Zero waste Heat vessel towards relevant ENergy savings also thanks to IT technologies

Climate, Energy & MobilityHORIZON-RIAID: 101056801
EC Contribution
€43,845
Consortium Size
15 orgs
Start Year
2022
Summary

ZHENIT overall objective is to promote Waste Heat Recovery (WHR) as key and “ready-to-implement” solutions to achieve 2030 IMO/EU targets for shipping sector decarbonization. ZHENIT goal is to fully untap “on-board WH potential” developing and validating WHR solutions at different temperature levels towards the exploitation of WH for different on-board services (cooling, power, desalination) thus able to valorise heat in different vessel processes like: WH-to-Trigeneration via an innovative recuperated ORC integrated with an heat pumpt with ejector (T>100°C – NTUA); WH-to-Cooling and Desalination via an adsorption system (70<T<100°C – SORPTION/ITAE); WH-to-Mechanical Work (e.g. for fuel compression) via an isobaric expansion (IE) engine (T<100°C – TECNALIA/ENT). A validation campaign (TRL5) will showcase how WH-to-X if properly integrated with Digital Solutions (energy monitoring and optimized management – SIGLA, KYMA) and wind hybrid propulsion (wingsail by BOUND4BLUE) can bring to a 25% reduction of vessel energy consumption. Validation results will drive a replication roadmap (at regulatory and economic level) towards 2027-2030 marketability of ZHENIT solutions also thanks to realization of replication feasibility studies via modelling tools and approaches already exploited for terrestrial application. The ambitious goal is to integrate all WH-to-X solutions towards a zero WH vessel. The project is driven by a consortium of 13 partners from 6 countries composed by innovative SMEs and excellent R&D Centres (expert in both WHR systems and sustainable shipping) and coordinated by an innovation oriented engineering company (RINA-C), one of the most important EU naval classification body with a deep expertise in sustainable shipping and with a track record of multi-disciplinary EU R&D project Management. The project will be promoted at EU level at policy/Regulation making level also interacting with key platforms like ZEWT, IMO... thanks to RINA-S support too.

Consortium (15)

Project Results (24)

Source: CORDIS, the EU research results database.

Publications (12)
Latent heat thermal energy storage system with pillow-plate heat exchangers topology Assessment of thermo-fluid dynamic performance and application potential
Applied Thermal Engineering· 2025DOI
Pouriya H. Niknam, Lorenzo Ciappi, Adriano Sciacovelli
COMPARISON OF 1-D EJECTOR MODELLING APPROACH AND COMPUTATIONAL FLUID DYNAMICS (CFD) SIMULATION TO PREDICT
ECOS 2024 Conference· 2024
N. Karkalos, K. Braimakis, A. P. Markopoulos, S. Karellas
Dynamic Modelling of ORC System for Vessel Waste Heat Recovery
36th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2023)· 2024DOI
Konstantinos Braimakis, George Verykokkos, Efstratios Varvagiannis, Sotirios Karellas
Energy–exergy analysis and economic investigation of a cogeneration and trigeneration ORC–VCC hybrid system utilizing biomass fuel and solar power
Energy· 2024DOI
K. Braimakis, S.Karellas
Optimally integrated waste heat recovery through combined emerging thermal technologies: Modelling, optimization and assessment for onboard multi-energy systems
Applied Energy· 2024DOI
Pouriya H. Niknam, Robin Fisher, Lorenzo Ciappi, Adriano Sciacovelli
"Eurotherm Seminar #116 Innovative solutions for thermal energy storage deployment"
"EUROTHERM SEMINAR #116"· 2023DOI
Eurotherm Seminar Eurotherm Seminar
Application of Flat Plate Latent Heat Thermal Energy Storage for Waste Heat Recovery and Energy Flexibility in Maritime Sector
36th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2023)· 2023DOI
Lorenzo Ciappi, Pouriya Niknam, Robin Fisher, Adriano Sciacovelli
Development of a latent heat thermal energy storage system for waste heat recovery on ships
10th Heat-Powered Cycles Conference· 2023
Robin Fisher, Pouriya Niknam, Lorenzo Ciappi, Adriano Sciacovelli
Driving decarbonisation of shipping sector by waste heat recovery solutions: a techno- economic assessment on technology selection
36th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2023)· 2023
Robin Fisher, Pouriya Niknam, Lorenzo Ciappi, Adriano Sciacovelli
Innovative Waste Heat Valorisation Technologies for Zero-Carbon Ships - A Review
36th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2023)· 2023DOI
Robin Fisher, Pouriya Niknam, Lorenzo Ciappi, Adriano Sciacovelli
Performance analysis of waste heat recovery system for 1 maritime applications to improve ship energy efficiency
5th euro-mediterranean conference for environmental integration· 2023
Ahmed Elkafas, Giorgio Bonvicini, Massimo Rivarolo, Stefano Barberis, Alessia Peluchetti, and Aristide Massardo
Thermodynamic Investigation and Design of a Multi-Generation ORC-Ejector Cooling Cycle Heat Pump for Vessel Waste Heat Recovery
36th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2023)· 2023DOI
Konstantinos Braimakis; Christos Xynos; Sotirios Karellas
Deliverables (11)
Other Results (1)
Periodic Reporting for period 2 - ZHENIT (Zero waste Heat vessel towards relevant ENergy savings also thanks to IT technologies)