Publishable Summary: This deliverable aimed to present the final version of the exploitation plan and the intellectual property rights (IPR) strategy of the technologies and solutions implemented by three ‘lighthouse’ and three ‘follower’ demo cases engaged in the development of
Publishable summary: Task 10.3 of the CORALIS project aims to improve the current industrial symbiosis (IS) landscape by promoting more efficient energy management systems and promoting the integration of circular economy principles. It serves as a comprehensive analysis of the
Publishable summary: This report aims to demonstrate the developed production process and recovery solutions in the relevant industrial environment in the territory of Brescia (Figure 1). To this end: - Torbole has checked the separation efficiency (separation of fine metals
Abstract: The decarbonization of industrial processes requires efficient and scalable renewable energy solutions. Concentrated Solar Power (CSP) technology stands out by providing both electricity and high-temperature heat, yet its optimal deployment remains a challenge. This study presents an innovative framework
On 14th of March 2025, our project partners from Linköping University (LiU) hosted its 5th learnings webinar, focusing on one of the most pressing challenges in the implementation of industrial symbiosis: financing. The session brought together key experts in the field, including
Industrial symbiosis (IS) is increasingly recognised as a key strategy for enhancing resource efficiency and reducing environmental impact. A newly published study, "Environmental and Economic Benefits of Waste Heat Recovery as a Symbiotic Scenario in Sweden", explores the potential of
Abstract: This study pioneers a combined Life Cycle Assessment (LCA) and Life Cycle Costing (LCC) evaluation of an industrial symbiosis (IS) case involving waste heat recovery from a pulp and paper mill to a tomato greenhouse in Sweden. Unlike previous
Industrial symbiosis (IS) fosters collaboration between industries to exchange materials, energy, water, and by-products. By optimising resource use and reducing waste, IS contributes to both environmental and economic sustainability. However, effective risk management remains a challenge, as industrial exchanges often
Industrial symbiosis (IS) enhances resource efficiency by enabling industries to exchange waste materials and energy flows. However, ensuring the economic viability of these exchanges is crucial for their long-term success. A newly published study by CIRCE, RISE, Grupo Fertiberia, ENERGAIA,
Abstract: Industrial symbiosis (IS) fosters collaboration between industries to exchange materials, energy, water, and by-products. It contributes to environmental and economic sustainability by reducing resource consumption, decreasing greenhouse gas emissions, and generating economic benefits. However, managing risks in these exchanges
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No 958337.
The information and views set out in this website are those of the author(s) and do not necessarily reflect the official opinion of the European Union. Neither the European Union institutions and bodies nor any person acting on their behalf may be held responsible for the use which may be made of the information contained therein.
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No 958337.
The information and views set out in this website are those of the author(s) and do not necessarily reflect the official opinion of the European Union. Neither the European Union institutions and bodies nor any person acting on their behalf may be held responsible for the use which may be made of the information contained therein.
© Copyright 2020 – Coralis – Legal advice – Cookies policy
© Copyright 2020 – Coralis – Legal advice – Cookies policy
