Aqualitix is a specialist water-intelligence consultancy. We help utilities, municipalities, and authorities see their networks clearly, anticipate what's coming, and act earlier — uniting calibrated hydraulic models, digital twins, and predictive analytics across drinking water, wastewater, and stormwater.
Two decades of water engineering, reengineered for the digital age.
Aqualitix pairs more than 20 years of professional engineering and consulting experience with a new generation of digital tools — so the judgment earned over decades in the field now drives the models, twins, and forecasts your decisions depend on.
We've spent careers designing, modeling, and operating water, wastewater, and stormwater systems. That hard-won understanding is what separates a model that merely looks right from one that behaves like the real network.
As a professional-engineer-led practice, every analysis carries accountable engineering judgment. And because we're independent and vendor-neutral, our only goal is the outcome that's right for your system — not a product to sell.
See How We WorkSix connected capabilities — modeling, monitoring, and prediction — that turn scattered operational data into decisions you can defend.
Build and calibrate accurate water, wastewater, and stormwater network models that mirror real system behavior.
Connect live data to your model so the network gains a continuously updated virtual counterpart for real-time insight.
Turn operational data into forward-looking insight — anticipating demand, failures, and performance before they happen.
Model and predict flood behavior across catchments and networks to give operators lead time when it matters most.
Fuse radar and rain-gauge data into high-resolution rainfall fields that drive accurate, timely flood warnings.
Locate and quantify physical and commercial water losses — then build a roadmap to recover them.
What each capability does in practice — and the value it creates for the utilities and counties we serve. Select any capability to expand its applications and benefits.
Calibrated hydraulic models are the digital foundation beneath every confident water decision. We build steady-state and extended-period models of distribution, collection, and stormwater systems, then calibrate them against field pressures, flows, and tank levels until the model behaves like the real network.
A digital twin links your calibrated model to live SCADA and sensor feeds, giving the network a continuously updated virtual counterpart. Operators see estimated pressures and flows everywhere — not only where meters exist — and can rehearse changes before touching a valve.
Predictive analytics converts the data you already collect into foresight. We pair statistical and machine-learning methods with hydraulic context to forecast demand, surface anomalies early, and score asset risk — so teams act before failures rather than after.
We model how rainfall becomes runoff and how runoff moves through catchments, channels, and collection systems — coupling hydrology with 1D/2D hydraulics — and drive those models with live and forecast rainfall to buy operators lead time.
Rain gauges are accurate but sparse; radar is spatially dense but biased. Gauge-Adjusted Radar Rainfall fuses both into a high-resolution rainfall field that captures where it actually rained — the single biggest driver of flood- and overflow-model accuracy.
Non-Revenue Water is the gap between the water a utility produces and the water it actually bills. Following the AWWA / IWA water balance, we separate apparent (commercial) losses from real (physical) losses, value what each is worth, and build a costed roadmap to recover it. Here is how that balance breaks down — and how each component is attacked.
Cheap to fix and valued at the full retail tariff — usually the fastest payback.
Valued at the cost to produce & deliver water — and the supply you avoid building.
Pump and lift stations are the hardest-working, most failure-prone, and most energy-hungry assets in a water system — a failed station can mean a sewer overflow or a boil-water notice. We use condition data and analytics to catch problems weeks before they become emergencies.
Water and wastewater utilities answer to a dense web of federal and state regulators. We provide the engineering analysis and documentation that supports permits, consent decrees, and reporting — turning an obligation into a defensible plan.
We model wet-weather capacity and system performance to provide the engineering basis for permit applications, capacity certifications, and reporting.
We quantify overflow frequency and volume, evaluate gray- and green-infrastructure alternatives, and build defensible Long-Term Control Plans with progress reporting.
We deliver capacity-assurance analysis, risk-based condition programs, and operations-ready models that keep the system in a state of good repair.
We support service-line inventory data and model water age and disinfectant residual to help protect distribution water quality.
Our resilience stress-tests and criticality analysis feed your Risk & Resilience Assessment and Emergency Response Plan.
We model runoff, evaluate best-management practices and green infrastructure, and quantify the load reductions your permit requires.
Buried pipes are long-lived and expensive to replace at the wrong moment. We turn condition, performance, and consequence data into a defensible, prioritized capital plan — the right work, in the right place, at the right time.
Replace an asset too early and you waste years of useful life; too late and you invite failures, emergency costs, and service disruption. We score where each asset sits on that curve and build a multi-year program around it.
A single, comparable score that ranks every asset so the highest-value work rises to the top of the program.
