How Opti Leverages the IoT to Improve Stormwater Management

By deploying networked water-level meters, the company can help municipalities or private contractors to right-size their storage infrastructure and speed response times to possible overflow events.
By Mary Catherine O'Connor
Aug 17, 2016

Stormwater is currently ravaging Louisiana, where flooding has killed at least eight residents and left 20,000 people in need of rescue. While the type of huge downpour that caused this flooding is becoming more common, even far less extreme weather events take a toll on cities and towns all over the country, by exceeding the capacity of stormwater storage systems and thereby contributing to the degradation of the public infrastructure. That is especially true in the more than 750 U.S. cities with combined stormwater and sewage systems, where storms can force untreated sewage into public waterways, which can result in eutrophication and odor and inflict major environmental and economic costs, such as the lowering of property values near sites where overflows occur frequently. When the capacity of a city or town’s stormwater infrastructure is surpassed, this can also harm roadways and cause localized flooding in homes or commercial buildings.

Opti, a Boston-based technology provider that spun out from environmental management firm Geosyntec Consultants in 2014, uses IoT technology to help water managers—municipalities, utilities, contractors hired by municipalities, or large organizations such as corporations or universities—to better manage their stormwater storage systems and reduce infrastructure spending related to stormwater.

Opti remotely manages stormwater control systems deployed at 130 customer locations around the country. It mounts a either a pressure transducer or an ultrasonic level sensor on each stormwater storage tank or retaining pond, and the device uses the Modbus protocol to communicate, via a serial cabled connection, to a controller box that is linked to an actuator that controls the tank’s release valve. Opti mounts a cellular communications module to the controller, as well.

The Opti control box installed at a retention pond
The company uses this hardware to power its OptiNimbus product offering, designed specifically for improving stormwater management (it also sells predictive maintenance and environmental-monitoring services). OptiNimbus uses proprietary algorithms to analyze the water-level data along with weather forecasts in order to optimize the rate and timing of stormwater to be released from storage tanks. The OptiNimbus software then communicates with the controller at the storage tank, via Particle’s cloud-based interface, to manage stormwater storage levels remotely, by releasing overflow in a controlled manner to reduce flooding and limit downstream impacts.

Doing so helps water managers lower the cost and risk of managing stormwater, according to Alex Bedig, Opti’s VP of Information and Technology, who says Opti can also "model regulatory benefits" by evaluating their customer’s investment in stormwater infrastructure against risks and costs related to potential Clean Water Act violations in the event of overflows.

Opti also helps customers who are planning for new construction—say, a housing subdivision—to create models for stormwater flow and capacities in order to ensure that they create an adequately sized storage pond. In some cases, he says, Opti saves customers money by finding that they don’t need to build a pond that is as large as first estimated.

Opti’s principals first developed the IoT technology in 2009, when they worked for Geosyntec Consultants, and at that time they contracted Massachusetts-based IoT connectivity provider ioBridge to provide the cellular modems that linked sensor modules to their cloud-based platform. But a management change at ioBridge led to Opti needing to quickly find a new connectivity provider. In January, it started working with Particle (formerly, a provider of cellular and Wi-Fi based communications modules and connectivity services, to transition its connectivity layer.

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