Software and ServicesCatalog 2015

www.innovyze.com

Innovating for Sustainable Infrastructure

AROUND THE WORLD,

ONE COMPANY

LEADS THE WAY IN SUPERIOR SMART WATER AND WASTEWATER

INFRASTRUCTURE MODELING AND MANAGEMENT TOOLS

AND TECHNOLOGY SOLUTIONS.

THAT COMPANY IS INNOVYZE.

Contents

Innovyze at a glance 2Innovyze Headquarters 3Channel Partners 4

AbOUT INNOVYZE 2

DRAINAGE AND FLOODING 8InfoWorks ICM SE 10InfoWorks ICM 11InfoWorks ICM Suite 12ICMLive 14InfoWorks RS 16FloodWorks 18InfoSWMM 202D Simulation Solutions 24H2OMAP SWMM 26SWMMLive 28InfoSWMM SFEM 29InfoSewer 30H2OMAP Sewer 32

ASSET PERFORMANCE MODELING 34InfoMaster / InfoMaster Mobile 36InfoNet 38InfoNet Mobile 40CapPlan Water 42CapPlan Sewer 44

WATER SUPPLY 46Smart Water Network 48InfoWorks WS 52InfoWater 54InfoWater MSX 58InfoWater UDF 59H2OMAP Water 60H2ONET 62Surge Solutions 64IWLive 66BalanceNet 68DemandWatch 69DemandAnalyst 70

SUPPORT AND SERVICES 82Engineering Technical Services 82Training Services 84Implementation Services 86

REAL-TIME NETWORk INTEGRITY & PERFORMANCE MONITORING

72PressureWatch 74

QualWatch 76

SCADAWatch 78

Infinity System 80

About Innovyze

Innovyze is a leading global provider of wet infrastructure business analytics software solutions designed to meet the technological needs of water and wastewater utilities, government agencies, and engineering organizations worldwide. Our clients include the majority of the largest UK, Australasian, East Asian and North American cities; the foremost utilities on all five continents; and ENR top-rated design firms. With unparalleled expertise and offices in North America, Europe, and Asia Pacific, the Innovyze connected portfolio of best-in-class product lines empowers thousands of engineers to competitively plan, manage, design, protect, operate and sustain highly efficient and reliable infrastructure systems and provides an enduring platform for our customers success.

Historically, the hydraulic network modeling market has been largely dominated by two companies: MWH Soft and Wallingford Software. In 2009, these powerful companies combined to expertly develop and service the worlds best smart water management technology and deliver unrivaled customer value.

We felt that a unique company with such a rich history of industry firsts and a relentless focus on innovation and excellence should be named for what it does best. The name Innovyze combines the essence of the words innovate and analyze two of the things we do best. We aim to constantly introduce unprecedented solutions that redefine the best in hydraulic infrastructure modeling and management by identifying key factors and possible results. Our people, products and indomitable passion are focused on our core mission: innovating for sustainable infrastructure.

At Innovyze, we believe that results speak louder than words. From the beginning, that view has shaped everything we do. Its spurred us to set very high standards focus on the fundamentals and relentlessly attend to the details. Its made us passionate about raising the bar and enabled us to regularly surpass our own ambitious goals.

We also believe in putting our customers first because when they succeed, we suceed. Our customers know they can count on us to help them effectively manage their wet infrastructure and achieve the most innovative, sustainable designs possible, regardless of constraints. They know that when they deal with us, we will always work in their best interest. We promise what we deliver and deliver what we promise, consistently. Weve built a corporate culture around that promise. Throughout our rapid growth, we maintained a small company soul in a big company body. That fact ensures well always be able to give our customers responsive, high-quality technical support, take the time to help them make their organizations more efficient and equip them with the power to surpass their goals.

Were especially honored to partner with respected engineering and technology firms, giving them the tools they need to consistently deliver effective, innovative water and wastewater projects around the globe. Were proud to know were playing a part in building a better world for everyone and helping people around the world live happier, healthier, more satisfying lives.

At Innovyze, we have always believed in setting challenging goals focused on advancing our noble profession and becoming an invaluable partner to our customers. Weve met those goals by focusing consistently on what we do best and executing superbly on every aspect of our business. We are not content to rest on our achievements; were determined to build on them and be driven by our customers evolving needs.

Like you, we would never accept anything less.

Paul F. Boulos, Ph.D., BCEEM, NAE, Hon.D.WRE, Dist.D.NE, F.ASCEPresident, COO and Chief Technical Officer

INNOVYZE AT A GLANCE

INNOVYZE HEADQUARTERS

CORPORATE HEADQUARTERS

Innovyze370 Interlocken Boulevard, Suite 300 Broomfield, CO 80021 USA

Telephone Sales: +1 303 533 1934 Support: +1 303 533 1935E-mail: sales-americas@innovyze.com

EMEA SALES & OPERATIONS HEADQUARTERS

InnovyzeKestrel HouseHowbery Park, Wallingford Oxfordshire, OX10 8BA United Kingdom

Telephone Sales: +44 1491 821 400 Support: +44 1491 821 460E-mail: sales-emea@innovyze.com

AMERICAS SALES & OPERATIONS HEADQUARTERS

Innovyze 605 East Huntington Drive, Suite 205Monrovia, CA 91016 USA

TelephoneSales: +1 626 568 6868Support: +1 626 568 6869E-mail: sales-americas@innovyze.com

ASIA-PACIFIC SALES & OPERATIONS HEADQUARTERS

InnovyzeSuite 38, 75 Wharf St.Tweed Heads, NSW 2485Australia

TelephoneSales: +61 7 5506 5700Support: +61 7 5506 5700E-mail: sales-asiapac@innovyze.com

About Innovyze

bRAZIL

Fabio C. PaianoIMAGEMR. Itoror, 555 Vila BandeirantesSo Jos dos Campos SPCEP 12.216-440 Telephone: +55 12 3946 8967E-mail: fpaiano@img.com.br

bRAZIL

Paulo Henrique Matheus Macedo VS Tech Sistemas, Engenharia e ServiosRua Booker Pittman, 179Jardim Santo AntonioSo Paulo, SP 04719-060Telephone: +55 11 5181 4282Fax: +55 11 5181 4282E-mail: pmacedo@vstech.com.br

CANADA

Christopher W. Baxter, Ph.D.HYDRANNT Consulting Inc.Suite 108, 2133-2850 Shaughnessy St.Port Coquitlam, BC V3C 6K5Telephone: +1 604 639 7167Fax: +1 866 616 3568E-mail: cwbaxter@hydrannt.com

CHILE

Felipe San Martn Esri Chile Marchant Pereira 201, 9th Floor Providencia SantiagoTelephone: +56 (2) 2481 9000Email: fsanmartin@esri.cl

COLOMbIA

Alexandra CraneEsri ColombiaCalle 90 # 13-40 Piso 5BogotTelephone: +57 (1) 650-15-50 ext. 3348E-mail: acrane@esri.co

ECUADOR

Julio Martinez C.HYDROSCAN SABramante S5-153 y Borromini170157 La Primavera - QuitoTelephone: +593-02 355-0562Mobile: +593-09-9809-4365E-mail: julio.martinez@hydroscan.be

MExICO

Luis Colunga RamirezA.C.C.S.I.S.A. Alamo No 620 NteCol Reforma, Monterrey, N.L.C.P. 64550 Telephone: +52 81 83 72 06 69Fax: +52 81 83 75 78 15E-mail: luiscolunga@accsisa.com

CHANNEL PARTNERS Innovyze is proud to partner with leading engineering and technology companies to ensure that our cutting-edge, world-class products and solutions are very well represented and supported, and that we always provide the maximum value and benefit to our customers.

From the largest environmental engineering firms to the most learned information technology consultants, our Channel Partners are uniquely qualified to help you choose the very best solution to address your ever-evolving needs. Innovyze Channel Partners are required to maintain their knowledge base with all Innovyze software applications to ensure they are completely familiar with the latest Innovyze solution suite.

