Thermochemical Heat Recovery and Upgrade for Industrial Processes (TechUPGRADE)

Climate, Energy & MobilityHORIZON-RIAID: 101103966
EC Contribution
€49,998
Consortium Size
14 orgs
Start Year
2023
Summary

This project aims to develop and validate (in the relevant environment to reach TRL 5) a novel thermochemically operating technology that can very efficiently, safely, cost-effectively, and sustainably provide waste heat recovery of industrial processes and upgrade them to much higher temperature levels (the target temperature will be 150-250 deg. C, here). The technology is a novel yet outstanding generation of heat transformers (Hydration Heat Transformer), outperforming any other competing technologies including various designs of high-temperature vapor compression heat pumps due to several reasons. That is, TechUPGRADE's solution i) may simply be integrated with any renewable technologies including solar thermal systems, ii) consumes almost no electricity, and presents significantly high energy and exergy efficiencies, iii) can be much more cost-effective than competing technologies due to expected long useful lifespan, the simplicity of the design and operation mechanism, and the way it integrates low-value heat sources, iv) may be employed for a variety of integration possibilities, low-temperature heat sources, and various heat sink temperature levels, and also, v) with simple adjustment, can offer the storage of the recovered waste or renewable heat if there is a mismatch between the heat source availability and the process heating demand. The project consortium consists of 14 partners from the four corners of the EU; including 5 universities, 3 research centers, 4 SMEs, 1 large company, and 1 partner with several industrial end-users, making sure that all the required expertise for a successful accomplishment of the project and future exploitation exist, and also the partners supplement each other in the most optimal manner. The technology will be demonstrated in different specific designs and integrations in two relevant environments in Sweden and Germany in 35 kW and 10 kW high-temperature heat delivery capacities.

Consortium (14)

Project Results (10)

Source: CORDIS, the EU research results database.

Publications (3)
ASSESSING THE POTENTIAL FOR POWER GENERATION FROM LOW-GRADE WASTE HEAT: INTEGRATION OF AN ORGANIC RANKINE CYCLE WITH AN ABSORPTION HEAT TRANSFORMER
37th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2024)· 2024DOI
Mohammad Hossein Nabat, Soheil Khosravi, Hamid Reza Rahbari, Brian Elmegaard, Ahmad Arabkoohsar
Investigation of a solar-driven absorption heat transformer with various collector types for industrial process heating
Applied Thermal Engineering· 2024DOI
Evangelos Bellos, Ahmad Arabkoohsar, Panagiotis Lykas, Christos Sammoutos, Angeliki Kitsopoulou, Christos Tzivanidis
THERMODYNAMIC ANALYSIS OF A SOLAR-DRIVEN ABSORPTION HEAT TRANSFORMER FOR INDUSTRIAL PROCESS HEAT
37th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2024)· 2024DOI
Evangelos Bellos, Panagiotis Lykas, Angeliki Kitsopoulou, Christos Sammoutos, Ioannis Alexopoulos, Ahmad Arabkoohsar, Christos Tzivanidis
Deliverables (6)
Other Results (1)
Periodic Reporting for period 1 - TechUPGRADE (Thermochemical Heat Recovery and Upgrade for Industrial Processes (TechUPGRADE))