Fluidit Water is state-of-the-art hydraulic modeling software for the design and analysis of water distribution systems. What if you could model complex systems and analyze scenarios with ease and precision? A fully configurable user interface, endless visualization possibilities, and the power of multithreading technology are just some highlights that ensure a smooth workflow in your projects. If you plan to take your water distribution system to the next level – simulate it first with Fluidit Water.

Cities are everchanging. The population growth and urbanization are rapid in some areas, while elsewhere population is shrinking, and infrastructure is neglected. Since it is impossible to predict the future, the infrastructure supporting these areas rarely meets the current requirements. The water distribution system may be outdated or undersized and include unnecessary connections. With Fluidit Water, you can evaluate and prioritize investments and create safer infrastructure for everyone.

Hydraulic design and analysis

• Analyze the flow characteristics and the capacity of your network and utilities.

• Identify network capacity issues.

• Design and simulate pipelines, pumping stations, water towers and valve stations.

• Design and simulate control parameters.

• Quantify the impacts of investments on system resilience and reliability.

• Choose optimal configurations by comparing an unlimited number of scenarios and child scenarios.

GIS-interface

• Import, draw, edit and export network data with the built-in GIS interface.

• Use powerful bulk editing tools to update and modify data.

• You can apply ground elevation data from Digital Elevation Models directly to the network.

• Create virtual elevation models that emulate invert levels enabling quick model building even with limited data.

• Create insightful network maps and present results using versatile visualization tools.

A safe, uninterrupted water supply is the lifeline of any community. Despite all the precautions, pipe bursts, pumping station failures, and even contamination occur at times. Such emergencies highlight the need to be prepared and have recovery procedures in place. Fluidit Water can help utilities to prepare for all scenarios – no matter how unlikely or difficult.

Tools for analysis

• Identify the important and vulnerable pipe sections in your network

• Identify the effect of pipe failure to critical customers and the network as whole

• Simulate the effect of fire flow (eg. hydrants, sprinklers) devices to the system

• Plan and simulate emergency flushing and chlorination

• Identify critical and vulnerable pipe sections in your network.

• Identify the effect of pipe failure on critical customers and the whole network.

• Simulate the impact of fire flow devices on the system (e.g. hydrants, sprinklers).

• Plan and simulate emergency flushing and chlorination procedures.

• Assess the extent of contamination by simulating the spreading of pollutants throughout the network.

• Define critical pressure levels for specific customers.

• Increase utility personnel situation awareness by using simulation and scenarios.

Visualize simulated events

• Use the inbuilt video export tool to create videos from any view in the software.

• Communicate effectively with stakeholders by producing maps and graphs of simulated events.

• Create any combination of dynamic graphs, maps and GIS visualizations.

• Export maps and graphs easily in PDF or vector image formats for external reports.

Reductions to the electricity consumption of the water supply are required to achieve the UN set Sustainable Development Goals for 2030 and IPCC desirable CO2 emission scenarios. The electricity consumption of the water supply system could reduce by 20% through holistic system optimization. Would you like to try it?

Tools for analysis:

• Assess energy balance for the whole system.

• Identify pumping stations with poor efficiencies.

• Optimize sufficient pressure levels for each pressure zone.

• Optimize pump sizing and control parameters.

• Identify and reduce leakages.

• Remove bottlenecks in the system.

• Estimate C02 equivalents at consumer and individual component levels.