AMERICAS

ASIA-PACIFIC

bRUNEI, MALAYSIA & THAILANDGeoff WilsonFaizah Ahmad HR Wallingford Asia Sdn Bhd16 Floor One Sentral, Jalan Stesen Sentral 550470 Kuala Lumpur, Malaysia Telephone: +60 12 360 1357 Telephone: +60 12 343 0849Fax: +60 3 2178 4693 E-mail: g.wilson@hrwallingford.com faizah.ahmad@hrwallingford.com

CHINAVivian DouHR Wallingford Representative Office, ShanghaiRoom 710, 7th Floor, ZhongRong Jasper Tower8# Middle Yincheng RoadPudong New DistrictShanghai 200120Telephone: +86 21 6100 5216 Fax: +86 21 6100 5217E-mail: software@hrwallingford.co.uk

v.dou@hrwallingford.com

HONG kONG

HR Wallingford Representative Office, Hong Kong 21/F, ICBC Tower, Citibank Plaza3 Garden Road CentralHong Kong Telephone: +852 2273 5106 Fax: +852 2273 5999E-mail: software@hrwallingford.co.uk

INDIABhaskar KannojuAdepto Geoinformatics Private LimitedS-1, 3rd Floor, Ashok Asha AbodeBehind Fortune Hotel, Road No.12Banjara Hills, Hyderabad 500 034Telephone: +91 40 2339 3131Fax: +91 40 2339 3232E-mail: Bhaskar.Kannoju@adeptogeoit.com

JAPANTakae AokiEmori & Co., Ltd.1-6-23 KeyaFukui 918-8510Telephone: +81 776 36 6453Fax: +81 776 36 8133E-mail: t-aoki@emori.co.jp

NEW ZEALAND

Tristan JamiesonWatershed Engineering Ltd.41 Oxton Rd, Mount EdenAuckland, 1041Telephone: +64 (0) 21 920 803E-mail: tristan@watershed.gen.nz

Jeff BoothJeff Booth Consulting Ltd.P.O.Box 2180RotoruaTelephone/Fax: +647 347 0075E-mail: jbcl@xtra.co.nz

PHILIPPINESFrances N. DayritAdelbert R. Evangelista GEODATA 19F Strata 100, F.Ortigas Jr. Road1605 Pasig City, Metro-ManilaTelephone: +63 2 6374447 to 49Fax: +63 2 6336873E-mail: fndayrit@geodata.com.ph

aevangelista@geodata.com.ph

Richel CebuNobel Systems Inc.RM 1110, City & Land Mega PlazaADB Ave. Cor. Garnet Road, Ortigas CenterPasig City 1605Phone: +63 (2) 703-5288Email: richelcebu@nobel-systems.com

SOUTH kOREARachel OhGreentech, Inc.Rm1415, Sungjee StarwithGwanyangdong 954-6 Dongan-gu, Anyang-si, Gyeonggi-do431-804Telephone: +82 2 2082 0190 ext.122Fax: +82 2 2082 0195Mobile: +82 16 883 2306E-mail: oversea@greentechinc.co.kr

Steve KimUIT, Inc. Suite 501 Taeyang21 Bldg.832-21 Yeoksam-dongGangnam-gu135-080Telephone: +82 2 2051 2305Fax: + 82 2 2051 2306E-mail: uitinc@uitsolutions.com

About Innovyze

About Innovyze

bELGIUM, THE NETHERLANDS AND LUxEMbOURG (bENELUx)

Peter Jouret (The Netherlands, Flanders)Gregory Herman (Brussels, Walloon Region, Luxembourg)InneauTech sprl.Route de Hannut 555004 NamurBelgiumTelephone: +32 (0)16 240 505Fax : +32 (0)16 240 509Email: peter@inneautech.com Mobile: +32 471 78 51 22Email: gregory@inneautech.com Mobile: +32 476 98 53 05

bULGARIA

Alex LitchevAquaMOD Ltd.MLADOST 3 Residential AreaBuilding 301, Entrance 1, Floor 5, App. (Office) 381712 SofiaTelephone/Fax: +359 29746448E-mail: office@aquamod.eu

FRANCE

Mr Ren Dupas GEOMOD89 rue de la Villette69003 LyonTelephone: +33 (0) 4 78222869Fax: +33 (0) 4 78223885E-mail: rdupas@geomod.fr

GREECE

John KontosMarathon Data Systems38 Kifissias avGR 15125 MaroussiAthensTelephone: +30 210 6198866Fax: +30 210 6198825E-mail: marathon@otenet.gr

HUNGARY

Dr. Sandor KovacsCREDO 2004 BT5000 SzolnokGabor Aron ter 2.2.4Telephone: +36 564 20359Mobile: +33 034 91717E-mail: kovacssandor1885@gmail.com

ITALY

Alessandro GallinaHR Wallingford-ItalyMobile: +39 335 8280930E-mail: a.gallina@hrwallingford.co.uk

ROMANIA

Sandra IonescuSISBucharestElectronicii Street Number 22, District 2Telephone: +40 (021) 252 55 77Fax: +40 (021) 252 56 94E-mail: sis@sis.ro

SPAIN & PORTUGAL

Eduardo MartnezTecnicas de Ingenieria y Software S.L. C/ Rodriguez San Pedro 4228015 MadridTelephone: +34 915 433 757Fax: +34 915 445 878Mobile: 649 88 32 80Email: eduardo_mtz@outlook.com

CHANNEL PARTNERSEUROPE, MIDDLE EAST AND AFRICA

About Innovyze

CHANNEL PARTNERS

TURkEY

A.zgray AydinUniversal Information TechAtatrk Mah. Erzincan Sok. No:2834758 Ataehir, stanbul Telephone: +90 216 456 28 00 Fax: +90 216 456 55 15Mobile: +90 553 246 12 96Email: oaydin@uni-yaz.com

MIDDLE EAST

Adel Abou Jaoude, Ph.D.Khatib & Alami - CECHead OfficeJanah - K&A BuildingP.O. Box 14-6203Beirut 1105 2100LebanonTelephone: +961 (1) 843 843Fax: +961 (1) 844 400Mobile: +961 (3) 361 940E-mail: Adel.AbouJaoude@khatibalami.com

UNITED ARAb EMIRATES

Hani Serhal, Ph.D.Khatib & Alami - CECP.O.Box 2732 Abu DhabiTelephone: +971 (2) 6395999 Fax: +971 (2) 6395639 Mobile: +971 (55) 5584255 E-mail: hani.serhal@khatibalami.com

SOUTH AFRICA

Patrick McKiverganESRI South AfricaBlock A, Whitby Manor167 14th RoadNoordwyk Ext 61Midrand, 1685Telephone: +27 11 238 6300Fax: +27 11 238 6310E-mail: padraig@gims.com

Drainage and FloodingHydraulic modeling is at the core of drainage and flood risk assessments, and Innovyzes comprehensive portfolio of modeling packages represents the leading solutions for this work.

The InfoWorks product suite is founded on strong modeling expertise developed in Wallingford, UK, and its products excel as both stand-alone and workgroup solutions. InfoWorks ICM SE (Sewer Edition) builds on the long heritage of the recently retired InfoWorks CS (Collection Systems), offering fast and robost full hydrodynamic simulation in the urban environment.

The cutting-edge InfoWorks ICM (Integrated Catchment Modeling) builds upon InfoWorks ICM SE, providing truly integrated all-source

catchment modeling in one solution, while adding a whole new level of capabilities to redefine the process of hydraulic model build and simulation. Within InfoWorks ICM the advanced InfoWorks 2D engine is included as standard. InfoWorks ICM Suite provides even more modeling power with the historical and real-time data management capabilities of ICM TSDB and the economic evaluation of flood risks with ICM RiskMaster.

In addition, InfoWorks RS (River Systems) has established itself as one of the foremost river modeling solutions in the world, with the option of adding the InfoWorks 2D engine to provide very fast, accurate and detailed surface flood modeling of flows through complex geometries.

InfoSWMM & H2OMAP SWMM suites equip engineering professionals with fully dynamic urban drainage network modeling based on an improved version of the US EPA Storm Water Management Model (SWMM). InfoSWMM provides these capabilities as an Esri ArcGIS extension and has the option of an additional 2D module (InfoSWMM 2D) plus InfoSWMM SFEM for automated sewer flow estimation, while H2OMAP SWMM operates as a stand-alone geospatial application.

InfoSewer & H2OMAP Sewer suites provide very powerful steady-state and quasi-dynamic design and analysis of sanitary, storm and combined sewers. InfoSewer provides these capabilities as an Esri ArcGIS extension, while H2OMAP Sewer operates as a stand-alone geospatial application.

Real-time flood forecasting has become an increasingly standard requirement around the world, with improvements in computing power now able to support the running of very large, sophisticated hydraulic network models in a timely manner. Critical real-time operational forecasting, early warning, and emergency management for unparalleled decision-making capability is now made possible using ICMLive in combination with InfoWorks ICM, or SWMMLive in combination with InfoSWMM (and H2OMAP SWMM).

Innovyzes FloodWorks combines InfoWorks RS unprecedented simulation capabilities with up-to-the-minute telemetry to provide flood forecasting and essential warnings for river systems to both system operators and the public.

Drainage and Flooding

A significantly more powerful, next generation successor to InfoWorks CS, Infoworks ICM SE (Sewer Edition) provides fast, accurate and robust hydraulic modeling of complete collection system networks. This extends to full modeling of backwater effects and reverse flows, open channels, trunk sewers, complex pipe connections and ancillary structures. Urban flooding and receiving stream impact prediction, water quality, sediment transport and real-time control simulation tools all come as standard with InfoWorks ICM SE.

URbAN DRAINAGE NETWORk MODELING

SE

APPLICATIONS

Undertake drainage studies and sewerage master planning

Modeling of watercourses, open channels and stormwater structures

Effectively implement sustainable urban drainage systems (SUDS)

Identify solutions to intermittent discharges from sewerage systems (UIDs, CSOs or SSOs)

Assess infiltration and inflow

Design and assess urban drainage storm runoff control and retention

EFFECTIVE MODEL bUILD AND SIMULATION

InfoWorks ICM SE provides seamless exchange of data and results to and from GIS and other third party applications using the InfoWorks Open Data Import/Export Center. Asset data can be imported directly from all standard manhole databases and network survey data directly from CCTV exports.

