Commercial Readiness of Absolute Zero GHG Technologies

ZESTAs’ paper discusses findings from the MARIN NL Model for ESSF SAPS, which compares various marine fuels’ greenhouse gas emissions over a 100-year Global Warming Potential (GWP), noting that some fuels produce 0% emissions over this period. Only technologies reaching at least demonstration stage (TRL7 or higher) are considered. Additionally, references are made to Technology Readiness Levels (TRLs) and Commercial Readiness Levels (CRLs) following expanded definitions presented to ISWG-GHG 14 by IMO Secretariat, DNV, and Ricardo plc on 22nd March 2023.

Oceans of Opportunity

To explain the impact of green methanol and ammonia and propose the implementation of zero-emission fuel bunkering at ports by 2030

Availability of E-fuels and E-fuel-capable Vessels from 2027–2030

To assess the market readiness of e-fuels and e-fuel-capable vessels for commercial deployment in the maritime sector between 2027 and 2030. The report seeks to provide insights into the production capacity of e-fuels, the readiness of vessels to use these fuels, and the alignment of these elements to support ZEMBA’s next tender process. The study also aims to identify challenges such as financial barriers and deployment mismatches, offering strategies to accelerate zero-emission technology adoption in shipping.

Maritime Forecast to 2050

To emphasize the necessity of improving energy efficiency and establishing fuel transition strategies to achieve the decarbonization targets of IMO. This report explores methods to maintain the competitiveness of international shipping by 2030, focusing on fuel reduction, digitalization, and carbon capture technologies. Additionally, it examines strategies for expanding related infrastructure and addressing cost increases, providing insights into strategic responses to these challenges.

Preparing Tanker Vessels for Conversion to Green Fuels

To analyse the technical, economic, and environmental impacts of converting tanker vessels to green fuels such as methanol and ammonia. This report aims to assess the readiness level and costs of fuel transition, providing insights to propose optimal design and operational strategies that align with sustainable shipping practices and regulatory requirements.

Economic value of methanol for shipping under fuelEU maritime and EU ETS

To evaluate the economic viability of bio-methanol and e-methanol as sustainable marine fuels within the regulatory frameworks of FuelEU Maritime and the EU Emissions Trading System (ETS). The report provides an analysis of compliance pathways and the economic incentives for adopting these fuels compared to fossil fuels such as VLSFO, emphasizing the penalties for non-compliance. The findings support the potential of these regulations to facilitate a transition to sustainable fuels by creating a stable investment environment for fuel producers and encouraging adoption by shipping operators.

Will renewable electricity availability limit e-fuels in the maritime industry?

To introduce the current status and limitations of technological development of renewable electricity derived from naturally replenished sources, such as solar, wind, hydroelectric, or geothermal energy, to reduce GHG emissions in international shipping and, based on this, briefly describe the project production and demand regarding e-fuels.

Energy Transition Outlook 2023 Transport in Transition: A deep dive into fuels, electricity, and infrastructure

To deeply analyze the transition of electrification, infrastructure, and fuel use in the transport sector for the next 30 years, focusing on fossi fuels, electricity, biofuels, hydrogen, and hydrogen-based fuels (e-fuels)

Power-2-Fuel Cost Analysis

To analyze the production, distribution, and storage costs of various e-fuels and the total costs of ownership (TCO) for using these fuels in vehicles and ships