Plan and simulate 5 th generation thermal energy systems – 5G DHC

Take advantage of Planeto’s know-how to dimension low-temperature district heating and cooling networks. Accurately estimate network KPIs, size pipes and calculate pressure losses along the network. Integrate multiple injection points, renewable energy sources and booster heatpumps at every substation. Optimize your network to minimize capital and operating expenses.

Goethermal district heating and cooling network

Include renewable heat sources

Dimension renewable heat sources based on the district energy demand. You can easily dimension and optimize multiple heat sources (geothermal, solar-thermal, heatpumps), at multiple injections points. You can use our advanced tools to dimension and optimize geothermal borehole fields.

Simulate booster heat pumps at every substation.

Advanced heat pumps have dimensioning never been so easy! Dimension correctly all the booster heat pumps of the network, based on the specific energy demand. Update the parameters of a single substation according to your requirements.

Low Temperature Network 5G DHC Geothermal Boreholes CAPEX and OPEX

Find the optimal design to reduce your CAPEX and OPEX

Find the best possible design for your system, reducing capital costs and operating costs. Use our advanced tools also to optimise geothermal energy fields and further reduce your costs

Low temperature Energy Demand Curve 5G DHC

Design your network to provide heating and cooling to your customers

Design your 5G network to supply both heating and cooling needs to all buildings in the district, based on energy demand curves. Use Planeto’s know-how to simulate the heating and cooling needs of in the next 25 years and design a future-proof energy system.