InfoWorks ICM SE includes a comprehensive set of tools to enhance model data, including automatic inference, engineering validation checks, interactive network simplification and tracing tools. Additionally, InfoWorks ICM SE allows data flagging on all model data in order to indicate data source and confidence levels. These critical features provide engineers with accurate network models through a quick and efficient process.

InfoWorks ICM SE incorporates a range of features that enhance the simulation of both gravity fed and pressurized networks. Real-Time Control allows control structures to be directly programmed to respond automatically to conditions in the system during a simulation, allowing optimization of storage and operation

RUNOFF ROUTING, INFILTRATION AND CALIbRATION

InfoWorks ICM SE contains a comprehensive set of models and tools to ensure the network models that engineers create closely match real world conditions.

Choice of Wallingford, Fixed, New PR, SCS, Green-Ampt, Horton, constant infiltration and Horner runoff volume models

Choice of Wallingford, SWMM, Large catchment, SCS Unit, Snyder, SPRINT, Desbordes and Unit hydrograph runoff routing models

Specific features such as network and engineering validation, tracing and the Connectivity Tool, along with visual tools such as flags, themes, 3D views and pipeline profiles, can be used to verify that models are calibrated with a high degree of confidence.

POWERFUL RESULTS INTERPRETATION

Fully dynamic thematic displays with simulation replays make it easy to pinpoint and analyze problem areas in a network

Time varying longitudinal sections with dynamic water levels allow for quick and easy assessment of underground capacity and potential flood points

Database grid reports provide a fast and efficient way to present important data and results

Time varying graphs can be used to quickly show almost any aspect of the models performance

APPLICATIONS

Flooding and pollution prediction under complex urban and river interaction

Assessment of future catchment needs as a result of growth or climatic changes

Irrigation and drought management

Hydraulic analysis of wastewater treatment

Sediment transport and water quality modeling and pollution control assessment

CUTTING EDGE SIMULATION TECHNIQUES

Full two-dimensional (2D) surface flood modeling can be employed across both the wastewater and river components of the model, providing more precise modeling of flows through complex geometries.

Water quality and sedimentation studies can be carried out across both 1D and 2D areas, allowing users to assess the fate of pollutants entering the catchment from both wash off and point sources. Users can model dissolved oxygen, nitrite, nitrate, pH, salt, water temperature, coliforms and more.

The linking of 1D river channels and 2D floodplain is carried out by means of lateral banks. The flow can pass between these two components at any location along the river, allowing real life conditions to be more accurately modeled.

GREATER EFFICIENCIES WITH REMOTE SIMULATION

InfoWorks ICM Remote Simulation allows remote agent machines to simulate models, allowing engineers to return to the task of modeling without affecting their computers performance. This is increasingly valuable as engineers need to evaluate a large number of scenarios within complex environments, with the benefit of the latest 2D simulation techniques.

ADDITIONAL INFORMATION

www.innovyze.com/products/infoworks_icmsales@innovyze.com

NEWS & CASE STUDIES

www.innovyze.com/news/?infoworks_icm

LATEST PRODUCT UPDATES

www.innovyze.com/updates

UNPRECEDENTED MODEL CREATION

InfoWorks ICM gives engineers the ability to create a single model that contains the salient features existing in an environment with a single, unified hydrology. Manholes, pipes, and inlets can be combined with natural and man-made channels to create a model in which the catchment and the floodplain are one, as they are in real life. The additional ability to model objects such as bridges, sluices, weirs and pumps allows the creation of models that are more complete and more accurate than ever before.

INTEGRATED ALL-SOURCE CATCHMENT MODELING

InfoWorks ICM (Integrated Catchment Modeling) builds on the capabilities of InfoWorks ICM SE by enabling the dynamic integration of one-dimensional (1D) hydrodynamic simulation of flows and two-dimensional (2D) hydrodynamic simulation of surface flooding in the urban environment and river floodplain. It provides a powerful solution for simultaneously modeling below-ground and above-ground elements of catchments to accurately represent all flow paths and improve understanding of the processes occurring in the holistic environment.

INFOWORkS ICMExCHANGE

A full-featured programmers toolkit, ICMExchange enables users to directly import and export InfoWorks ICM data in a variety of formats (e.g., Oracle, SQL, Geodatabases) as well as interface with the powerful InfoWorks ICM simulation engine to create their own custom solutions. It also streamlines the creation of custom applications and interfaces that enable users to view or modify data for evaluation and comparison of various modeling scenarios.

Drainage and Flooding

REAL-TIME DATA AND EVENT MANAGEMENT PLUS ECONOMIC EVALUATION OF FLOOD RISkS

ICM TSDb

A powerful and comprehensive time-series database, ICM TSDB lets utilities archive, analyze and aggregate real-time and historical data, including radar images and meteorological forecasts, into user-defined actionable information. They can then use this data to drive simulations of past and future events for optimal management of urban and rural catchment systems. This critical software tool will allow utilities and river authorities to not only productively learn from past events, but effectively monitor, forecast and better react to future events. These capabilities facilitate a new level of vulnerability assessment and collection system protection while reducing or eliminating property and environmental damage and safeguarding public health.

Suite

Planning, designing, operating, optimizing and sustaining safe and reliable drainage systems is faster, easier and more accurate, with the expanded suite and advanced functionality of industry-leading InfoWorks ICM. The new InfoWorks ICM Suite for comprehensive integrated catchment management is now available via three targeted products: InfoWorks ICM, ICM TSDB and ICM RiskMaster and provides a complete set of superior modeling tools to address all aspects of integrated catchment management.

POWERFUL DECISION-MAkING SUPPORT

ICM TSDB delivers a powerful combination of 2D rainfall data and time-series data, along with a suite of analytic and visualization tools that monitor the performance and capacity of collection systems. This gives users a comprehensive, real-time view into current system operations, enabling them to make informed, timely decisions.

REAL-TIME OPERATIONS INTELLIGENCE

Despite the widespread availability and use of 2D rainfall and time-series network data (e.g., rain gauge, level gauge, flow gauge), collection system models are not continuously updated with real-time field and radar data. This generally confines the applications of these models to offline analyses. While such analyses can provide useful information for network design and long-range capital planning applications, they lack the predictive accuracy critical to operational and emergency event management. ICM TSDB (Time Series Database) provides accurate network performance and operational information from real-time data, enabling engineers and operators to quickly and reliably assess the integrity of the network and respond to potential overflows, flooding and other non-routine events.

REAL-TIME DATA DRIVEN SIMULATION

ICM TSDB extends the utility of smart network modeling to encompass real-time field and radar data-driven simulations and predictive forecasting capabilities. It brings all relevant data from disparate sources into a single system readily available for detailed analysis using InfoWorks ICM. This enables operators to detect problems before they become events, and gives them crucial time to react and reduce or eliminate their impacts. Such advanced capabilities greatly enhance the ability of wastewater utilities to predict flood risks, support cost-effective drainage management and online urban flooding forecasts, and improve drainage system operation.

ICM RISkMASTER

A revolutionary risk-based analysis extension for InfoWorks ICM, ICM RiskMaster enables users to accurately compute both the damage caused by specific flood events and expected annual flood damage. Calculations are based on the hydraulic, hydrologic and economic data for any number of simulated damage receptors including residential, commercial and industrial properties. These powerful predictive analysis capabilities provide InfoWorks ICM users with both a quantification of the current flood risk associated with their collection systems and a long-term planning framework for making the most effective decisions on flood risk management and alleviation strategies.

RISk-bASED FLOOD MODELING

Traditionally, flood management policies have been based on the design standard approach, where policy makers decide on an appropriate protection level to be achieved (degree-of-protection) in designing and managing their collection systems. In contrast, flood management policies based on risk focus on the consequences of flood events and the best alleviation measures over a given time period. With its powerful risk-based analytics, InfoWorks ICM RiskMaster expands the modeling power of InfoWorks ICM to let users accurately assess and better manage their collection systems and protect properties from flood events.

Rather than expecting the collection system to simply service a specific loading level, the new extension directly takes into account all types of events based on their probability of occurrence. It combines the inundation results of multiple events with a database of receptors (properties) and their vulnerability, based on the probability of occurrence. The outcome is an estimate of the economic impact of floods in terms of estimated annual damage (EAD) value, and a database of inundation depths ordered by return period, showing the predicted flood recurrence for each receptor.

The results can be displayed in both tabular and graphical format. They provide a comprehensive view of the hydraulic system performance and the consequences of flood events. This critical information is invaluable to engineers and stakeholders in alleviating the impact of flooding by making informed, cost-effective decisions that improve the design, maintenance, rehabilitation, operation and management of their collection systems.

COMPREHENSIVE FLOOD RISk MANAGEMENT

With ICM RiskMaster, different flood risk management alternatives and their potential impacts can be readily assessed and compared, and the best plan identified. This tool gives users the vital power to take faster, more informed steps to maximize net flood reduction benefits (flood damage prevented by the plan) and more effectively protect their communities and waterways.

