What do you need?
Porin Puuvilla GSHP
Implementing and monitoring a 1500 kW GSHP system providing simultaneous heating (5 GWh/y) and cooling (1,5 GWh/y) to a complex commercial building with excellent, proven efficiency and reliability since 2014. Multiple heat sources (waste heat, cooling networks, district heating, geo energy
Cooling and heating – a highly efficient symbiosis for datacentres
•Demonstrate simplicity and symbiosis efficiency potential of heating and cooling by retrofitting data center air-cooled chiller system to water-water heat pumps, providing data center primary cooling and recovering heat to campus and community district heating, with heat pump controlled by
HP4ALL HEAT PUMPS SKILLS FOR NZEB CONSTRUCTION
HP4All brings together leading experts across Europe to enable capacity and skills development within the Heat Pump sector and to ensure that the energy efficiency gains afforded by heat pumps are realised. HP4All, following a holistic, systemic point of view, works both with the supply side
Sustainable server cooling for the Ludwigsburg county district office
Ludwigsburg county district office aims to be climate-neutral from 2025 What is its purpose? •server cooling makes up a significant portion of energy demand and greenhouse gas emissions, which need to be reduced if climate targets are to be achieved •eco-friendly, sustainable and reliable
The Queens Quay Heat Pump Project
The water source heat pump project (WSHP) we delivered at Queens Quay (is at the forefront of an exciting new chapter of Scotland’s heating infrastructure and is the UK’s first major WSHP project of its type. The scheme comprised of an energy centre housing two x 2.65MW water source heat
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.
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
City goes Zero – switching to renewables.
Prior to renovation, the CEP located in the basement of an existing municipal building, produced thermal energy of approx. 3.1mill kWh/year. Annual greenhouse gas emissions were 571 tons CO2. The purpose of Stavanger’s project is to demonstrate innovative use of local renewable energy sources
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 to help reduce the carbon emissions. Savings in carbon dioxide are projected to be in
High temperature heat pump in expanded plastic foam product manufacturing plant
The heat pump is connected with remote connection to the Oilon Global Monitor control system, which monitors equipment performance, usage rate, power generation, and immediately reports any possible abnormal operation.The cooling water from the moulding is fed into a 20m3 tank that has a
Triangulum – ‘City goes Zero’ – switching to renewables
The central thermal energy production plant (CEP) is located in the city center of Stavanger in Norway, in the basement of an existing municipal building, Olav Kyrres gate 19 (OK19). The plant replaces an existing production plant, based on a non-renewable source. Prior to rehabilitation, the CEP