Autodesk® Storm and Sanitary Analysis 2015

Autodesk® Storm and Sanitary Analysis 2015
Brief Synopsis of Class Contents:
Courseware:
This foundation-level class is intended to give students
comprehensive experience with the features and
benefits of the Autodesk® Storm and Sanitary Analysis
2015. The software is a comprehensive hydrology and
hydraulic analysis application for planning and designing
urban drainage systems, highway drainage systems,
storm sewers, and sanitary sewers.
Learning Objectives:
Autodesk AutoCAD Civil 3D FDOT Drainage & Design
Number of Days:
3 Half Day Sessions
Continuing Education Hours:
12 hours
Who Should Attend:
• Bidirectional exchange of data with AutoCAD®
Map 3D 2015 and AutoCAD® Civil 3D® 2015
software
• Widely accepted hydrology analysis methods,
including NRCS (SCS) TR-20/TR-55, Rational
Method, Modified Rational, HEC-1, EPA SWMM,
UK Modified Rational (Wallingford Procedure),
and more
• Hydraulic analysis of pipes, open channels,
streams, bridges, culverts, roadway inlet catch
basins, and more
• Advanced hydrodynamic routing that can
handle backwater, surcharging, flow splits, and
more
• Support of networks of unlimited size
• Compare pre- and post-development
conditions
• Analysis and design of detention and
retention ponds
• Analysis of stormwater best management
practices (BMPs)
• Water quality modeling
• Sophisticated graphical output providing
detailed plan view plots, profile plots, and time
series plots
• Customizable reports and templates for
agency regulatory review
Architects, Engineers and Master Planners who want to
incorporate Hydrology and Hydraulics into their workflow.
Prerequisites:
AutoCAD Civil 3D fundamentals knowledge and
experience.
System and Software Requirements:
www.livelablearning.com/FAQs/SystemRequirements
FAQs and Cancellation Policy:
www.livelablearning.com/FAQs
© 2014 Academic , LLC
• Geographic information system (GIS)
interoperability
• Support for both U.S. and metric (SI) units
Class Outline and Topics:
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Introduction to Storm & Sanitary Analysis
Hydrology methods
Sample of Design and sizing of drainage
system components for flood control
Sample of Design and sizing of detention
facilities
Sample of Floodplain mapping of natural
channels
Sample of Designing control strategies form
minimizing combined sewer overflows
Roadway Drainage
Pump Station
Sanitary Lift Station
Sample of Evaluating impact of inflow and
infiltration on SSO
Computing SCS Curve numbers for a
subbasin
Importing Civil 3D data and integration
Working with XPSWMM
Pipe sizing
Gis DataRainfall-Intensity-DurationFrequency (IDF) curves.
Exporting Pipes To Civil 3D
Pond Analysis
Modified Rational Method
SCS Method - TR-20 / TR-55
SCS Method - Time of Concentration
SCS Method - CN Composite Comparison
Running Reports
Stage Storage
Modeling Drainage System
© 2014 Academic , LLC