(L to R) SWW WwTP, and Andrew Gibson, Business Development Director of ICS
The complexities of delivering a final drainage and wastewater management plan for the UK Government in 2023 have been made easier for South West Water by using advanced asset investment management software, enhancing long-term planning capabilities.
By Andrew Gibson, Business Development Director, ICS Consulting
In a first for the English water sector, utilities are being asked to produce drainage & wastewater management plans (DWMPs) by the UK Government Department for Environment, Farming & Rural Affairs, which includes the Environment Agency.
Final DWMPs are due in spring 2023 with the purpose of developing long-term plans to assess future strains on drainage and wastewater networks from the effects of a changing climate, population growth, and increased urbanisation.
The plans are expected to be public-facing and comparable between companies. They are also, in part, a response to stricter performance targets, changing government legislation, and increased public scrutiny of Combined Sewer Overflows (CSOs) releasing sewage and stormwater into rivers and seas during heavy rainfall.
With a planning horizon of 25 years, DWMPs enable greater understanding of sewer and wastewater network resilience and must demonstrate best value for investment. To facilitate the 25-year horizon, adaptive planning needs to be incorporated allowing processes to be iterative, flexible, and continually evolve as new data, parameters, and feedback come to light.
To achieve a best value and adaptive DWMP, South West Water (SWW) has used robust planning tools which have enabled it to reach the strict submission deadlines. Working in collaboration with specialist asset management consultancy ICS, SWW has deployed the advanced asset management optimiser tool Asset Investment Manager (AIM) from Probit to guide investment decision-making.
Using AIM, SWW has developed a planning framework that produces risk maps of critical assets such as pipes, pumping stations, and treatment works; investigations into the functionality of the drainage and wastewater network; prioritised locations for investment; and preferred intervention strategies.
Interventions vary from grey infrastructure solutions, such as extra storage tanks, culverts, and expanding existing wastewater networks and treatment works, to nature-based Sustainable Drainage Solutions (SuDS), including rain gardens, retention ponds, and wetlands.
Ben Ward, Head of Performance and Innovation at SWW said, “The challenge for South West Water for its DWMP is to evaluate the benefits of different investment options when improving its drainage and wastewater systems – considering the economic, societal and environment benefits within the long-term delivery strategy business planning processes.”
SWW has developed its draft DWMP over the course of five years, since 2018, when the official DWMP framework was published. Working with the 21st Century Drainage Programme, a cohort of over 40 organisations including government regulators, cross-sector companies, academics, local authorities, and environmental charities, SWW’s DWMP aims to answer the questions:
• What is the capacity of the drainage network? How much more is needed to ensure resilience with a changing climate?
• How can new investments be assessed to decide which will provide the biggest benefit?
• How can customers be helped to understand what can and cannot go down toilets and sinks into the sewer network?
• How can decisions on drainage investments and interventions be better explained to stakeholders?
• How can drainage be made simpler and more consistent for all stakeholders involved?
SWW has 653 catchments defined by the geographical area served by each wastewater treatment works. To enable a whole network planning process, those catchments have been grouped into 22 larger catchment areas. ICS worked collaboratively with wastewater asset managers and strategic policy personnel from SWW, using AIM software, to create a planning framework across all 22 catchments.
The team collected data for the risks and potential interventions available and used it to generate a series of interventions, alongside associated costs. These scenarios revealed the effect of taking a ‘do nothing’ baseline position and the diminishing risks associated with different investment decisions.
Using the AIM platform, SWW can model the complete lifecycle of drainage and wastewater assets, anticipating changes, and how they will impact on services. This results in better decision-making for more resilient assets and reduced service disruptions.
AIM can also analyse risk at a granular level, by region and down to an individual asset, allowing SWW to examine factors such as planning constraints and associated risks of not commencing work at specific time horizons.
Tim Watson, Technical Director at Probit said, “AIM’s greatest strength lies in its ability to respond to the unknown and develop accordingly. It has a high level of adaptability and flexibility when clients are facing new requirements, such as the evolving DWMP process.
“It can be used to answer bespoke and complicated questions for SWW regarding intervention variables and comparisons, and is optimised to do this rapidly.”
Luke Ferriday, Senior Consultant at ICS said, “AIM is used methodically by firstly identifying the risks within a catchment, then asking what the cost implication would be from a range of interventions. The way that influences the risk level is then revealed.
“Planning scenarios can be mapped iteratively to fully understand the outcomes of multiple potential decisions in hours, not days.”
SWW’s draft DWMP was released in September 2022 and the utility now understands the planning scenarios, interventions, and implications for its 22 catchments. This means the planning team can now investigate and revisit the scenarios and constraints within each catchment as new data and feedback come to light for its final DWMP. Constraints include budget, CSO and flood-risk targets, high priority sites at risk of flooding, intervention types, and implementation timescales.
Scenarios are easily analysed through AIM’s centralised dashboard with configuration tools enabling SWW to report back to internal stakeholders effectively. Bespoke reports can also be generated in AIM which can be used to engage with external stakeholders and customers. The collaboration with SWW, ICS, and Probit has allowed SWW to have confidence that its draft and final DWMP are robust and represent best value.
If government legislation, business or performance targets change in the future, SWW has a tool that can readily assess impact on asset health, performance, and cost. The challenge facing SWW, now that planning scenarios are fully understood, is selection of an optimal pathway of potential investment for the final DWMP, which provides customers, communities, and the environment with the greatest benefits for a resilient future.
Reflecting on the DWMP process, Ferriday said, “Working with the team at South West Water to develop its DWMP has been a fantastic opportunity to really test the possibilities of AIM and demonstrate how it can deliver multifaceted analysis of the most challenging problems facing water companies in England. Now the planning team can use AIM independently and work towards understanding more complex parameters.”
Beyond using AIM for the initial planning stage of the draft and final DWMP, which ICS have also used in collaboration with water companies Severn Trent and Northumbrian Water, ICS is looking to use AIM to answer even more complex questions as new data becomes available. For example, establishing calculations and analysing what the carbon, environmental, and social benefits are of certain nature-based interventions.
Currently, this is a new field of inquiry for the English water sector, and long-term research and analysis of these variables is only beginning. Nature-based interventions have the potential to deliver a step-change in drainage and wastewater management but, due to weak understanding and a lack of evidence, they often show as the more expensive intervention compared to traditional grey infrastructure solutions.
Nevertheless, as is seen with the use of AIM, asset management is becoming more robust and advanced than ever before. The hope is that nature-based interventions can be better understood and further integrated into planning processes now and in the future.
AIM software is a risk-based decision support platform that optimises asset investment under multiple performance, risk and budgetary constraints. It applies industry-specific algorithms to data to extract valuable insights into assets and forecast outcomes. Businesses can then create strategic and operational plans that deliver maximum value from assets, while considering budget restraints and regulatory requirements.