The TechUPGRADE project, officially titled "Thermochemical Heat Recovery and Upgrade for Industrial Processes", aims to target developing and demonstrating novel thermochemical heat upgrade systems to address critical challenges in industrial energy efficiency. The TechUPGRADE system will allow an effective upgrade of both industrial low-grade waste heat and solar energy supplies to the temperature range between 150 and 250°C using salt hydrates as the reactive material. Industries today face challenges associated with the effective utilization of low-grade waste heat and the dependency on fossil fuels for process heating. Very little of this available waste heat can serve directly in appropriate temperature ranges for various technical and economic reasons. Besides this, global commitments to carbon neutrality make it imperative to look toward innovation that reduces energy consumption and emissions of greenhouse gases.
Using novel approaches, the TechUPGRADE project tackles some of the most pressing industrial challenges related to energy efficiency and decarbonization. The main activities will focus on advanced development in the area of reactive materials and optimization of salt hydrate for more than 100-cycle-long cycling stability with an energy density above 300 kWh/m³, with a production cost below €3/kg for industrial scalability. The project focuses on designing modular, closed-system heat upgrade reactors capable of undergoing cyclic dehydration and hydration with temperature increases exceeding 100°C. Additionally, it aims to integrate these systems into industrial processes at an affordable Levelized Cost of Heat (LCOH) of 4-6 c€/kWh or less. The valorization of waste heat streams with very low electricity consumption enables the project to contribute to developing carbon-neutral energy systems. Focusing on the highest-impact sectors for projects such as the petrochemical sector, where process heat demand fits into the objectives of the project, would enable TechUPGRADE to upgrade low-exergy heat at very low costs. Expected outcomes include improved energy efficiency, decreased reliance on fossil fuels, significant reductions in CO2 emissions, and adaptable solutions for various industries and energy systems aimed at achieving the EU and global climate protection goals.
This project is part of the priorities to decarbonize the industry and develop sustainable technologies from a political and strategic context marked by the Green Deal of the European Union and the objective of carbon neutrality set for 2050.