Offshore wind energy production has seen a significant expansion in recent years. With technologies rapidly improving and prices dropping, it is now one of the key instruments in the green energy transition. The implications of offshore wind farm expansion for maritime security and ocean governance have, so far, received sparse attention in the literature. This article offers one of the first thorough analyses of the security of offshore wind farms and related installations, such as underwater electricity cables, energy islands, and hydrogen plants. The technical vulnerabilities of wind farm systems is reviewed and threats from terrorism, crime and State hostilities, including physical and cyber risk scenarios, are discussed. The expansion of green offshore energy production must keep pace with the changing threat landscape that follows from it. Prospective solutions for the protection of wind farms systems, including surveillance, patrols and self-protection are discussed. The current repertoire of maritime security solutions is in many ways capable of dealing with the threats and risks effectively if adjusted accordingly. The analysis builds important new bridges between debates in energy security and maritime security, as well as the implications of climate change adaption and mitigation for security at sea.
This paper explores the application of modular multi-level converters (MMC) as a means for harnessing the power from off-shore wind power plants. The MMC consists of a large number of simple voltage sourced converter (VSC) submodules
that can be easily assembled into a converter for high-voltage and high power. The paper shows that the MMC converter has a fast response and low harmonic content in comparison with a two-level VSC option. The paper discusses the modeling approach used, including a solution to the modeling challenge imposed by the very large number of switching devices in the MMC.
This paper investigates the significance of ports in the energy transition (ET) and decarbonisation. Ports, being vital in energy value chains, play a critical role in curbing energy use and emissions. The paper draws from the MAGPIE project, funded by the Horizon 2020 programme, which showcases energy and digital solutions in a real-world setting. The paper focuses on sustainable initiatives in 12 European sea- and inland- ports, analysed through interviews and secondary data. Findings reveal that while many ports discuss ET, few have transformed their plans into significant actions due to technological, regulatory, and financial challenges. Three core themes emerge from the review: ET infrastructure, seagoing ships and hinterland transport, and governance. Ports need more actionable strategies for ET, with port authorities spearheading the adoption of sustainable technologies through collaboration.
In January 2023 the International Seabed Authority (ISA), an intergovernmental organization established under the 1982 UN Convention on the Law of the Sea (UNCLOS) granted already thirty contracts for exploration of Deep Seabed Mining, but exploitation has not started yet because ISA has not finalized its regulations, expected in 2025. This article intends to address to what extent is the current deep Seabed mining regime factoring risks and uncertainties in a just and sustainable manner in the current legal framework on environmental liability embedded in the green energy transition's processes with the EU as case study and inquiry if there are baseline or best practice to learn from. It unravels which type of precautionary approach fits and is just. Deep Seabed Mining is also a social justice, ethical dilemma demanding equitable and shared solutions to the benefit of current and future generations because activities of this kind can destroy ecosystems that can take decades to regenerate, if not causing irreversible damage. Law and technology, but also technology will be crucial as new methods guaranteeing an "environmentally benign Deep Seabed Mining" will determine how liability law will be shaped.