ADDITIONAL INFORMATION

www.innovyze.com/products/icm_tsdbwww.innovyze.com/products/icm_riskmastersales@innovyze.com

NEWS & CASE STUDIES

www.innovyze.com/news/?infoworks_icm

LATEST PRODUCT UPDATES

www.innovyze.com/updates

Drainage and Flooding

By making powerful modeling technology instantly accessible to control room operators, ICMLive helps water utilities and river authorities operate their collection systems in real time, better understand and predict the effects of global climate change and changing flood conditions, and make better, faster, action-oriented decisions. ICMLive offers state-of-the-art, real-time operational forecasting of urban and rural catchments, combining the comprehensive integrated catchment modeling capabilities of InfoWorks ICM with sophisticated real-time operational forecasting, early warning, and emergency management. It provides water utilities and river authorities timely, accurate and reliable forecasts of what will happen within a catchment, based on past and current observations of a multitude of parameters along with future rainfall predictions.

REAL-TIME OPERATIONAL FORECASTING OF URbAN AND RURAL CATCHMENTS

LIVE MANAGEMENT SYSTEM

Warnings or alerts triggered during the forecast period are instantly displayed via the rich ICMLive user interface, allowing system operators to see at a glance which areas need attention and what actions might be taken. Comparison alerts highlight differences between observed and modeled results, enabling users to refine their models creating unprecedented confidence in simulation results.

EMPOWERED PRObLEM SOLVING

ICMLive allows operators to perform additional scenario analysis simulations, exploring alternative real time control scenarios such as the impact of switching on a pump earlier than planned, and quickly seeing the effect of these changes on the system. This wide range of capabilities allows ICMLive to serve as a key tool in the decision making process, enabling operators to take action to avoid system issues, release timely alerts, and quickly deploy response teams if necessary.

ADDITIONAL INFORMATION

www.innovyze.com/products/icmlivesales@innovyze.com

NEWS & CASE STUDIES

www.innovyze.com/news/?icmlive

LATEST PRODUCT UPDATES

www.innovyze.com/updates

REAL-TIME DECISION MAkING

ICMLive allows both large and small utilities and water authorities to manage their systems more efficiently and effectively than ever before. This powerful risk assessment and real-time decision making tool enables managers and operators to consider the influence of a full range of catchment factors in the management of flooding and the reduction of unregulated discharges; the optimization of storage and existing infrastructure, leading to savings on capital works; and the optimization of pumps to lower energy costs and reduce CO2 emissions.

STREAMLINED OPERATOR ENVIRONMENT

ICMLive is designed to work automatically. Once a system is configured, real-time data is continually and automatically harvested and quality checked. This data can be defined by a number of parameters, including observed and forecast radar rainfall, online water quality measurements, and ancillary structure and pump operation time series. Simulations are run automatically at a user-defined frequency drawing on the full hydrodynamic and technological capabilities of InfoWorks ICM, including one- and two-dimensional modeling techniques, real-time control, dynamic water quality analysis, and GPU-enhanced and remote simulation. Simulation frequency can change in response to user-defined conditions. For example, increased rainfall intensity can trigger a reduction in the interval between simulations.

AMONG THE MANY bENEFITS OF ICMLIVE:

Forecasting of system states Real-time model and telemetry data Early identification of maintenance issues Improved understanding of network operation Reduced flood damages Reduced risk to public, staff and contractors Reduced number of CSO spills

Operational management Pump and gate operation scheduling Different comparative control strategy evaluation Use of system storage evaluation Reduced energy CO2 costs Continuous simulation runs Continuous evaluation of existing and proposed

systems using real-world inputs

Drainage and Flooding

InfoWorks RS provides dynamic solution modeling of open channels, culverts, floodplains, embankments and hydraulic structures. Combining a fully integrated 1D & 2D flow simulation engine, geographical analysis and a relational database within a single environment, InfoWorks RS provides a powerful tool to import, clean up and store survey and time-series data; build detailed and accurate models; analyze model results; and present outputs in engineering report quality formats.

SIMULATION OF FLOWS IN RIVERS, IN CHANNELS AND ON FLOODPLAINS

APPLICATIONS

Indicative flood risk mapping on regional and catchment scales

Detailed flood mapping at the individual property scale for urban planning and development control

Dambreak analysis and associated flood, hazard and damage mapping

Embankment breach investigations and prediction

Catchment planning and management

Flood defense planning and design and low flow assessments

Water resources management

Environmental studies including water quality assessment and sediment transport

Saline intrusion studies

ADDITIONAL INFORMATION

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EFFORTLESS DATA ExCHANGE

InfoWorks RS fully supports the import of a wide range of geographic and time-varying data. This data can originate from other model formats such as ISIS and HEC-RAS, or can be sourced from GIS and DTM data. CSV or txt data formats can also be used in order to facilitate the model building process. An easy-to-use system of data flags means that the source and level of confidence in any imported data is maintained. Data can be exported from InfoWorks RS in a wide range of database, GIS or text file formats.

POWERFUL MODEL bUILD CAPAbILITIES

InfoWorks RS supports direct data take-off from Digital Terrain Model (DTM) data, which can also be used to generate and display ground level contours, cross-sections, floodplain sections, levees, spill data and stage-area tables. In addition, InfoWorks RS offers the direct import or graphical creation of sub-catchment boundaries over vector or raster map backgrounds. Sophisticated functions enable engineers to compare and combine models, while simple tools allow the drawing, extension and modification of rivers, embankments and flood plain sections. The software includes a range of data and model validation tools which ensure the model network, boundaries and structure control are valid before simulation.

COMPREHENSIVE SIMULATION CAPAbILITIES

Bank/Levee & Dam Breach Module offers dynamic simulation of the failure of earth embankments

Sediment Transport Module enables prediction of sediment transport rates, bed elevations and amounts of erosion/deposition throughout a channel system

Water Quality Module to model the fate and transport of pollutants within the river system, accounting for advection and diffusion of pollutants as well as chemical processes that may also affect the concentration of pollutants

Logical Control Module allows the remote manipulation of control structures within the model, in order to optimize storage and operation

Conveyance Estimation System (CES) enables user to estimate the conveyance or carrying capacity of a channel

Optional InfoWorks RS 2D module provides enhanced modeling of flows through complex geometries

CLEARER PRESENTATION AND ANALYSIS

Full interactive and animated views of data and results are available using geographical plan views and 3D views, long section or profile views, spreadsheet and time-varying graphical data. Full flood-mapping capability is based on a highly sophisticated flood-interpolation model overlaid onto an imported ground model. The underlying model data can be accessed from any graphical or geographical view. A range of detailed reports is also available, including statistical comparisons of calibration data, exceedence statistics and peak timings.

Drainage and Flooding

FloodWorks is a modular software package for real-time simulation and forecasting of future hydrological and hydraulic conditions within river basins, stormwater and drainage systems and coastal areas. Designed for operational use in the control room, FloodWorks links varied live data sources with a wide range of models to provide detailed and accurate forecasts of water levels, flood depths, flows, velocities, water quality parameters and sea states.

OPERATIONAL FORECASTING FOR RIVERS, COLLECTION SYSTEM NETWORkS AND COASTAL ZONES

APPLICATIONS

Flood forecasting and warning

Operational modeling of stormwater systems

Optimization of wastewater collection systems

Reservoir, dam and structure operation

Low flow prediction and warning

Water quality prediction and warning

FLOODWORkS COMPONENTS

FloodWorks Event Manager

FloodWorks Configuration Manager

FloodWorks Server

FloodWorks Web Publisher (optional)

FloodWorks Web Server (optional)

ADDITIONAL INFORMATION

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NEWS & CASE STUDIES

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FLOOD FORECASTING FOR RIVER SYSTEMS

FloodWorks provides flood forecasting for river systems, channels and flood plains when configured for use with the integrated 1D/2D simulation engine contained in InfoWorks RS. FloodWorks combines the modeling solutions integrated rainfall-runoff, hydraulic, water quality, conveyance, dam breach and logical control modules with real-time hydrological and meteorological time-series data to provide forecasts of water levels, flood depths and sea states for the hours or days ahead.

SIMPLE, USER-FRIENDLY OPERATION

The operational management user interface, FloodWorks Event Manager, emphasizes ease of use in combination with powerful facilities for visualizing and reporting forecast results. A convenient map display of data from the forecast summary tables along with tabular data provides the operator with instant point and click access to detailed information. The interface allows the creation of new forecast runs or reruns, and also the scheduling of regular runs or event-triggered runs. The operator is able to select forecast options and to make changes to input data where required. FloodWorks Configuration Manager can be used to further configure the FloodWorks model network and to set up and manage all aspects of the operational system.

QUICk AND CLEAR COMMUNICATION OF RESULTS

When an event trigger threshold is reached, an alert is issued by the FloodWorks Server. In the FloodWorks Event Manager the alert and its severity level are displayed clearly on the map display. Simultaneously, alerts can be issued by e-mail or SMS to ensure that the latest information can be distributed to those who require it as quickly as possible. The optional FloodWorks Web Publisher and Web Server components allow server output to be published in web compatible formats for access from either public or intranet websites. FloodWorks also contains a full range of tools for constructing detailed reports and bulletins.

