PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1494759
PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1494759
According to Stratistics MRC, the Global Shore Power Market is accounted for $2.0 billion in 2024 and is expected to reach $4.3 billion by 2030 growing at a CAGR of 13.2% during the forecast period. Shore power, also known as "cold ironing" or "shore-to-ship power," is the process of providing electrical power from the shore to a ship while it is docked. This allows the ship to turn off its onboard diesel generators, which are typically used to generate electricity for essential systems such as lighting, heating, cooling, and other operations. Shore power helps to reduce air pollution, noise, and vibrations in port areas by minimizing the use of diesel engines.
According to the United Nations Conference on Trade and Development, maritime transport is the foundation of international trade and the global economy with over 80% of the volume of global trade in goods is carried by sea, and the percentage is even higher for most developing countries
Increased port traffic
The market is witnessing a surge in port traffic, driven by increasing environmental regulations and sustainability initiatives in the maritime sector. Ports worldwide are embracing shore power solutions to reduce emissions and meet carbon reduction targets. This uptick in port traffic underscores the growing adoption of shore power technologies by shipping companies seeking to minimize their carbon footprint while in port. The trend signals a significant shift towards cleaner and more sustainable practices within the global maritime industry.
Standardization Issues
Standardization poses a significant challenge in the shore power market, hindering widespread adoption and interoperability. Varying technical specifications across ports and regions create compatibility issues between shore power systems and vessels. This lack of standardization increases costs for both port operators and shipping companies, discouraging investment in shore power infrastructure. Additionally, differing regulations and standards complicate the development of universal solutions, impeding progress toward a more sustainable maritime industry.
Renewable energy integration
Renewable energy integration in the shore power market represents a pivotal step towards sustainable maritime operations. By harnessing sources like wind, solar, or tidal power, ports can reduce reliance on fossil fuels, mitigating environmental impact and cutting emissions. Shore power infrastructure enables vessels to connect to the electrical grid while docked, facilitating the seamless integration of renewable energy into maritime activities. This transition not only promotes cleaner air and water but also fosters innovation and resilience in the global shipping industry.
High upfront costs
In the market, high upfront costs pose a significant barrier to entry. Implementing shore power infrastructure requires substantial investment in specialized equipment such as shore connection systems, electrical infrastructure upgrades, and vessel modifications. These costs encompass not only the hardware but also engineering, permitting, and installation expenses. Additionally, the complexity of integrating shore power with existing port infrastructure further adds to the initial financial burden.
The COVID-19 pandemic significantly affected the shore power market, causing disruptions in both supply and demand. Travel restrictions and lockdown measures led to reduced maritime activities, resulting in decreased demand for shore power solutions. Delays in infrastructure projects and financial uncertainties also hampered investment in port electrification. However, the pandemic highlighted the importance of reducing emissions in the maritime sector, potentially driving long-term growth in the adoption of shore power technologies as part of sustainability efforts within the industry.
The cables and accessories segment is expected to be the largest during the forecast period
The cables and accessories is expected to be the largest during the forecast period. These components encompass a range of specialized cables, connectors, transformers, and distribution panels designed to handle high voltage power transfer. With a focus on durability, weather resistance, and compatibility with varying vessel types, these accessories facilitate seamless power delivery, minimizing downtime and optimizing energy efficiency for vessels relying on shore power connections.
The passenger ports segment is expected to have the highest CAGR during the forecast period
The passenger ports segment is expected to have the highest CAGR during the forecast period driven by environmental concerns and regulations to reduce emissions. Shore power, also known as cold ironing or Alternative Maritime Power (AMP), allows ships to connect to land-based electrical power while docked, eliminating the need to run their engines. This not only reduces air pollution but also noise levels in port areas. Major passenger ports worldwide are increasingly investing in shore power infrastructure to support sustainable maritime operations and enhance their environmental credentials.
North America is projected to hold the largest market share during the forecast period. Shore power, also known as cold ironing or alternative maritime power (AMP), enables vessels to connect to the electrical grid while docked, reducing emissions from onboard generators. With a focus on sustainability and reducing air pollution in ports, governments and port authorities are incentivizing the implementation of shore power infrastructure, fostering market expansion across the continent.
Asia Pacific is projected to hold the highest CAGR over the forecast period driven by the increasing adoption of clean energy solutions and stringent environmental regulations. The Asia Pacific shore power market encompasses various stakeholders, including port authorities, shipowners, technology providers, and government agencies. It involves the installation of shore power equipment such as connection points, transformers, and electrical infrastructure in ports, as well as the modification of ships to enable shore power compatibility.
Key players in the market
Some of the key players in Shore Power market include Siemens , Schneider Electric SE, ABB, Wartsila, Cavotec, ESL Power Systems, Inc., VINCI Energies SA, Cochran Marine LLC, Blueday Technology, SmartPlug System, Power Systems International, Igus Inc., Ensmart Power Ltd, Nidec Industrial Solutions and Hitachi Energy Ltd.
In May 2023, ABB signed an agreement with Finnish shipbuilder Meyer Turku to supply two new Finnish multipurpose patrol vessels with an integrated power and propulsion package, including two Azipod thrusters and an Onboard DC Grid(TM) electrical system.
In September 2022, Wartsila Corporation signed a contract to supply an integrated hybrid propulsion system for two new hybrid ro-ro vessels. The ships would be built at China Merchants Jinling Shipyard (Weihai) Co., Ltd. for the Swedish shipping company Stena RoRo.
In May 2022, Siemens announced the construction of two new SIHARBOR in Kiel, which will be Europe's largest shore-power connections and will be operating by the end of year 2023. These two shore power systems supply sustainable power through local power grid systems.