Innovyze Releases Award-Winning InfoSWMM SFEM, Breakthrough Solution for Wastewater Master Planning
Innovyze Releases Award-Winning InfoSWMM SFEM, Breakthrough Solution for Wastewater Master Planning
Release Supports Short-Term and Long Range Evaluation and Planning Processes for Wastewater Utilities Worldwide
Broomfield, Colorado, USA, November 19, 2013
Redrawing the boundaries of wastewater collection system modeling, Innovyze, a leading global innovator of business analytics software and technologies for smart wet infrastructure, today announced the release of InfoSWMM SFEM (Sewer Flow Estimation Model). Extensively tested by the City of Los Angeles Bureau of Sanitation and winner of the City’s 2013 Quality and Productivity Improvement Award, this revolutionary dynamic sewer flow estimation software changes the way wastewater utilities around the world combine GIS data with dynamic network modeling and advanced analytics to expand and maintain large, complex and rapidly aging wastewater collection systems. Its primary strength is the ability to accurately estimate current and future sewer system flows to help users evaluate sewer system capacity and overloaded sewer mains with a high risk of collapse, and determine the condition of sewers. Armed with this information, wastewater utilities can plan improvements that mitigate or avoid adverse public health and economic impacts and keep the sewer system operating effectively well into the future, even in the face of limited budgets and growing populations.
Wastewater infrastructure in the United States is clearly aging, and capital spending is unable to keep pace with needs. There are between 700,000 and 800,000 miles of public sewer mains in the country, and capital investments in those pipes account for between 80% and 85% of all wastewater system investment requirements. Fixing and expanding the pipes will address sanitary sewer overflows, combined sewer overflows, and other pipe-related issues. The recently released ASCE 2013 Report Card for America’s Infrastructures gave the nation’s wastewater a near failing grade of D — a very slight improvement from the D minus given in the previous Report Card, issued in 2009. Yet this critical infrastructure is projected to see the largest investment gap, falling 73% short of needs. This gap will only widen with time, and addressing it will become increasingly more expensive. This state of affairs does little to assuage the public’s health and economic needs or maintain its confidence in the ecological health of the nation’s waterways, and it presents a significant challenge to wastewater utilities charged with consistently providing safe, reliable service.
An invaluable wastewater master planning tool, InfoSWMM SFEM was developed to support the short-term and long-range planning needs of wastewater utilities worldwide. The program uses census, land use and other planning data to estimate current and projected population and wastewater flows. It automatically defines tributary basins and estimates flows within the basins.
Users can then conduct several levels of planning studies to assess current sewer system capacity and future capacity needs, identify hydraulic deficiencies, and determine sound and cost-effective system improvements, flow routing, and operation plans. In addition, the model can be effectively used to identify strategic flow gauging locations, calibrate estimated flows, manage industrial discharges and perform general planning analyses.
“With powerful customer and industry-driven innovations, the new InfoSWMM SFEM meets not only utilities short-term planning needs, but also long-range master planning efforts up to a century in the future,” said J. Erick Heath, P.E., Innovyze Vice President, Director of Americas Operations. “Because it is so easy to learn and use, it will quickly transform our users’ day-to-day sewer modeling tasks and dramatically improve their workflows. Wastewater utilities can now quickly evaluate sound infrastructure improvement options far more effortlessly than ever before.”
“InfoSWMM is a standard for mainstream geocentric sewer system modeling and management,” said Paul F. Boulos, Ph.D., BCEEM, Hon.D.WRE, Dist.D.NE, F.ASCE, President, COO and Chief Technical Officer of Innovyze. “Users are continuously demanding more from their sewer modeling software, and Innovyze has again responded to their calls. We developed the most powerful and comprehensive solution available for dynamic sewer flow estimation in terms of usability, functionality and performance. InfoSWMM SFEM makes even the most sophisticated and challenging sewer system analysis fast and easy, regardless of users’ technical expertise. This effectively extends its benefits across the entire enterprise. We are very proud to offer this groundbreaking new power tool to our clients.”
Wastewater infrastructure in the United States is clearly aging, and capital spending is unable to keep pace with needs. There are between 700,000 and 800,000 miles of public sewer mains in the country, and capital investments in those pipes account for between 80% and 85% of all wastewater system investment requirements. Fixing and expanding the pipes will address sanitary sewer overflows, combined sewer overflows, and other pipe-related issues. The recently released ASCE 2013 Report Card for America’s Infrastructures gave the nation’s wastewater a near failing grade of D — a very slight improvement from the D minus given in the previous Report Card, issued in 2009. Yet this critical infrastructure is projected to see the largest investment gap, falling 73% short of needs. This gap will only widen with time, and addressing it will become increasingly more expensive. This state of affairs does little to assuage the public’s health and economic needs or maintain its confidence in the ecological health of the nation’s waterways, and it presents a significant challenge to wastewater utilities charged with consistently providing safe, reliable service.
An invaluable wastewater master planning tool, InfoSWMM SFEM was developed to support the short-term and long-range planning needs of wastewater utilities worldwide. The program uses census, land use and other planning data to estimate current and projected population and wastewater flows. It automatically defines tributary basins and estimates flows within the basins.
Users can then conduct several levels of planning studies to assess current sewer system capacity and future capacity needs, identify hydraulic deficiencies, and determine sound and cost-effective system improvements, flow routing, and operation plans. In addition, the model can be effectively used to identify strategic flow gauging locations, calibrate estimated flows, manage industrial discharges and perform general planning analyses.
“With powerful customer and industry-driven innovations, the new InfoSWMM SFEM meets not only utilities short-term planning needs, but also long-range master planning efforts up to a century in the future,” said J. Erick Heath, P.E., Innovyze Vice President, Director of Americas Operations. “Because it is so easy to learn and use, it will quickly transform our users’ day-to-day sewer modeling tasks and dramatically improve their workflows. Wastewater utilities can now quickly evaluate sound infrastructure improvement options far more effortlessly than ever before.”
“InfoSWMM is a standard for mainstream geocentric sewer system modeling and management,” said Paul F. Boulos, Ph.D., BCEEM, Hon.D.WRE, Dist.D.NE, F.ASCE, President, COO and Chief Technical Officer of Innovyze. “Users are continuously demanding more from their sewer modeling software, and Innovyze has again responded to their calls. We developed the most powerful and comprehensive solution available for dynamic sewer flow estimation in terms of usability, functionality and performance. InfoSWMM SFEM makes even the most sophisticated and challenging sewer system analysis fast and easy, regardless of users’ technical expertise. This effectively extends its benefits across the entire enterprise. We are very proud to offer this groundbreaking new power tool to our clients.”
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