Drainage and Flooding

InfoSWMM is a highly advanced and comprehensive GIS-centric hydrologic, hydraulic, and water quality simulation model for the management of urban stormwater drainage and wastewater collection systems. It can be used to model the entire land phase of the hydrologic cycle. Built atop Esris ArcGIS, InfoSWMM seamlessly integrates advanced hydrologic and sewer collection system modeling and optimization functionality, enabling users to leverage existing GIS investments in one complete and affordable package.

ARCGIS INTEGRATED URbAN DRAINAGE NETWORk MODELING

APPLICATIONS

Rainfall-runoff modeling of urban and rural watersheds

Infiltration and inflow assessment

Real-Time Control (RTC) operational studies

Storage pond design

Hydraulic and water quality analysis of storm, sanitary, and combined sewer systems

CSO & SSO studies

Master planning of sewer collection systems and urban watersheds

Hydrogen sulfide generation and corrosion modeling

Best Management Practices (BMPs) and low impact development (LID) studies

Total Maximum Daily Load (TMDL) compliance

Modeling of sediment transport and deposition

UNEQUALED GEOSPATIAL HYDROLOGIC MODELING CAPAbILITIES

InfoSWMM performs dynamic rainfall-runoff simulations for single event or long-term (continuous) simulations accounting for climate, soil, land use and topographic conditions of the watershed. The runoff component operates on a collection of subcatchment areas onto which rain falls and runoff is generated. It can account for various hydrologic processes that produce runoff from urban areas including time-varying rainfall, rainfall interception, infiltration and percolation, evaporation, snow melt, flow between groundwater and the conveyance system, dry weather sanitary flows, user-defined flows and reservoir routing of overland flow.

POWERFUL & VERSATILE HYDRAULIC MODELING FEATURES

With the ability to handle networks of any size, InfoSWMM includes flexible hydraulic modeling features used to route runoff and external inflows through a network of pipes, channels, pumps, storage and treatment units and diversion structures. Once runoff quantity and quality are simulated and wastewater loads at receiving junctions are determined, flows are routed using steady state routing, kinematic wave routing, or fully dynamic wave routing. Users have complete real-time control of the operation of all hydraulic structures.

COMPREHENSIVE WATER QUALITY CAPAbILITIES

In addition to modeling the generation and transport of runoff flows, InfoSWMM can also estimate the production and fate of pollutant loads associated with this runoff. For any number of user-defined water quality constituents, a comprehensive range of processes can be simulated including dry weather pollutant buildup based on land use, pollutant wash-off during storm events, dry weather entry of sanitary flows, and reduction in dry weather loads due to BMP.

RICH PRESENTATION OF RESULTS

Using powerful ArcGIS thematic mapping functionality, InfoSWMM makes it easy to turn dry database information into stunningly colorful, fully dimensional visualizations. Users can generate beautiful, accurate and smooth contours for any variable, including HGL or water quality even overlay multiple contours on a single drawing. Users can draw on a range of other sophisticated graphical presentation tools, including color-coded mapping, dynamic annotation/labelling, graphing, profiling, customizable tabular reporting, and vivid VCR-style animation to produce truly compelling results.

ADDITIONAL INFORMATION

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NEWS & CASE STUDIES

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COMPREHENSIVE LOW IMPACT DEVELOPMENT FUNCTIONALITY

InfoSWMM offers comprehensive Low Impact Development (LID) Controls functionality. LID Controls are low impact development practices designed to capture surface runoff and provide some combination of detention, infiltration, and evapotranspiration to it. InfoSWMM can explicitly model five different generic types of LID controls. These are: bio-retention cells, infiltration trenches, continuous porous pavement systems, rain barrels (or cisterns) and vegetative swales. Bio-retention cells, infiltration trenches, and porous pavement systems can all contain optional underdrain systems in their gravel storage beds to convey captured runoff off of the site rather than letting it all infiltrate. They can also have an impermeable floor or liner that prevents any infiltration into the native soil from occurring. Infiltration trenches and porous pavement systems can also be subjected to a decrease in hydraulic conductivity over time due to clogging.

Drainage and Flooding

RDII ANALYST performs rigorous QA/QC of rainfall and flow monitoring data and decomposes the flow data into distinct dry-weather flow (DWF) and wet-weather flow (RDII) components using criteria such as rainfall threshold and interval between rainfall events. It automatically constructs and allocates DWF patterns, determines RDII events and calibrates parameters of the RTK synthetic unit hydrograph to carry out detailed dynamic flow routing through the sewer system and evaluate system response. This data is critical in supporting the development of an optimal capital improvement program.

Exclusive extensions further enhance the cutting-edge capabilities of InfoSWMM

HEIGHTENED UTILITY

RISk ASSESSMENT MANAGER automatically computes the extent of sewer overflows and flooding (volume and reach), calculates population at risk, pinpoints sources overloading the system, locates system capacity limitations and blockages, and estimates property damage costs. It also facilitates quick examination of overland flow pathways, showing lateral routes and spreading of floodwaters.

POND DESIGN MANAGER allows you to plan, analyze, design, and complete detention pond projects of any size and complexity quickly, correctly, and below budget. It lets you rapidly size single or unlimited numbers of interconnected ponds; compute pond volumes; generate outlet rating curves with tailwater effects using accurate, fully dynamic routing for single and multiple outlets; calculate pond detention times; analyze any complex network of channels; and size any outlet structures including weirs, orifices, and risers.

DRY WEATHER FLOW ALLOCATOR provides you unprecedented speed, accuracy, and flexibility in calculating, distributing, and managing dry weather flows in your sewer network model. It automatically computes, tracks and assigns wastewater loads generated by various customer categories based on land use and development characteristics, population, sanitary service areas, parcel data or meter data. Computations consider not only existing system conditions but various planning horizons.

SUbCATCHMENT MANAGER lets you automatically and accurately delineate all subcatchments in your watershed, calculate their hydrologic and water quality parameters, and manage distributed rainfall across your drainage system. You can now develop accurate and reliable dynamic sewer models faster than ever before.

CALIbRATOR makes it possible to swiftly and reliably calibrate very large and complex urban rainfall-runoff models, facilitating better analysis and design. Using advanced genetic algorithms optimization technology, it automatically adjusts sewer and drainage system parameters to accurately match collected flow, depth, and velocity measurements for both single-event and long-term continuous simulations. These parameters can include any combination of subcatchment, soil, aquifer, RDII, and conduit properties.

CONDUIT STORAGE SYNTHESIZER automatically defines storage capacity in a conduit network (stage storage relationship) based on a dynamic analysis of wastewater system volume under changing heads an invaluable tool when analyzing large and complex gravity-pumped systems. It can also calculate the depth/volume relationship for natural channels and floodplains.

ADDITIONAL INFORMATION

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DESIGNER quickly determines the most cost-effective solution to flooding and pollution management by finding the precise combination of pipe slope and size, storage volume, pumping capacity and new piping that will best convey sewer flows without surcharging, overflows, flooding, and backups at maximum cost savings. These comprehensive capabilities will greatly assist you in planning and designing reliable and efficient systems that meet regulations, minimize your capital investment, and promote healthier communities and a safer environment.

SUSTAIN lets users develop, evaluate, select and place optimal best management practice (BMP) combinations at various watershed scales on the basis of cost and effectiveness. This comprehensive geocentric decision support system greatly facilitates optimal selection and placement of BMPs and low impact development (LID) techniques at strategic locations in urban watersheds. The software can accurately model any combination of LID controls, such as porous permeable pavement, rain gardens, green roofs, street planters, rain barrels, infiltration trenches, and vegetative swales, to determine their effectiveness in managing stormwater and combined sewer overflows. Such capabilities can greatly assist users in developing cost-effective and reliable implementation plans for flow and pollution control aimed at protecting source waters and meeting water quality goals. It does so by helping users answer the following questions: How effective are BMPs in reducing runoff and pollutant loadings? What are the most cost-effective solutions for meeting water quality and quantity objectives? And where, what type, and how extensive should BMPs be?

By seamlessly integrating ArcGIS with SWMM, SUSTAIN provides critically needed support to watershed practitioners at all levels in developing stormwater management evaluations and cost optimizations to meet their program needs. The software can automatically import any SWMM5.1, InfoSWMM or InfoWorks ICM model, then evaluate numerous potential combinations of BMPs to determine the optimal combination to meet specified objectives such as runoff volume or pollutant loading reductions. Both kinematic wave and full dynamic wave flow routing models are fully supported. Among its many vital applications, SUSTAIN can be effectively used in developing TMDL implementation plans, identifying management practices to achieve pollutant reductions under a separate municipal storm sewer system (MS4) stormwater permit, determining optimal green infrastructure strategies for reducing volume and peak flows to combined sewer systems, evaluating the benefits of distributed green infrastructure implementation on water quantity and quality in urban streams, and developing a phased BMP installation plan using cost effectiveness curves.

