The HEMOS project pioneers a dynamic heat energy system simulation tool in the maritime sector, aiming to advance from TRL2 to TRL7. Across three phases, it investigates an Oasis class cruise ship, develops a dynamic simulation tool, and integrates optimised systems.
Phase I: Research and Development, involves investigating an existing cruise ship, Oasis class vessel, to gather data on its energy system. Key achievements in this phase include:
-Comprehensive Data Collection on major system components contributing to energy consumption and production to understand system configurations, topology, and interconnections between subsystems.
-Waste Heat Analysis: Examination of systems releasing waste heat to the environment, with specific attention on heat quality.
Phase II: Calculation, Optimization, and System Engineering, focuses on developing a dynamic optimization and calculation model based on the gathered information. The key activities and achievements include:
-Dynamic Simulation Tool based on a novel methodology to model the vessel as a moving object considering actual journey paths and weather conditions.
-Customized Weather Data File Development for the ship's navigation route, enabling dynamic simulation with varying weather conditions.
-Energy System Optimization: Application of the dynamic simulation tool to investigate different energy efficiency technologies, incorporating waste heat recovery options and innovative control logics.
Phase III: Integration and Verification, involves implementing the optimized topology in small scale on board the Oasis of the Seas cruise ship. Key activities and achievements include:
-System and Process Engineering to understand modifications required and their impact on automation and equipment.
-Cost Complexity and Risk Analysis to evaluate the practicability of the chosen solution.
-Integration Activities: executing basic and detail design, purchasing, logistics, onboard integration, and commissioning.
-Prototype System Implementation on board for verification of the calculation model and assumptions.
-Data Collection to validate the modified system, iterating the process until a near-optimal solution is found.
The project's outcomes aim to provide valuable insights into ship heat energy system modifications, potential energy efficiency equipment, retrofitting challenges, and financial investments needed. The data and analysis will contribute to the improvement of calculation models, energy efficiency design methodologies, and serve as a verified example for the scientific community and other shipowners considering similar retrofit projects, fostering advancements in sustainable maritime technology.