 REVENUE ANALYSIS, 2019–2023 218
11.4 MARKET SHARE ANALYSIS, 2023 219
11.5 COMPANY VALUATION AND FINANCIAL METRICS 222
11.6 PRODUCT TYPE-/GEOGRAPHIC PRESENCE-WISE COMPARISON 223
11.7 COMPANY EVALUATION MATRIX: KEY PLAYERS, 2023 224
11.7.1 STARS 224
11.7.2 EMERGING LEADERS 224
11.7.3 PERVASIVE PLAYERS 224
11.7.4 PARTICIPANTS 224
11.7.5 COMPANY FOOTPRINT: KEY PLAYERS, 2023 226
11.7.5.1 Company footprint 226
11.7.5.2 Region footprint 227
11.7.5.3 Installation type footprint 228
11.7.5.4 Power output footprint 229
11.7.5.5 Connection type footprint 230
11.8 COMPANY EVALUATION MATRIX: STARTUPS/SMES, 2023 231
11.8.1 PROGRESSIVE COMPANIES 231
11.8.2 RESPONSIVE COMPANIES 231
11.8.3 DYNAMIC COMPANIES 231
11.8.4 STARTING BLOCKS 231
11.8.5 COMPETITIVE BENCHMARKING: STARTUPS/SMES, 2023 233
11.8.5.1 Detailed list of key startups/SMEs 233
11.8.5.2 Competitive benchmarking of key startups/SMEs 233
11.9 COMPETITIVE SCENARIO 234
11.9.1 PRODUCT LAUNCHES/DEVELOPMENTS 234
11.9.2 DEALS 235
11.9.3 EXPANSIONS 240
11.9.4 OTHER DEVELOPMENTS 241
12 COMPANY PROFILES 242
12.1 KEY PLAYERS 242
12.1.1 GENERAL ELECTRIC COMPANY 242
12.1.1.1 Business overview 242
12.1.1.2 Products offered 243
12.1.1.3 Recent developments 244
12.1.1.3.1 Deals 244
12.1.1.4 MnM view 245
12.1.1.4.1 Key strengths/Right to win 245
12.1.1.4.2 Strategic choices 245
12.1.1.4.3 Weaknesses/Competitive threats 246
12.1.2 SIEMENS 247
12.1.2.1 Business overview 247
12.1.2.2 Products offered 248
12.1.2.3 Recent developments 249
12.1.2.3.1 Product launches/Developments 249
12.1.2.3.2 Deals 250
12.1.2.3.3 Other developments 250
12.1.2.3.4 Expansions 251
12.1.2.4 MnM view 251
12.1.2.4.1 Key strengths/Right to win 251
12.1.2.4.2 Strategic choices 251
12.1.2.4.3 Weaknesses/Competitive threats 251
12.1.3 SCHNEIDER ELECTRIC 252
12.1.3.1 Business overview 252
12.1.3.2 Products offered 253
12.1.3.3 Recent developments 254
12.1.3.3.1 Deals 254
12.1.3.3.2 Expansions 254
12.1.3.4 MnM view 255
12.1.3.4.1 Key strengths/Right to win 255
12.1.3.4.2 Strategic choices 255
12.1.3.4.3 Weaknesses/Competitive threats 255
12.1.4 ABB 256
12.1.4.1 Business overview 256
12.1.4.2 Products offered 257
12.1.4.3 Recent developments 258
12.1.4.3.1 Product launches 258
12.1.4.3.2 Deals 258
12.1.4.3.3 Other developments 260
12.1.4.4 MnM view 260
12.1.4.4.1 Key strengths/Right to win 260
12.1.4.4.2 Strategic choices 260
12.1.4.4.3 Weaknesses/Competitive threats 261
12.1.5 CAVOTEC SA 262
12.1.5.1 Business overview 262
12.1.5.2 Products offered 263
12.1.5.3 Recent developments 264
12.1.5.3.1 Deals 264
12.1.5.3.2 Other developments 265
12.1.5.4 MnM view 266
12.1.5.4.1 Key strengths/Right to win 266
12.1.5.4.2 Strategic choices 266
12.1.5.4.3 Weaknesses/Competitive threats 266
12.1.6 EATON 267
12.1.6.1 Business overview 267
12.1.6.2 Products offered 268
