1 INTRODUCTION 19
1.1 STUDY OBJECTIVES 19
1.2 MARKET DEFINITION AND SCOPE 19
1.2.1 SHORE POWER MARKET, BY INSTALLATION TYPE: INCLUSIONS & EXCLUSIONS 20
1.2.2 SHORE POWER MARKET, BY CONNECTION: INCLUSIONS & EXCLUSIONS 20
1.2.3 SHORE POWER MARKET, BY COMPONENT: INCLUSIONS & EXCLUSIONS 20
1.2.4 SHORE POWER MARKET, BY POWER OUTPUT: INCLUSIONS & EXCLUSIONS 21
1.3 MARKET SCOPE 21
1.3.1 MARKET SEGMENTATION 21
1.3.2 REGIONAL SCOPE 22
1.3.3 YEARS CONSIDERED 22
1.4 CURRENCY 22
1.5 LIMITATIONS 23
1.6 STAKEHOLDERS 23
1.7 SUMMARY OF CHANGES 23

2 RESEARCH METHODOLOGY 24
2.1 RESEARCH DATA 24
2.1.1 SECONDARY DATA 26
2.1.1.1 Key data from secondary sources 26
2.1.2 PRIMARY DATA 26
2.1.2.1 Key data from primary sources 27
2.1.2.2 Break-up of primaries 27
2.2 SCOPE 28
2.3 MARKET SIZE ESTIMATION 29
2.3.1 DEMAND-SIDE ANALYSIS 29
2.3.1.1 Key assumptions 30
2.3.1.2 Calculation 30
2.3.2 FORECAST 30
2.3.3 SUPPLY-SIDE ANALYSIS 31
2.3.3.1 Assumptions and calculation 32

3 EXECUTIVE SUMMARY 33
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4 PREMIUM INSIGHTS 39
4.1 ATTRACTIVE OPPORTUNITIES IN SHORE POWER MARKET 39
4.2 SHORE POWER MARKET, BY REGION 40
4.3 SHORE POWER MARKET, BY INSTALLATION TYPE 40
4.4 SHORE POWER MARKET, BY CONNECTION 41
4.5 NORTH AMERICAN SHORE POWER MARKET, BY INSTALLATION TYPE AND COUNTRY, 2019 41
4.6 SHORE POWER MARKET, BY COMPONENT 41

5 MARKET OVERVIEW 42
5.1 INTRODUCTION 42
5.2 COVID-19 HEALTH ASSESSMENT 42
5.3 MARKET DYNAMICS 43
5.3.1 DRIVERS 44
5.3.1.1 Growing noise and air pollution from port operations 44
5.3.1.2 Increasing number of cruise passengers 44
5.3.1.3 Rising government initiatives to reduce greenhouse gas emissions from ports and supportive shore power regulations 45
5.3.2 RESTRAINTS 46
5.3.2.1 High CAPEX investments 46
5.3.3 OPPORTUNITIES 46
5.3.3.1 Retrofitting older ships and ports with shore power technology 46
5.3.3.2 Integrating shore power with offshore wind, floating solar, and other renewables 47
5.3.4 CHALLENGES 47
5.3.4.1 Low fuel costs and minimal returns 47
5.3.4.2 Operational difficulties and technical challenges 47
5.4 IMPACT OF COVID-19 48
5.4.1 IMPACT ON SHIPPING INDUSTRY 48
5.5 TECHNOLOGY ANALYSIS 49
5.5.1 WIRELESS SHORE POWER 49
5.6 VALUE CHAIN ANALYSIS 49
5.6.1 SHORE POWER MANUFACTURERS AND PROVIDERS 50
5.6.2 PORT AUTHORITIES 50
5.6.3 SHIPPING INDUSTRY 51
5.6.4 GOVERNMENT REGULATIONS 51
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6 COVID-19 IMPACT ON SHORE POWER MARKET, SCENARIO ANALYSIS,
BY REGION 52
6.1 INTRODUCTION 52
6.2 IMPACT OF COVID-19 ON GDP 52
6.2.1 SCENARIO ANALYSIS OF CARGO SHIPPING AND CRUISE LINER INDUSTRY 53
6.2.2 OPTIMISTIC SCENARIO 53
6.2.3 REALISTIC SCENARIO 54
6.2.4 PESSIMISTIC SCENARIO 55

