Shop by Category
At ETL, our mission is to empower scientific and medical advancements by providing cutting-edge cooling solutions. We are dedicated to setting new standards for reliability, precision, and efficiency in laboratory and medical equipment, and we look forward to continuing our journey in partnership with our valued clients.
At European Thermodynamics Limited (ETL), we understand the critical role that reliable and accurate equipment plays in the fields of laboratory and medical research. We are committed to pushing the boundaries of technology to develop industry-leading cooling equipment that delivers maximum efficiency. Our dedication to innovation and precision is at the core of our collaboration with clients in the laboratory and medical sectors.
Icarus
The aim of ICARUS is to create innovative and environmentally friendly CO2/lubricant absorption technology for power generation from low-temperature industrial waste heat to reduce emissions and costs.
The ICARUS project will create absorption power generation technology for low-temperature (60-120C) heat. This will enable us to create a waste-heat power generation system for industrial (chemical and cement) applications. By doing this, the absorption power generation system created will offer greatly improved environmental performance due to improved efficiency and reduced CO2 emissions at a cost that is affordable to the end-user. This will lead to significant economic and societal benefits to manufacturers.
The SME consortium will target up to 10 % of the EU manufacturing SMEs operating within the Chemicals and Cement Industry within a 5 year period.
Aims
Interests Project
The project aims to develop an open inter-seasonal thermochemical energy storage system for use within a large industrial building. The system will store low-grade heat from a transpired solar collector using a thermochemical medium stored within a suitable containment system. When required, heat will be generated from the storage system through the use of moisture-laden air which will pass over the storage medium. The heat released will be distributed through the nominated building via a heating and ventilation system (HVAC). The key elements of the project will include: The selection and development of suitable thermochemical materials on a small scale, and, the scaling up of the technology to be incorporated into a nominated industrial building for monitoring purposes.
Development of a suitable thermochemical adsorbent material(s)
Use of low-grade renewable heat from a transpired solar collector to charge the system.
Scaling up the technology to an actual industrial building to provide a renewable heat source, when required, that satisfies the HVAC requirements of the building.