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Adapt agricultural production to climate change and limited water supply
Demonstrate the ability to adapt agricultural production to climate change, limited water supply and use of renewable energy sources for heating and cooling. It aims to: 1.Minimize fresh water use for agricultural production and introduce water recycling method in a close greenhouse
TRI-HP
The TRI-HP systems are based on electrically driven natural refrigerant heat pumps coupled with renewable electricity generators (PV), and are using cold (ice slurry), heat and electricity storages. They will be providing heating, cooling and electricity to multi-family residential buildings with
ZERO-EMISSION HEAT FOR ORION MEDICAL FACTORY
The modular AmbiHeat® heat pump plant utilizes waste heat from the production processes of Orion and energy from outdoor air (-15⁰C … +30⁰C), producing zero emission heat (up to +90 ⁰C) for the district heating network of the medical factory. Calefa designed and delivered a modular heat pump plant
Calibrate energy
6.2MW Cereal and Grass Drying project using dehumidification, heating and heat recovery through a Ground Source Heat Pump in order to dry product, maximize heat recovery whilst reducing carbon footprint
Sheeplands
Ebtech Energy Systems have installed and commissioned the UK’s largest river source heat pump at Hall Hunter Partnership, one of the UK’s leading soft fruit growers. The heated growing facility has been developed to provide continuity of supply to their major customer, M&S. By utilizing the
Bath Abbey
This first-of-its-kind project will heat the Abbey and associated buildings using heat pumps. Energy for the heat pumps is being collected from the thermal spring water flowing from the world renown Roman Baths.
Buen Amor Castle
Photovoltaic, ground and air source energy in a historic 15th century building. Conversion of the Castillo del Buen Amor into a luxury hotel using water-water heat pumps with inverter technology as the HVAC system.
Cortijo Norte
Cortijo Norte is the biggest project in Spain with GSHP installed, a total of 2.176,34 kW for 312 single houses. This new high standing development has heat pumps for the production of heating and cooling in a single unit. The aim of this project is to demonstrate that GSHP is a possibility for
The transferable CHC plant.
CHC container is easy to be transferred to where cooling is needed along the district heating network. It’s flexible, environmentally-friendly opportunity to meet customer’s cooling needs and to produce green district heating. Renewable heat produced in cooling is utilized in the production of
Together Housing Group Multi-regional Shared Loop Ground Source Heat Pump Project.
Together Housing is one of the largest social housing landlords in Northern England Using an innovative shared loop ground array for the heat pump element of the project, individual heat pumps in each property are attached to a shared communal ground loop. The ambient thermal energy runs on a
Urban Energy Lab 4.0: Refrigerant Lab.
The Refrigerant Lab is a part of the EU-funded Project: Urban Energy Lab 4.0 (UEL) aiming for an efficient, economic and ecologic heat supply for buildings. To meet ecologic goals in the building sector an about 100 m² lab was converted to a highly innovative refrigerant laboratory at RWTH Aachen