7 SHORE POWER MARKET, BY INSTALLATION TYPE 56
7.1 INTRODUCTION 57
7.2 SHORESIDE 58
7.2.1 EMPHASIS ON CURBING CARBON EMISSIONS CREATING REQUIREMENT FOR SHORESIDE INSTALLATIONS 58
7.3 SHIPSIDE 59
7.3.1 LOW COST OF DEPLOYMENT AND SEAMLESS INTEGRATION OF PORT OPERATIONS BOOSTING MARKET FOR SHIPSIDE INSTALLATIONS 59

8 SHORE POWER MARKET, BY CONNECTION 61
8.1 INTRODUCTION 62
8.2 NEW INSTALLATION 63
8.2.1 STRINGENT GOVERNMENT REGULATIONS AND LOW INSTALLATION COST FOSTER MARKET FOR NEW INSTALLATIONS 63
8.3 RETROFIT 64
8.3.1 INCREASED NEED TO MINIMIZE CARBON EMISSIONS AND NOISE LEVELS FROM OLD SHIPS ENCOURAGES ADOPTION OF RETROFIT SOLUTIONS 64

9 SHORE POWER MARKET, BY COMPONENT 65
9.1 INTRODUCTION 66
9.2 TRANSFORMERS 67
9.2.1 GROWING TRANSFORMER REQUIREMENT FOR SMOOTH OPERATION OF SHORE POWER SYSTEMS 67
9.3 SWITCHGEAR DEVICES 68
9.3.1 RISING NEED FOR SWITCHGEAR DEVICES TO ENSURE RELIABLE AND SAFE SHORE POWER OPERATIONS 68
9.4 FREQUENCY CONVERTERS 69
9.4.1 SURGING DEMAND FOR FREQUENCY CONVERTERS TO MATCH SHIPSIDE AND SHORESIDE FREQUENCIES 69
9.5 CABLES AND ACCESSORIES 70
9.5.1 GROWING NECESSITY FOR CABLES AND SUPPORTING ACCESSORIES FOR PROPER TRANSMISSION OF POWER 70
9.6 OTHERS 71
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10 SHORE POWER MARKET, BY POWER OUTPUT 72
10.1 INTRODUCTION 73
10.2 UP TO 30 MVA 74
10.2.1 REQUIREMENT FOR LOW CAPEX, COUPLED WITH THEIR COMPACT DIMENSIONS, BOOSTING DEMAND FOR SHORE POWER SYSTEMS HAVING POWER RANGE OF UP TO 30 MVA 74
10.3 30 TO 60 MVA 74
10.3.1 FOCUS OF SHIPBUILDERS TO CONSTRUCT LARGE AND EXTRA LARGE SHIPS TO DRIVE DEMAND FOR SHORE POWER SYSTEMS WITH POWER OUTPUT RANGING FROM 30 TO 60 MVA 74
10.4 ABOVE 60 MVA 75
10.4.1 ABILITY TO SUPPLY MULTIPLE SHIPS PARALLELLY TO PROPEL GROWTH OF MARKET FOR SHORE POWER SYSTEMS HAVING POWER OUTPUT OF ABOVE 60 MVA 75

