Advanced network design and hydraulic simulation

Plan and simulate your thermal energy system, from few buildings to entire districts. Accurately estimate network KPIs, size pipes and calculate pressure losses along the network. Integrate differences in altitude in the system, integrate multiple injection points and renewable energy sources.

Automatically generate pipe routing

Automatically generate your network layout by minimizing the distance and thermal losses. Then, easily start and modify your network according to your needs.

Customize routing based on constraints

Modify the network layout directly on the user interface, change the routing based on engineering constraints. Modify dimensions and cost per meter of the full pipe installation. Easily add and remove buildings and connection points. Automatically size thermal stations based on energy demand.

Design hydraulic elements

Simulate the network and size the hydraulic elements. Visualize pressure losses across the system and adjust based on altitude difference.

Custom supply curves and costs

Input your own data from pipe and pump suppliers to accurately design the system based on your needs. Accurately estimate CAPEX and OPEX, based on suppliers costs.

Design 5th generation (anergy) networks

Fully design and simulate low-temperature anergy networks (5th generation DHC), size heat pumps at each substation, considering pipe materials and heating and cooling needs. Connect your system with different low-temperature energy sources.

Shallow geothermal probes

Dimens ion and simulate a shallow geothermal energy field from a single building to a district heating and cooling network. Then connect it to a thermal system, and calculate the outlet and inlet temperatures as well as the heat extraction rate of the boreholes (single boreholes or fields of boreholes).