• Baltic Sea ports are showing strong affinity towards the deployment of shore power infrastructure.
• Currently, more than 90 shore power facilities are available at the major ports of the Baltic Sea region.
• Ports as well as cruise line owners are pushing to curtail the emissions caused by vessels calling at the ports in the Baltic Sea region.

Baltic Sea ports are showing strong affinity towards the deployment of shore power infrastructure, which is in line with that aim at decarbonizing maritime operations in the region. The Baltic Sea has an accumulative area of 149,000 sq miles, connecting the coastal lines of Denmark, Sweden, Finland, Russia, Estonia, Latvia, Lithuania, Poland, and Germany. The region, therefore, boasts major European cruise ports, including the ports of Stockholm, Rostock, Gothenburg, and Visby.

Currently, more than 90 shore power facilities are available at the major ports of the Baltic Sea region, with highest number of installed facilities in Sweden, followed by Germany and Finland.

Key Programs and Activities in the Baltic Shore Power Market

Ports in the Baltic Sea Region have shown a strong tilt towards making their maritime operations carbon neutral by 2030. In this vein, a number of regional programs have been launched to promote the use of alternative fuel technologies, mostly onshore power supply, in accordance with targets set by the , including:

1. EU strategy for the Baltic Sea Region (EUSBSR)
2. HELCOM Baltic Sea Regional Plan
3. Clean Baltic Sea Shipping program
4. Interreg Baltic Sea Region (Green Cruise Port Action Plan)

    

   Ports as well as cruise line owners are pushing to curtail the emissions caused by vessels calling at the ports in the Baltic Sea region. Key activities in the Baltic shore power market are:

1.  The TEN-T Core Network marine ports of Aarhus (Denmark), Copenhagen (Denmark), Stockholm (Sweden), and Helsinki (Finland) have made air quality a major priority on their environmental agendas in the pursuit of a low-emission transportation system. Creating environmentally sustainable ports by installing onshore power supplies to serve ROPAX and passenger vessels by 2024 is one step in addressing this issue.

2. The Port of Kapellskär intends to install shore electricity for vessels as part of the port’s expansion of terminals, to accommodate an increase in the number of passenger ships arriving at the port. Funding will also be provided by the Interreg Baltic Sea Region.
3. Hamburg is planning to be the first port in Europe to provide shore power supply to large container ships at Burchardkai, Europakai and Predohlkai terminals along with all cruise terminals. At each cruise terminal in HafenCity (CC1) and Steinwerder (CC3), one shore side power plant will be constructed. The shore side power plant will be built under the Hamburg Port Authority; the German Ministry of Economics and Energy will provide USD from the Energy and Climate fund to build the plant, which is expected to
4. CruiseCopenhagen, a major Danish shipping firm, has set goals to promote environmentally friendly practices in the cruise industry. Its 2024 strategy is set to pave the way for sustainable and environmentally friendly tourism in Denmark, in accordance with the United Nations Sustainable Development Goals. By 2024, the strategy calls for the deployment of onshore power supply for cruise ships in popular Danish cruise destinations as Copenhagen, Aarhus, Skagen, Helsingor, and Roenne.
5. One of the , Stena Line, ensuring the ecosystem’s sustainability. These targets were not met by Stena Line as out of 36 vessels in Stena Line’s fleet only 14 were equipped with shore power systems. Stena Line has been actively involved in the development or use of shore power facilities at the ports of Kiel, Gothenburg, Oslo, and Trelleborg in this context. By 2022, Stena Line and the Southampton Port Authority will collaborate to create the world’s largest shore power station at Värtahamnen port, as well as a pair of shore power facilities at the cruise terminal.

Figure 1: Installed shore power facilities in the Baltic Sea region. 

Source: Power Technology Research

Figure 2: Technology split in Baltic Sea region in terms of installed base.

Source: Power Technology Research

Looking Ahead

The Baltic Sea region is a major potential future shore power market in Europe. The Baltic Sea ports are actively investing in providing shore power facilities to all kinds of vessels, in order to meet the requirements, set by the EU commission, by 2030. The regional plans have laid down a strong base of shore power infrastructure in the Baltic Region. Along with the ports, shipping owners are also working in to deploy shore power facilities. It is anticipated that by 2025, dozens of new high voltage shore power facilities will be online to facilitate cruise and container vessels at the major Baltic ports. The main bottle neck in this region will be to meet the electricity requirements of large vessels, such as cruise electric power equivalent to the amount required by a small town. Therefore, the authorities, including port owners, municipalities, and utilities, upgrade the grid infrastructure at major port sites.