Drainage and Flooding

2D Simulation SolutionsInnovyzes high-performance 2D simulation solutions seamlessly integrate advanced 1D and 2D functionalities in one environment, enabling users to model the most complex storm and combined sewer collection systems and surface flooding with incredible ease and accuracy. Its unparalleled 1D/2D dynamic linking capabilities give the unprecedented power to analyze and predict potential flood extents, depth and velocity and accurately model the interaction of surface and underground systems.

ADVANCED SIMULATION FOR COMPLEx GEOMETRIES

FEATURES

Analysis and prediction of potential flood extent, depth and velocity

Comprehensive functionality to completely model the interaction of surface flows, floodplain structures and underground systems

Fully integrated 1D and 2D modeling environments

Multiple surface mesh design optimizes modeling flexibility and accuracy

Multiple results views, both static and animated

bENEFITS

Two-dimensional (2D) simulations are significantly better than one-dimensional (1D) simulations for modeling flows through any complex geometries (such as developed floodplains, urban streets and buildings, road intersections and other transport infrastructure), and open ground, where either the source or direction of flow is problematic to assume.

In urban areas, the situation is exacerbated by the presence of flood prevention facilities specifically designed to deflect or divert any excessive flows during flood events. Modeling such complex flow scenarios both accurately and efficiently requires a model with both 1D and 2D engines.

FULLY INTEGRATED CAPAbILITIES

Innovyze 2D simulation solutions are available as seamlessly integrated components featuring complete interaction with existing 1D simulation engines. InfoWorks ICM includes 2D simulation as standard and benefits from additional hardware acceleration. Built atop ArcGIS, InfoSWMM 2D is available as an extension of InfoSWMM, providing exceptional ease of use for ArcGIS users. Additionally InfoWorks RS 2D is available as an additional module. Across all solutions, use of GIS data is optimized to enable fast and effective model creation and deliver detailed and accurate simulations.

FLExIbLE SIMULATION MESHING

2D simulations are based on a surface mesh that gives users maximum flexibility, increasing the type of flows that can be modeled and ensuring that the system topography is modeled as accurately as possible. Multiple mesh types (triangular unstructured, quadrangular unstructured, and multiblock rectangular); the inbuilt mesh generator; variable mesh resolution; and variable mesh roughness present a wide range of options to modelers. The ability to create 2D models within larger 1D models and to only perform calculations on wet elements combined with volume conservation analysis enables 2D modeling to be performed quickly and reliably.

SOPHISTICATED MESH FEATURES

A large number of structures can be easily modeled in 2D. Voids can be specified to represent objects, such as buildings, where meshing and simulation need not occur. In addition, one-dimensional features such as brick walls can be modeled with a set height over which water can flow. Walls and other objects can also be specified as porous, allowing them to represent objects that may pass some flow. Additionally, they can be set to fully or partially collapse during a simulation based on particular criteria, increasing the level of model realism. 2D meshes can also be enhanced by the use of break lines that force mesh element edges to follow a particular path and can be used to define objects such as ridges or ditches. All 2D solutions can take advantage of underlying GIS data to facilitate fast structure creation.

ADDITIONAL INFORMATION

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RICH PRESENTATION OF RESULTS

2D simulation results can be displayed in a variety of formats allowing quick and easy interpretation. The mesh elements properties dialog provides simple access to results such as water depth, velocity and direction, maximum hazard, time to first inundation and time to peak inundation. Results can also be shown as themes on the GeoPlan and 3D views, through time-varying grids and graphs and in long section views. Further refinement is provided by 2D point and line results. Results can be exported to standard industry formats, including the KMZ file format for display in Google Earth.

Drainage and Flooding

H2OMAP SWMM is a fully dynamic, GIS-based wastewater and stormwater modeling and management software that can be used to model the entire land phase of the hydrologic cycle as applied to urban stormwater and wastewater collection systems. The model can perform single-event or long-term (continuous) rainfall runoff simulations that account for climate, soil, land use, and topographic conditions of the watershed. H2OMAP SWMM can also predict runoff quality, including buildup and washoff of pollutants from primarily urban watersheds.

STAND-ALONE GEOSPATIAL URbAN DRAINAGE NETWORk MODELING

APPLICATIONS

Rainfall-runoff modeling of urban and rural watersheds

Infiltration and inflow assessment

Real-Time Control (RTC) operational studies

Storage pond design

Hydraulic and water quality analysis of storm, sanitary, and combined sewer systems

CSO & SSO studies

Master planning of sewer collection systems and urban watersheds

Hydrogen sulfide generation and corrosion modeling

Best Management Practices (BMPs) and Low Impact Development (LID) studies

Total Maximum Daily Load (TMDL) compliance

Modeling of sediment transport and deposition

UNEQUALED HYDROLOGIC MODELING CAPAbILITIES

H2OMAP SWMM performs dynamic rainfall-runoff simulations for single event or long-term simulations accounting for climate, soil, land use, and topographic conditions of the watershed. The runoff component operates on a collection of subcatchment areas onto which rain falls and runoff is generated. It can account for various hydrologic processes that produce runoff from urban areas including time varying rainfall, rainfall interception, infiltration and percolation, evaporation, snow melt, flow between groundwater and the conveyance system, dry weather sanitary flows, user-defined flows and reservoir routing of overland flow.

POWERFUL & VERSATILE HYDRAULIC MODELING FEATURES

With the ability to handle networks of unlimited size, H2OMAP SWMM includes flexible hydraulic modeling features used to route runoff and external inflows through a network of pipes, channels, pumps, storage and treatment units, and diversion structures. Once runoff quantity and quality are simulated and wastewater loads at receiving junctions are determined, flows are routed using steady state routing, kinematic wave routing or fully dynamic wave routing. Users have complete real-time control of the operation of all hydraulic structures.

COMPLETE WATER QUALITY CAPAbILITIES

In addition to modeling the generation and transport of runoff flows, H2OMAP SWMM can also estimate the production and fate of pollutant loads associated with this runoff. For any number of user-defined water quality constituents, a comprehensive number of processes can be simulated including dry weather pollutant buildup based on land use, pollutant wash-off during storm events, dry weather entry of sanitary flows, and reduction in dry weather loads due to BMP.

RICH PRESENTATION OF RESULTS

Using powerful thematic mapping functionality, H2OMAP SWMM makes it easy to turn dry database information into stunningly colorful, fully dimensional visualizations. Users can generate beautiful, accurate, and smooth contours for any variable, including HGL or water quality even overlay multiple contours on a single drawing. They can also draw on a range of other sophisticated graphical presentation tools, including color-coded mapping, dynamic annotation and labelling, graphing, profiling, customizable tabular reporting, and vivid VCR-style animation to produce truly compelling results.

ADDITIONAL INFORMATION

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NEWS & CASE STUDIES

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COMPREHENSIVE LOW IMPACT DEVELOPMENT FUNCTIONALITY

H2OMAP SWMM offers complete Low Impact Development (LID) Controls functionality. LID Controls are low impact development practices designed to capture surface runoff and provide some combination of detention, infiltration, and evapotranspiration to it. H2OMAP SWMM can explicitly model five different generic types of LID controls. These are: bio-retention cells, infiltration trenches, continuous porous pavement systems, rain barrels (or cisterns) and vegetative swales. Bio-retention cells, infiltration trenches, and porous pavement systems can contain optional underdrain systems in their gravel storage beds to convey captured runoff off of the site rather than letting it all infiltrate. They can also have an impermeable floor or liner that prevents any infiltration into the native soil from occurring. Infiltration trenches and porous pavement systems can also be subjected to a decrease in hydraulic conductivity over time due to clogging.

Drainage and Flooding

A comprehensive real-time operational forecasting and network modeling tool, SWMMLive lets wastewater utilities worldwide harness the power of real-time data, scenario planning, and predictive modeling to transform the operation and management of their collection systems and anticipate and mitigate the effects of extreme weather-related events. It is the ultimate decision support system for operating and sustaining safe, reliable and efficient infrastructures while effectively protecting public health and our waterways.

REAL-TIME STORMWATER, WASTEWATER AND WATERSHED MODELING

REAL-TIME SIMULATION CAPAbILITIES

SWMMLive combines the comprehensive urban drainage modeling capabilities of InfoSWMM (and H2OMAP SWMM) with sophisticated real-time operational forecasting, early warning, and emergency management. It provides wastewater utilities timely, accurate and reliable forecasts of what will happen within a catchment, based on past and current observations of a multitude of parameters along with future rainfall predictions. It also helps them identify flood-vulnerable assets and formulate sound and cost-effective remediation/mitigation strategies.

to user-defined conditions. For example, increased rainfall intensity can trigger a reduction in the interval between simulations.

LIVE DECISION SUPPORT SYSTEM

SWMMLive allows operators to perform multiple simulations that explore alternative real time control scenarios such as the impact of switching on a pump earlier than planned and quickly seeing the effect of these changes on the system. They can consider the influence of a full range of catchment factors in three key areas: management of flooding and reduction of unregulated discharges; optimization of storage, green alternatives and existing infrastructure, leading to savings on capital works; and optimization of pumps to lower energy costs and reduce CO2 emissions. The wide range of capabilities in SWMMLive allow it to be used as a key tool in the decision making process, enabling operators to take action to avoid system issues, release timely alerts, and quickly deploy response teams if necessary. Warnings or alerts are instantly displayed via the rich SWMMLive user interface, allowing system operators to see at a glance which areas need attention and what actionable options might be taken. Comparison alerts can be used to highlight differences between observed and modeled results, enabling users to refine their models creating unprecedented confidence in simulation results.

