Creating a new project using Atmos SIM: Illustrates how to create a new SIM model configuration from scratch and the fact that it can be either liquid or gas using the same tool.
Dragging Tool Items into the Model: Demonstrates the drag and drop capabilities of atmos SIM
Default Properties: A user can define default properties for objects that are ‘dropped’ onto the drawing area. This helps speed up the configuration process.
Changing Units: Demonstrates how to change units to suit your preferences
Running a Simple Steady State: Shows how the user initiates a steady state run and then how to get some results out.
Tuning Assistant: Explains how to automate the tuning of a model. You have your design setpoints and the tuning assistant tells you want the roughness should be(or other properties).
Connecting to SIM using a Third party Application: Demonstrates how any OPC client can be used to view SIM results.
Creating Data Signals(Profiles) : Illustrates how to create a data profile that can then be used as a setpoint constraint(in this example: a demand flow)
Assigning a Profile to a Contraint setpoint: Having created a data profile this movie shows how to assign it to a property.
Trend Property Selection: Illustrates how to enable/disable specific properties to be trended after a transient model run.
Different Trend Views: Demonstrates the powerful trending tools within Sim and the ability to create multiple trending views(or panes) on your results data.
Distance Based Profile Plots: Sim also has the ability for detailed hydraulic plots as a function of the pipeline length.
Scenarios: Details how multiple settings can be varied for the same model using different scenarios
Difference Reports: Sim features a difference feature which tracks the changes between model ‘saves’. This is very useful to compare the differences between models and audit what has changed.
Getting SCADA data into SIM: Shows how to get data into SIM using the international process control standard of OPC
Large Distribution Gas Networks: Large, low pressure distribution line and steady state.
Viewing Results using a Data Grid: A user can drag on a data grid and then select which object properties they want to monitor.
Creating Control Loops: Atmos SIM allows users to create PID and various other control loops/scenarios using its detailed control feature.