11 SHORE POWER MARKET, BY REGION 76
11.1 INTRODUCTION 77
11.2 NORTH AMERICA 78
11.2.1 IMPACT OF COVID-19 ON NORTH AMERICAN SHORE POWER MARKET: 79
11.2.2 US 81
11.2.2.1 Growing shipping industry with increasing tourism and trade to boost demand for shore power systems 81
11.2.3 CANADA 83
11.2.3.1 Increasing investments in oil & gas projects to promote shore power setup at ports 83
11.3 SOUTH AMERICA 84
11.3.1 IMPACT OF COVID-19 ON SOUTH AMERICAN SHORE POWER MARKET: 84
11.3.2 BRAZIL 86
11.3.2.1 Growing oil export activities in Brazil to create need for shore power systems 86
11.3.3 ARGENTINA 88
11.3.3.1 Increasing trading of mined minerals to be beneficial for shore power market in future 88
11.3.4 REST OF SOUTH AMERICA 89
11.4 MIDDLE EAST & AFRICA 90
11.4.1 IMPACT OF COVID-19 ON MIDDLE EASTERN & AFRICAN SHORE POWER MARKET: 91
11.4.2 UAE 93
11.4.2.1 Increasing oil trading and tourism activities to generate need for shore power 93
11.4.3 SAUDI ARABIA 94
11.4.3.1 Increasing trading activities of oil and natural gas to create favorable conditions for shore power market 94
11.4.4 EGYPT 95
11.4.4.1 Rising focus on implementing shore power systems on multiple ports to foster market growth 95
11.4.5 SOUTH AFRICA 97
11.4.5.1 Growing trading-related activities of oil and natural gas to encourage utilization of shore power technique on ports 97
11.4.6 REST OF MIDDLE EAST & AFRICA 98
11.5 EUROPE 99
11.5.1 IMPACT OF COVID-19 ON EUROPEAN SHORE POWER MARKET: 100
11.5.2 SWEDEN 102
11.5.2.1 Surging requirement for importing goods and growing cruise ship tourism to propel shore power market growth 102
11.5.3 GERMANY 104
11.5.3.1 Rapidly growing maritime and shipping industries to accelerate demand for shore power systems 104
11.5.4 UK 105
11.5.4.1 Thriving shipping industry in country to fuel installation of shore power systems 105
11.5.5 RUSSIA 107
11.5.5.1 Increasing sea-bound trade to boost shore power demand 107
11.5.6 NETHERLANDS 108
11.5.6.1 Enhancing maritime industry in country stimulating need for shore power to minimize pollution 108
11.5.7 NORWAY 109
11.5.7.1 Rising focus on deployment of new technologies such as shore power to reduce carbon footprint 109
11.5.8 REST OF EUROPE 111
11.6 ASIA PACIFIC 112
11.6.1 IMPACT OF COVID-19 ON SHORE POWER MARKET IN ASIA PACIFIC: 112
11.6.2 CHINA 114
11.6.2.1 Increased vessel movement with growing trading activities to propel growth of shore power market 114
11.6.3 JAPAN 116
11.6.3.1 High emphasis on reducing carbon emissions, coupled with expanding trading activities, to spur shore power demand 116
11.6.4 SOUTH KOREA 117
11.6.4.1 Rapid growth of shipbuilding industry requires country to be well equipped with shore power systems 117
11.6.5 INDIA 118
11.6.5.1 High government focus to make country cleaner and greener, along with thriving maritime industry, to support adoption of shore power technology 118
11.6.6 AUSTRALIA 120
11.6.6.1 Trading of fuels and growing shipbuilding industry to create opportunities for providers of shore power systems 120
11.6.7 SINGAPORE 121
11.6.7.1 High emphasis of government on utilization of green solutions to reduce carbon emissions likely to encourage implementation of shore power solutions 121
11.6.8 REST OF ASIA PACIFIC 122
12 COMPETITIVE LANDSCAPE 124
12.1 OVERVIEW 124
12.2 COMPETITIVE LEADERSHIP MAPPING (OVERALL MARKET) 125
12.2.1 STAR 125
12.2.2 EMERGING LEADERS 125
12.2.3 PERVASIVE 125
12.2.4 OTHER PLAYERS 125
12.3 MARKET SHARE, 2019 126
12.4 REVENUE ANALYSIS OF TOP 5 PLAYERS 127
12.5 COMPETITIVE SCENARIO 128
12.5.1 CONTRACTS & AGREEMENTS 128
12.5.2 PARTNERSHIPS & COLLABORATIONS 129
12.5.3 INVESTMENTS & EXPANSIONS 129
12.5.4 PRODUCT LAUNCHES 129
12.5.5 MERGERS & ACQUISITIONS 129
13 COMPANY PROFILES 130
13.1 SIEMENS 130
(Business Overview, Products/Solutions/Services Offered, Recent Developments, SWOT Analysis, and MNM View)*
13.2 SCHNEIDER ELECTRIC 134
13.3 CAVOTEC 138
13.4 WARTSILA 141
13.5 VINCI ENERGIES 144
13.6 DANFOSS 146
13.7 ABB (HITACHI) 148
13.8 ESL POWER SYSTEMS 151
13.9 IGUS 152
13.10 BLUEDAY TECHNOLOGY 153
13.11 COCHRAN MARINE 155
13.12 PREEN 156
13.13 SMARTPLUG 157
13.14 PILLER POWER SYSTEMS 158
13.15 POWER SYSTEMS INTERNATIONAL 159
13.16 RATIO ELECTRIC 160
13.17 SYDNEY MARINE ELECTRICAL 160
13.18 OCEAN ELECTRICS 160
13.19 CONNTEK INTEGRATED SOLUTIONS 161
13.20 PATTON AND COOKE 161
*Details on Business Overview, Products/Solutions/Services Offered, Recent Developments, SWOT Analysis, and MNM View might not be captured in case of unlisted companies.

14 APPENDIX 162
14.1 INSIGHTS OF INDUSTRY EXPERTS 162
14.2 DISCUSSION GUIDE 163
14.3 KNOWLEDGE STORE 166
14.4 AVAILABLE CUSTOMIZATIONS 168
14.5 RELATED REPORTS 168
14.6 AUTHOR DETAILS 169