Assets rarely fail in isolation. We simulate the disruptions that actually happen, measure how well the network absorbs the shock and keeps serving customers, and pinpoint where redundancy or hardening buys the most resilience per dollar.
Pressurized and gravity networks obey different physics — and we model each with the method and standard it demands.
Distribution networks live or die on pressure. We allocate demand, model pumping and head loss across the system, then stress-test it against the moments that matter — peak hour, fire flow, and outages.
Collection systems are about capacity, not pressure. We model flow depth, slope, and surcharge with Manning’s equation — then stress-test the network against the wet-weather inflow and infiltration that drive overflows.
Pump-station reliability has moved from fixed schedules to condition-driven, analytics-led intervention. We apply the standards-based, state-of-the-art practice the most advanced utilities now rely on.
Leading utilities have moved from once-a-year reporting to continuous, model-based, evidence-driven compliance. We help you operate that way — defensible today, and ready for the rules coming next.
A connected workflow that takes you from scattered data to confident action.
Unite SCADA, sensors, GIS, radar, and billing data into one trusted picture of the network.
Build a hydraulic digital twin and calibrate it against real-world observations until it reflects reality.
Predict floods, demand, and failures — and pinpoint exactly where water is being lost.
Translate insight into alerts, operating decisions, and evidence-based capital plans.
How we turn raw data into decisions teams can act on.
A water balance splits system input into what's billed and what's lost — the first step to recovering it.
Forecasting when flow will cross the flood threshold turns reaction into preparation.
A model calibrated once drifts from reality within months. Connecting it to live data keeps it honest — so every decision reflects the network as it is today, not as it was at handover.
Before funding new supply, most systems can recover a meaningful share of what they already produce. A rigorous water balance shows exactly where the losses are — and what each fix is worth.
Neither rainfall source is enough alone. Fusing them — gauge-adjusted radar rainfall — gives the spatial reach of radar with the accuracy of gauges: the difference between a guess and a usable forecast.
The proven models and standards behind every Aqualitix engagement.
Live data feeds a calibrated model; analytics turn it into foresight; and decisions flow back to the network — a continuous loop, not a one-off study.
Every NRW program starts by accounting for every drop. We follow the AWWA / IWA water balance to separate what's billed from what's lost — and what each loss is worth recovering.
We score every asset by likelihood and consequence of failure, then focus inspection and renewal where a failure would hurt most.
Condition monitoring detects degradation early (P). The interval before functional failure (F) is the window to act — planned, not reactive.
Most utilities sit at the descriptive rung. Aqualitix moves you up the curve — toward decisions made before problems occur.
Reporting & dashboards
Root-cause analysis
Forecasting & risk
Optimization & action
Measurable results for the people who run water systems.
Cut non-revenue water and defer costly new supply by finding the losses you can't see today.
Convert rainfall and network data into lead time, early warnings, and calmer response.
Prioritize maintenance and renewal with risk-based, data-driven insight instead of guesswork.
Justify and sequence capital spending with calibrated models, not assumptions.
Every engagement leaves behind living systems and clear roadmaps — not a report that sits on a shelf.
Partners across the water and infrastructure landscape.
Calibrated models, NRW recovery, and live digital twins that help utilities serve more customers from the assets they already have.
Defensible capital planning and flood resilience for towns and cities balancing growth, aging pipes, and tight budgets.
Catchment modeling, GARR rainfall, and early-warning systems that turn storms into managed, forecastable events.
Specialist hydraulic modeling and analytics that slot into your project teams as an on-demand water-intelligence partner.
Private water, fire, and process networks modeled and monitored to protect operations and control consumption.
Independent, evidence-based analysis to evaluate performance, loss, and resilience across the systems you oversee.
Aqualitix is independent and vendor-neutral. We are fluent across the industry's leading platforms and pick the right tool for your data, your team, and your goals — never the other way around.
Pressurized-network modeling for pressure and fire flow, water quality and age, pump energy, and surge / transient (water-hammer) protection.
Integrated 1D and 2D catchment modeling for collection systems, urban drainage, rivers, and floodplains — from planning through regulatory submission.
Unifying GIS, model, and maintenance records into one register for risk-based decisions on long, linear pipe networks.
GIS-centric modeling, asset business intelligence, and live digital-twin workflows that keep the model and the map in step.
Forecasting, anomaly detection, and custom analytics that reach beyond any single off-the-shelf application.
The frameworks behind the tools — so results stay auditable, benchmarked, and defensible year over year.
The questions water teams ask first.
Tell us about your network, your data, and what you're trying to solve — and we'll outline a path from where you are to actionable foresight.