12.1.6.3 Recent developments 269
12.1.6.3.1 Deals 269
12.1.6.3.2 Other developments 270
12.1.7 VINCI ENERGIES 271
12.1.7.1 Business overview 271
12.1.7.2 Products offered 272
12.1.7.3 Recent developments 273
12.1.7.3.1 Deals 273
12.1.8 WÄRTSILÄ 274
12.1.8.1 Business overview 274
12.1.8.2 Products offered 275
12.1.8.3 Recent developments 276
12.1.8.3.1 Deals 276
12.1.9 HITACHI ENERGY LTD. 277
12.1.9.1 Business overview 277
12.1.9.2 Products offered 278
12.1.9.3 Recent developments 280
12.1.9.3.1 Developments 280
12.1.10 DANFOSS 281
12.1.10.1 Business overview 281
12.1.10.2 Products offered 282
12.1.10.3 Recent developments 284
12.1.10.3.1 Deals 284
12.1.11 WABTEC CORPORATION 285
12.1.11.1 Business overview 285
12.1.11.2 Products offered 286
12.1.11.3 Recent developments 287
12.1.11.3.1 Deals 287
12.1.12 POWERCON A/S 288
12.1.12.1 Business overview 288
12.1.12.2 Products offered 288
12.1.12.3 Recent developments 289
12.1.12.3.1 Deals 289
12.1.13 ESL POWER SYSTEMS, INC. 290
12.1.13.1 Business overview 290
12.1.13.2 Products offered 290
12.1.14 IGUS 292
12.1.14.1 Business overview 292
12.1.14.2 Products offered 292
12.1.15 BLUE DAY TECHNOLOGY 294
12.1.15.1 Business overview 294
12.1.15.2 Products offered 294
12.1.15.3 Recent developments 295
12.1.15.3.1 Deals 295
12.1.15.3.2 Other developments 295
12.1.16 WATTS MARINE 296
12.1.16.1 Business overview 296
12.1.16.2 Products offered 296
12.1.16.3 Recent developments 297
12.1.16.3.1 Deals 297
12.1.17 AC POWER CORP. 298
12.1.17.1 Business overview 298
12.1.17.2 Products offered 298
12.1.18 SMARTPLUG 299
12.1.18.1 Business overview 299
12.1.18.2 Products offered 299
12.1.19 PILLER POWER SYSTEMS 300
12.1.19.1 Business overview 300
12.1.19.2 Products offered 300
12.1.20 POWER SYSTEMS INTERNATIONAL 301
12.1.20.1 Business overview 301
12.1.20.2 Products offered 301
12.2 OTHER PLAYERS 302
12.2.1 MANTA MARINE TECHNOLOGIES 302
12.2.2 CONNTEK INTEGRATED SOLUTIONS INC (U.S.A) 303
12.2.3 PATTON & COOKE CO. 304
12.2.4 RATIO ELECTRIC B.V. 304
12.2.5 SYDNEY MARINE ELECTRICALS 305
13 APPENDIX 306
13.1 INSIGHTS FROM INDUSTRY EXPERTS 306
13.2 DISCUSSION GUIDE 306
13.3 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 310
13.4 CUSTOMIZATION OPTIONS 312
13.5 RELATED REPORTS 312
13.6 AUTHOR DETAILS 313
❖ 世界の陸上電力市場に関するよくある質問(FAQ) ❖
・陸上電力の世界市場規模は?
→MarketsandMarkets社は2024年の陸上電力の世界市場規模を20.3億米ドルと推定しています。
・陸上電力の世界市場予測は?
→MarketsandMarkets社は2029年の陸上電力の世界市場規模を35.8億米ドルと予測しています。
・陸上電力市場の成長率は?
→MarketsandMarkets社は陸上電力の世界市場が2024年~2029年に年平均12.0%成長すると予測しています。
・世界の陸上電力市場における主要企業は?
→MarketsandMarkets社は「ABB (Switzerland)、Schneider Electric (France)、General Electric Company (US)、Eaton (Ireland)、Siemens (Germany)、and Cavotec SA (Switzerland)など ...」をグローバル陸上電力市場の主要企業として認識しています。
※上記FAQの市場規模、市場予測、成長率、主要企業に関する情報は本レポートの概要を作成した時点での情報であり、納品レポートの情報と少し異なる場合があります。