OPERATIONAL PREDICTIVE MODELING

SWMMLive is designed to work automatically. Once a system is configured, real-time data is continually and automatically harvested and quality checked. This data can be defined by a number of parameters, including observed and forecasted radar rainfall, online water quality measurements, and ancillary structure and pump operation time series. Simulations are carried out automatically at any user-defined frequency using the full hydrodynamic and functional capabilities of InfoSWMM (and H2OMAP SWMM), including water quality assessment, pollution prediction, urban flooding, green LID and BMP alternatives, and real-time control. Simulation frequency can change in response

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POWERFUL SEWER MANAGEMENT

InfoSWMM SFEM 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.

UNRIVALED SEWER FLOW ESTIMATION

InfoSWMM SFEM uses standard census and land use data to project near and long term population growth, create a population distribution pattern on the block level of a region, and estimate the dry weather flow of each sewershed. The sewersheds are dynamically generated based on user-defined sinks allowing flow accumulation and flow estimation based on a sophisticated basin logic tree. The logic tree is then used to develop a comprehensive methodology for estimating flows within a sewershed or basin from four main components including residents, employment, industries and groundwater basins.

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COMPREHENSIVE PLANNING CAPAbILITIES

InfoSWMM SFEM lets users 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, it can be effectively used to identify strategic flow gauging locations, calibrate estimated flows, manage industrial discharges and perform general planning analyses.

An invaluable wastewater master planning tool, InfoSWMM SFEM (Sewer Flow Estimation Model) 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. In addition, it can be effectively used to identify strategic flow gauging locations, calibration of estimated flows, managing industrial discharges and general planning analysis.

ARCGIS-bASED DYNAMIC SEWER FLOW ESTIMATION

Drainage and Flooding

STEADY AND QUASI-DYNAMIC SANITARY, STORM AND COMbINED SEWER DESIGN AND MODELING FOR ARCGIS

InfoSewer is a fully GIS-integrated program for use in the planning, design, analysis, and expansion of sanitary, storm and combined sewer collection systems. It can effectively model both dry-weather and wet-weather flows, to determine the most cost-effective and reliable method of wastewater collection. InfoSewer seamlessly integrates advanced hydraulic and hydrologic modeling functionality with the latest generation of ArcGIS, enabling users to leverage existing GIS investments in one complete and affordable package.

APPLICATIONS

Master planning and design

Infiltration/inflow modeling

System analysis and deficiency identification

Sensitivity and alternative analysis

Capital improvement and budgeting

CMOM program planning

Sediment modeling and impact analysis

Pollutant contribution analysis

Wet-well design

Discharge permit compliance

Flow monitoring design

Impact fees determination

EFFICIENTLY PREDICT AND REDUCE OVERFLOW EVENTS

InfoSewer provides fast and comprehensive hydraulic modeling capabilities including rainfall-runoff modeling for representative peak flow and routing of combined sanitary sewage and stormwater. Extensive scenario management functionality enables users to develop and compare remedial alternatives for eliminating CSOs and SSOs and restore or increase capacity to meet environmental regulations and improve system management.

SMARTER PLANNING USING AUTOMATED DESIGN

InfoSewer allows users to quickly and reliably design new sewer collection systems and expansions. The program automatically calculates the optimal pipe size and slope, invert elevation of conduits and manholes, soil cover depths at both ends of each pipe section, and cost of excavation and reinstatement to meet target design criteria. It then adds the new infrastructure to the model database.

POWERFUL DYNAMIC WATER QUALITY MODELING

Developing effective water quality monitoring programs will improve safety practices and prolong the life of system infrastructure. InfoSewer provides very powerful and efficient water quality computational capabilities that allow users to simulate hydrogen sulfide generation, rates of microbially-induced corrosion, sediment transport and deposition, time of concentration, biochemical oxygen demand and pollutant loading and buildup. Sources can also be traced to identify domestic, commercial and industrial contributions and their impact on receiving waters.

LEVERAGE ExISTING GIS INVESTMENTS

InfoSewer capitalizes on the intelligence and versatility of the geodatabase architecture to deliver world-class performance, scalability, reliability, functionality and flexibility all within the powerful ArcGIS environment.

RICH PRESENTATION OF RESULTS

Using powerful ArcGIS thematic mapping functionality, InfoSewer makes it easy to turn dry database information into stunningly colorful, fully dimensional visualizations. Users can generate beautiful, accurate, and smooth contours for any variable, including hydraulic grade line, elevation or water quality even overlay multiple contours on a single drawing. They can also draw on a range of other sophisticated graphical presentation tools, including color-coded mapping, dynamic annotation/labelling, graphing, profiling, customizable tabular reporting, and vivid VCR-style animation to produce truly compelling results.

ADDITIONAL INFORMATION

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Drainage and Flooding

STANDALONE STEADY AND QUASI-DYNAMIC 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. It can effectively model both dry-weather and wet-weather flows to determine the most cost-effective and reliable method of wastewater collection. Built using advanced Object-Oriented Geospatial Component technology, H2OMAP Sewer seamlessly views, manipulates, and exchanges GIS data sets with incredible ease and simplicity.

APPLICATIONS

Master planning and design

Infiltration/inflow modeling

System analysis and deficiency identification

Sensitivity and alternative analysis

Capital improvement and budgeting

CMOM program planning

Sediment modeling and impact analysis

Pollutant contribution analysis

Wet-well design

Discharge permit compliance

Flow monitoring design

Impact fees determination

EFFICIENTLY PREDICT AND REDUCE OVERFLOW EVENTS

H2OMAP Sewer provides fast and comprehensive hydraulic modeling capabilities including rainfall-runoff modeling for representative peak flow and routing of combined sanitary sewage and stormwater. Extensive scenario management functionality enables users to develop and compare remedial alternatives for eliminating CSOs and SSOs and restore or increase capacity to meet environmental regulations and improve system management.

SMARTER PLANNING USING AUTOMATED DESIGN

H2OMAP Sewer allows users to quickly and reliably design new sewer collection systems and expansions. The program automatically calculates the optimal pipe size and slope, invert elevation of conduits and manholes, soil cover depths at both ends of each pipe section, and cost of excavation and reinstatement to meet target design criteria. It then adds the new infrastructure to the model database.

POWERFUL DYNAMIC WATER QUALITY MODELING

Developing effective water quality monitoring programs will improve safety practices and prolong the life of system infrastructure. H2OMAP Sewer provides very powerful and efficient water quality computational capabilities that allow users to simulate hydrogen sulfide generation, rates of microbially-induced corrosion, sediment transport/deposition, time of concentration, biochemical oxygen demand and pollutant loading and buildup. Sources can also be traced to identify domestic, commercial and industrial contributions and their impact on receiving waters.

RICH PRESENTATION OF RESULTS

Using powerful thematic mapping functionality, H2OMAP Sewer makes it easy to turn dry database information into stunningly colorful, fully dimensional visualizations. Users can generate beautiful, accurate, and smooth contours for any variable, including hydraulic grade line, elevation or water quality even overlay multiple contours on a single drawing. They can also draw on a range of other sophisticated graphical presentation tools, including color-coded mapping, dynamic annotation/labelling, graphing, profiling, customizable tabular reporting, and vivid VCR-style animation to produce truly compelling results.

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Asset Performance ModelingAs the world population increases and urban cities become more crowded, the load on aging, already-strained and inefficient water and wastewater networks will only increase. Age-related infrastructure failures are commonly unexpected and catastrophic, resulting in large water losses, flooding, sewer overflows, and local area damage. Yet investment in infrastructure improvements continues to be significantly constrained, falling short of meeting the massive capital needs. Making cost-effective alterations and improvements to

these systems requires good investment planning decisions based on sound analysis. Innovyzes Asset Performance Modeling solutions provide the reliable tools to store, manage and analyze network data and work efficiently and effectively with engineers and contractors to implement strategies for maintaining, strengthening and upgrading the infrastructure.

Built atop ArcGIS, InfoMaster combines advanced asset performance modeling and business analytics applications to

address every facet of utility infrastructure management delivering the highest rate of return in the industry. It gives utilities critical insight into all enterprise assets, their conditions and work processes, greatly facilitating better planning and control. It also empowers them to use information and analytics in new ways to drive higher productivity and quality while managing costs and increasing operational flexibility.

InfoNet provides a single, specialist hub for collecting, analyzing, visualizing and managing any water and non-water related assets. Combining extensive connectivity to other data sources with advanced verification and analysis tools, InfoNet allows planners and engineers to make robust choices about their water and

sewer networks and enterprise assets and communicate them in compelling ways.

InfoNet Mobile makes data collection in the field effortless, using the latest tablet and handheld devices to collect highly accurate survey information and quickly transfer it into the InfoNet environment.

