THE MAGAZINE FOR THE DRAINAGE, WATER & WASTEWATER INDUSTRIES
TECHNICAL FEATURES
progress. As part of this Taskforce, they have had to commit to increasing the number of overflows they will improve on in the next five years. An additional 800 overflows will be investigated and almost 800 improved between 2020 and 2025.
And it’s not just statutory bodies that are holding WASCs to account. Surfers Against Sewage are just one of a number of environmental organisations that are gaining increasing public support for their demands for stricter targets and increased transparency in relation to rivers and bathing water. Sympathy for this cause only increases when we read headlines like those back in July outlining that a UK water company had received a record fine of £90 million from the Environment Agency after pleading guilty to 6,971 unpermitted sewage discharges.
The shortcomings of the UK water industry are still many and varied but there is at least one clear and proven way to prevent pollutions for good and improve performance at the same time and that is by increasing sewer network monitoring.
UNDERSTANDING THE VERY DNA OF YOUR SEWER NETWORK
Helping water companies to prevent spills and pollutions, wherever they may occur, has been our day job since 1985. Almost all of the regulatory measures demanded can be satisfied by implementing smart network monitoring and ensuring it covers the entire network. Why? Because only then can you understand the entire DNA of your sewer network and manage it rather that it managing you. You can remain ahead, you can second guess, you will intuitively know what is happening, where and why.
Take external flooding in trunk sewers. This is a very common issue. The sewer network has to stand up to so many challenges from natural weather events to manmade problems. It’s inevitable that at certain times it will simply no longer be able to cope and flooding will occur. Being able to actually predict a problem well in advance of it occurring is the result of increased network monitoring. Consistent, robust and highly accurate data facilitated by a combination of AI, machine-learning (ML) and predictive analysis is the key to establishing a truly smart sewer network.
WHO’S LEADING IN SMART SEWER NETWORKS?
Take United Utilities. The company has embraced artificial intelligence (AI) and widely implemented it to proactively monitor and maintain its 78,000km wastewater network to great effect. UU are investing billions to upgrade services and the use of real-time data, AI and machine learning to process data and give advance warning of blockages or level increases.
Currently installing 19,000 sensors1 in manholes across its
network in the northwest of England, UU wants to get ahead of any issue and tackle it before it causes problems for either the environment or a customer is imperative. The ultimate aim is the creation of a real time performance and condition monitoring platform that will enable efficient wastewater asset management across its wastewater catchments for decades to come.
By interfacing with existing datasets from their current systems such as SCADA /Telemetry, network data sets (sensors & monitors), predictive analytics, forecasting (demand/load/ weather), UU are harnessing the many benefits offered by AI and ML technologies to benefit the operating and maintenance of assets.
The solution will enable them to:
■ Observe and understand in ‘real-time’ the network’s performance
■ React to new issues before they become a problem ■ Increase resilience ■ Enable an automated control system
■ Optimise network performance via increased visibility of accurate and quality data
By enabling this, they will be able to:
■ Be more efficient with spending ■ Reduce carbon footprint ■ Progress effectively to intelligent optimisation
With 19,000 data points, UU will be in the enviable position of understanding the very DNA of its wastewater network. It will know how rainfall events affect the asset. It will measure water levels to millimetric accuracy. It will know how exactly how each drainage area impacts on another. As such it will be able to predict performance and identify any problems before they even occur. Now that’s smart.
Alongside UU, Southern Water have plans to deploy 30,000 sensors2 across their network and Severn Trent are currently in the process of installing 10,000 alarm monitors3. Back in February, Thames Water announced they were trialling 300 sewer level monitors4 in a bid to prevent pollutions created by cooking fat and wet wipes (the company has had to tackle several ‘fat bergs’ over the last few years). And, with a focus on solving the problems caused by CSOs, Anglian Water have installed 700 Event Duration Monitors5 on CSOs in their catchment and plan to have a monitor on all of their CSOs by 2023.
So, it would appear that WASCs are taking a proactive approach to increasing their sewer network monitoring and we look forward to continuing to play a key role in this essential area of wastewater management.
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