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Issue link: http://wateronline.epubxp.com/i/773139
By Lauren Guy C urrently, two main methods are used to manage non-revenue water around the world: smart water management systems and acoustic leak detection. Most water managers use these methods because they are the best solutions available — tried-and-tested, results- driven technologies. However, these approaches to monitoring non-revenue water are also notoriously time-consuming and expensive, as they require prohibitively high investments in infrastructure and equipment relative to the number of leaks that are identified. A quick assessment of non-revenue water management in a majority of cities around the world indicates that most simply react to anomalies in their water management systems, such as measuring drops in pressure within a district metered area (DMA), analyzing a smart water management system, or responding to a distressed call from a citizen reporting that a burst pipe has turned into a fountain of water on the street. Vast quantities of non-revenue water are wasted each year; this has prompted some technology providers to suggest that water leakage in urban environments is now akin to an epidemic. Answers From Above Now, a new tool for detecting non-revenue water leaks is available — a solution that utilizes spectral images from satellites, adapted from techniques used to search for water on other planets. Developed by Utilis, a water management company based in Israel, this noninvasive technique can identify more water leaks in the same amount of time as current non-revenue water solutions available to water managers. Remote sensors collect data by detecting the energy that is reflected from Earth. Remote sensors can be either passive or active. Passive sensors respond to external stimuli. They record natural energy that is reflected or emitted from the Earth's surface. The most common source of radiation detected by passive sensors is reflected sunlight. In contrast, active sensors, which are the primary devices used by Utilis, are also known as radars. These devices use internal stimuli to collect data about the Earth. For example, a laser-beam remote sensing system projects a laser onto the surface of Earth and measures the time that it takes for the laser to reflect to its sensor. Over the course of several years, numerous tests were conducted to identify the unique signature that treated water reflects to the radar. Using a unique wavelength in the radar spectrum, it was discovered that treated water reflected differently than other sources of water, such as sewage, rain, or drainage. The base assumption is that if treated water is present underground, it can only be coming from a nearby pipe. Of course, when dealing with data acquired from 400 miles above Earth, there is potential for problems to arise. Radar is susceptible to noises caused by vegetation, high buildings, metal objects, and the atmosphere. Those issues need to be tackled by a team of signal processing experts before the best possible results may be produced. The process itself is quite intuitive: 1. A radar sensor acquires images. 2. An algorithm is used to prepare raw data for analysis; this process includes the removal of noises caused by different objects as previously described. 3. A sieve with the known spectral signature of treated water is used to extrapolate only the treated water leaks. 4. Normalized data is presented graphically with findings displayed on a GIS web-based application. Field teams on the ground receive "leak sheets" generated by the system to confirm and repair the leaks. Using these methods, it's possible to scan an entire system every few weeks in a matter of seconds, rather than going to the same location every few years with the conventional solutions. This is the true power of remote sensing. 24 wateronline.com n Water Innovations 'Far Out' Technology Simplifies Pipeline Leak Detection Satellites provide the latest, perhaps most efficient, method for spotting underground leaks, ushering in a new era of non-revenue water management.