CapPlan provides smart prioritization of deteriorating infrastructure for users of both InfoWater and InfoSWMM solutions. CapPlan gives utilities the tools in one off-the-shelf software package to build or refine their capital improvement plans to provide maximum benefit for the lowest cost.

Asset Performance Modeling

NASSCO PACP, MACP and LACP V6.0 certified, InfoMaster is a complete ArcGIS-based asset integrity management and capital planning software for water and wastewater networks. It leverages existing GIS and IT investments and uses state-of-the-art mathematical models to predict when a water or sewer pipe will fail, helping utilities determine the most cost-effective solution for avoiding or correcting the problem. In this way, users can ensure the best distribution of dollars spent on replacement and repair of underground pipes. With versions designed for the desktop, Web, and iOS mobile devices, InfoMaster enables day-to-day operational management and long-term network planning for users throughout the organization.

bUSINESS INTELLIGENCE FOR WATER AND SEWER SYSTEMS

Maintaining water and sewer assets in fit-for-purpose condition throughout their target lifespans is a primary goal for utilities worldwide, and selecting the right pipes for rehabilitation at the right time is one of the main asset management challenges. An understanding of how pipes fail, combined with a quantitative grasp of the underlying causal factors likely to induce failure, is valuable in formulating a targeted approach to rehabilitation, repair and renewal planning. InfoMaster accurately estimates both the likelihood and consequence of failure for each individual pipe in the network, as well as the amount and time of occurrence of future failures. This critical information facilitates a proactive approach to identifying and managing these high-risk assets to help preserve structural integrity and keep the network operating well into the future. It also eliminates reactive maintenance: waiting for pipe failures to occur before repairing. With minimal effort, utilities can quickly pinpoint assets at the greatest risk of failure, identify the best possible improvement alternatives for optimal system performance, prioritize and phase improvements based on available budget, and realize significant cost savings.

ADVANCED ARCGIS-bASED ANALYTICAL ASSET MANAGEMENT AND CAPITAL PLANNING

OUT-OF-THE-bOx DATA HUb

With its intelligent out-of-the-box approach to geospatial smart wet infrastructure asset management a distinct point of differentiation from traditional enterprise resource planning (ERP) solutions InfoMaster revolutionizes business analytics and optimization (BAO) for water and wastewater utilities. While the typical enterprise software deployment requires a 12- to 18-month implementation cycle, InfoMaster can be deployed in just a day to a few weeks giving small to medium sized utilities the first-ever opportunity to optimize network management at very low cost. Where other ERP systems are focused on electronic records management, InfoMaster is built from the ground up to provide superior business analytics and modeling capabilities. This marks the first time utilities can manage and control the flow of both data and water for better, faster and more accurate decision making. InfoMaster also comes preconfigured to understand water and sewer networks. For example, it knows that sewer pipes have upstream and downstream manholes, a hydrant is connected to the distribution system with a lateral, scoring of CCTV defects, and dozens of other items functionalities specific to water networks. The database leverages the

ADDITIONAL INFORMATION

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PROACTIVE CAPITAL AND OPERATIONAL PLANNING

InfoMaster gives utilities a new perspective on their capital and operational planning. Armed with a clear view of their infrastructure condition, capital and recurring costs, likelihood of failure, consequence of failure, historical incidents and maintenance, planners and managers can revamp capital and operational plans. Utilities can shift operational budget away from reactive and into proactive management, and take infrastructure maintenance out of the break/fix approach into the fix-before-break era.

RICH RESULTS PRESENTATION AND REPORTING

InfoMaster utilizes the rich ArcGIS results and presentation environment, letting users create thematic maps with flexible symbology and rich detail. Its built-in report generator comes with dozens of standard reports and also allows users to quickly build custom reports and graphs against any piece of data stored in the system. In addition, management dashboards make it possible to effectively track level of service metrics and other key operational data, allowing at-a-glance assessments of the past, present and future

state of strategic assets. These dashboards can instantly display vital network statistics including counts of likelihood and consequence of asset failures, and a streamlined work order management system oversees service requests, field inspections, work orders, and resources.

INFOMASTER MObILE

InfoMaster Mobile enables infrastructure data to be created, used, consumed, and verified by staff in the field on a variety of devices. Using the Esri ArcGIS Server, InfoMaster Mobile leverages the geodatabase for use outside the office. It can run on both Web browsers and iOS (iPad, and iPhone) devices.

Update task/work order status online

Complete task dependent records

Create and upload add-on notes, pictures, video and documents

PIPE FAILURE/DETERIORATION MODELING

InfoMaster features the Linear Extended Yule Process (LEYP), the Cox proportional hazards model, and the advanced time-based probabilistic Weibull and Herz models for modeling the aging processes of water and wastewater network pipes and accurately estimating their lifetimes and structural/functional failure potential and distribution over time. These powerful asset integrity modeling techniques let users accurately estimate the likelihood of pipe breaks in the future and determine the parameters that most affect that likelihood. These may include pipe diameter, length, material, year of installation, location, operating pressure, rainfall, land use, soil properties, temperature, traffic loads, seismic zone, ground water level, proximity of other underground installations, and history of failure. Armed with reliable pipe failure predictions, water and wastewater utilities can better assess their pipes propensity to fail, identifying critical ones, prioritizing their inspection, and determining rehabilitation requirements. InfoMaster also features complete manhole rehabilitation assessment and planning tools and a detailed valve criticality analysis for improved infrastructure maintenance and customer service levels.

existing Esri water and wastewater data models to include the ability to store information about incidents and tasks related to the network, enabling users to derive actionable information or key performance indicators.

Asset Performance Modeling

InfoNet is a purpose-built Infrastructure Management System (IMS) for water distribution, wastewater collection and stormwater networks and enterprise assets ensuring informed, swift and cost-effective decision making for both day-to-day operational management and long-term planning. Designed for operations managers, engineers and planners in the water industry, InfoNet enables users to manage, integrate, validate, analyze, and report on their network data to provide accurate, auditable, up-to-date information and present network infrastructure and performance data in easy to use formats.

STRATEGIC NETWORk PLANNING

InfoNet enables planners and engineers to plan, construct, rehabilitate and maintain their water and sewer networks with a risk-based approach that leads both to greater efficiency and compliance with legal requirements to identify and safeguard critical assets. InfoNet makes substantial enhancements to the hydraulic model build process through its seamless integration with the InfoWorks modeling suite. Automatic verification, inference and data tracking allow the quick creation of hydraulic models and maintain the full range of network information to enhance engineering decisions. Planners can apply InfoNets analytical toolset to a consolidated and complete network data store to make logical, prioritized and cost effective decisions about its future.

APPLICATIONS

Network rehabilitation planning

Operational maintenance planning

Data quality management

Survey planning

Survey data analysis

CCTV Data management

Hydraulic model build

INFRASTRUCTURE MANAGEMENT FOR WATER/SEWER NETWORkS AND ENTERPRISE ASSETS

OPERATIONAL PLANNING AND MANAGEMENT

InfoNet provides operators, consultants and contractors a central hub from which routine and reactive maintenance of a network can be managed. The specialized database allows the storage of not only all asset data, such as pipes, pumps and valves, but survey information, network incident and repair information. Schedules and work orders can be effortlessly created and data passed simply between cooperating parties using InfoNet Snapshot files. InfoNet can also store a list of all available parts and materials and easily track what has been utilized for each assigned work task, allowing detailed analysis of maintenance processes.

DATA STORAGE, MANAGEMENT AND ANALYSIS

InfoNet enables the integration of a wealth of different applications and data sets already in use, including generic GIS, corporate databases, CMMS, field data systems, SCADA, hydraulic modeling and analysis software or other corporate applications, to ensure that managers have a clear single picture of their network infrastructure. With a robust query engine, users can filter, sort, and make complex selections based on virtually any criteria related to their underground assets. InfoNet also includes the unique ability to query against field surveys (CCTV, manhole inspections, smoke testing and valve inspections) and other events related to network assets.

RICH RESULTS PRESENTATION AND REPORTING

The InfoNet geospatial environment lets the user create thematic maps with flexible symbology and rich detail. Its built-in report generator comes with dozens of standard reports and allows users to quickly build custom reports and graphs against any data stored in the system. In addition, management dashboards make it possible to track level of service metrics and other key operational data, allowing an at-a-glance assessment of the past, present and future state of assets.

ADDITIONAL INFORMATION

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NEWS & CASE STUDIES

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INFONET SUITE

The InfoNet Suite extension expands the asset management possibilities for public works, utilities and municipalities of all sizes and their consultants and contractors. It enables users to create records for any water- or non-water related assets in their networks and then effectively manage, integrate, validate, analyze, and report on those assets. These assets can include roads, signs, benches, schools, buildings, parks and recreation areas, trees, treatment plants, tanks, and pumps as well as water, wastewater and stormwater networks.

Users can now gain in depth view and control of all critical assets that affect regulatory compliance, risk and business performance. The powerful modeling capabilities of the Suite also help users prolong the useful life of their physical assets and improve their performance and operational efficiency at maximum savings. Its overarching goal is all about getting more