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Planning buildings and districts with nPro - faster and easier than ever before!
Generate load profiles for space heating, domestic hot water, space cooling, plug-loads and e-mobility.
Simulate district heating networks and size pipe diameters.
Size complex energy systems with renewable energies, heat pumps, hydrogen and seasonal storages.
Heat network sizing
District heating networks, as well as 5GDHC networks, can be simulated and sized.
Generation of demand profiles
Demand profiles for heating, cooling and electricity can be generated with hourly resolution.
System design and sizing
A smart optimization algorithm determines the cost-optimal system design and sizing of generation and storage technologies.
Cost analysis and scenario comparison
Supply scenarios can be compared both technically and economically.
Discover how nPro can elevate your business in a personalized online session.
Design complex energy systems with hydrogen, heat pumps, seasonal storages and renewable energies.
Share projects with team members and work together through one central tool. Ensure that everyone works with the most up-to-date project data.
Calculate 5th generation district heating systems, consider balancing of demands and diversity factors. Optimize network temperatures and pipe dimensioning.
Use proven calculation methods that have been validated with real-world use cases and monitoring data.
Find the optimal energy system from thousands of possible system configurations within seconds.
A user-friendly interface enables an intuitive usage without prior training.
Standardize the quotation process by easily importing your data and exporting the results to Excel.
Create consistent demand profiles with hourly resolution for space heating, domestic hot water, space and process cooling, plug-loads and e-mobility.
Optimize pipe diameters of district heating networks with respect to annual pump work and pressure gradients.
5GDHC networks, also called anergy networks, use ambient heat sources and decentral heat pumps in buildings for an emission-free heat supply of districts.
District energy systems with hydrogen achieve high self-sufficiency rates. However, their planning is challenging due to many cross-sectoral generation and storage technologies.
District heating networks supplied by large solar thermal fields with seasonal thermal storages are a promising concept for a sustainable heat supply of districts.
Planning of energy systems for buildings and districts
Planning of heat networks and local energy systems
Decarbonization strategies for energy systems
Photovoltaics
PV*Sol
Borehole field
GeoHandLight
Load profiles
EnergyPlus
CHP sizing
Sophena
Solar thermal
ScenoCalc
Pipe sizing
pandapipes
Energy hub sizing
EHDO
Microgrids
HOMER
Design optimization
TOP-Energy
Network simulation
Modelica
Heat pump sizing
WPSource
Building simulation
TRNSYS
GIS visualization
Thermos
District assessment
RETScreen
Sector coupling
EnergyPlan
Hydrogen systems
pyH2A
Our free support helps you with all your questions quickly and competently.
Detailed information on the calculation functions can be found in our documentation.
Learn how to use the nPro software with our video tutorials.