fbpx

Where Did the Water Go?

By Jared Alder, MS 

In England, it is estimated that around 700 million gallons of waterthe equivalent of 1,200 Olympicssize swimming poolsis lost every day to leaks in the country’s vast water system. Often the water just rises out to the pavement and runs down the roadUtilities spend countless hours and a great deal of money and other resources trying to locate the sources of leaks, often tearing up roads multiple times in this search. 

During large rainstorms, leaks can occur from the added amount of water that seeps into the system via the same openings where water exits from the system during dry times. During the recent Tropical Storm Cristobal in the Gulf Coast area of the United States, utilities reported sewage spills that occurred during and after the stormThe spills are a result of a complex underground sewer system that is not capable of handling modern weather events. Large rainfall events, such as tropical storms and hurricanes, can overwhelm aging infrastructureincluding old wastewater pipes, pump stations, and, in some cases, treatment facilities. 

In May of 2017, the City of Philadelphia was replacing a section of water pipe along Spruce Street when a backhoe dug up a section of hollowedout log that had been in service since the James Madison Administration. This section of wooden pipe was part of the original 45 miles or so of sewer system that was designed by Benjamin Latrobe, who was the architect of the U.S. Capitol Building. 

Back across the pond in England, utility firms are increasingly turning to technology to help combat pipe leakage. They are installing thousands of sensors across their networks of pipes and junctions in an effort to detect leaks. While sensors have been used in the past, there is a renewed emphasis on connecting all the sensors to the grid to make a “smart” sensor system. The sensors used include accelerometersthe same technology that detects movement in smart phoneswhich can detect vibrations in the pipe that are often associated with leaks. Another technology is acoustic sensors, which can “listen” for certain sounds that are typical of leaky pipes. 

Also being used to help make water pipes smart is narrowband internet of things (NB-IoT). This narrowband technology is a communications system that can transmit signals from thousands of sensors while utilizing just a fraction of the normal data that are typically associated with transmitting lots of information. This narrow band allows sensors located in pipes to send more frequent data updates to a central system without draining batteries, which means longer lifespans for the sensors. Power conservation is achieved because the sensors are programmed to activate at a certain time of the day and then to “listen” to the system and transmit the data. Should a leak be heard, the system can calculate roughly where it might be along a length of pipe, based on the speed at which sound travels through the pipe. The data are collected and compared over multiple sensors to see if there are similar detections. When multiple sensors detect the sounds, it helps to pinpoint the source of the leak. All of these sensors act as the virtual eyes and ears of the distribution system.  

Utility managers often say that finding the source of leaks is the holy grail of pipe maintenance. While there is no perfect system, combining multiple technologies to detect leaks is certainly heading in the right direction. Technology can help utilities identify leaks, prepare for storm events, and, ultimately, protect and save water from being wasted. 

Share this to social media!

Translate »
>