Products

Sanitary, Storm and Combined Sewer Design and Modeling

H₂OMAP Sewer is a powerful, stand-alone GIS-based computer program for use in the planning, design, analysis, and expansion of sanitary, storm and combined sewer collection systems. The program can be effectively used to model both dry-weather and wet-weather flows and determine the most cost-effective and reliable method of wastewater collection. Built using advanced Object-Oriented Geospatial Component model, H₂OMAP Sewer seamlessly views, manipulates, and exchanges GIS data sets with incredible ease and simplicity.

Utilizing a rigorous and versatile network modeling solution, H₂OMAP Sewer supports geocoding and multiple mapping layers which can be imported from one of many data sources including Computer-Aided Design (CAD) drawings (e.g., dwg, dgn, dxf), CAD world files, standard GIS formats (Shapefiles, Generate files, MID/MIF files, and ArcInfo coverages), Vector Product Format (VPF) files, Spatial Database Engine (ArcSDE) Layers, attribute tables, grid data, image files, ODBC, and Comma Separated/Delimited Text (CSV) files. The program also directly supports the new geodatabase standard of ArcGIS through an ArcSDE connection.

H₂OMAP Sewer surpasses its competitors with fast and comprehensive hydraulic and dynamic water quality computational capabilities such as steady-state analysis using various peaking factors and automated system design, along with sophisticated dynamic solution of the St. Venant's equations considering flow attenuation, time of concentration, source tracing as well as pollutant, BOD, sediment transport/deposition, hydrogen sulfide and corrosion modeling. It utilizes a full-featured, state-of-the-art hydraulic, water quality and sediment transport computational engine. Through the use of extensive scenario management functionality, the program is also capable of analyzing existing or proposed sewage collection systems.

H₂OMAP Sewer Pro adds very sophisticated rainfall-runoff modeling for representative peak flow computation and dynamic routing of combined sanitary sewerage and stormwater throughout the collection system, equipping wastewater utilities with a powerful tool for predicting unwanted overflow events and backups and developing sound remedial alternatives for eliminating CSO, SSO and stormwater problems, meeting environmental regulations, and improving system management, operation and community relations.

The program also offers a complete, database-driven open-architecture environment, which makes it easy to manage and distribute geospatial data as well as exchange important modeling information with other applications and enterprise GIS systems. Because the program creates and stores all graphic data in a native shapefile format, H₂OMAP Sewer instantly becomes an integral part of your data warehouse, compatible with any other GIS application. You can now visualize your sewer collection system at a glance and develop informed, cost-effective and reliable solutions concerning system expansion and improvement.

Batch Run and Compare Multiple Scenarios Instantly
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H₂OMAP Sewer Usage:

Master Planning
CMOM Program Planning
Facility Sizing
Wet-Well Design
Facility Management
Outlet Configuration
Operations Study
Pump Cycling
Real-time Simulation
Infrastructure Rehabilitation/Replacement
Peak Flow Effects
Flow Capacity Evaluation
Overflow Management
Infiltration/Inflow Modeling
System Deficiency Identification
System Improvements
BOD Modeling
Odor Control
Source Tracing

Pollutant Contribution Analysis
Discharge Permit Compliance
Corrosion Control
Treatment Process Efficiency Evaluation
Sewage Age Improvement
Sediment Modeling and Impact Analysis
Sensitivity Analysis
Alternative Analyses
Dynamic Loading Comparison
Flow Monitoring Design
Model Calibration
Operator Training
Capital Improvement Program Development
Capital Budgeting
Impact Fees Determination
System Expansion
New System Design
System Layout Mapping
Dynamic Profiling
Project Management