Drogheda Wastewater Treatment Plant
Wastewater Project
The Drogheda Wastewater Treatment Plant (WWTP) was designed for a capacity of 101,600 PE (Population Equivalent) to serve the greater Drogheda area and parts of East Meath.
An extensive programme of works at the Drogheda Wastewater Treatment Plant and the local wastewater network is underway. A significant amount of work has already been completed including major works to the odour control units, the three primary settlement tanks and two aeration tanks at the treatment plant.
We are continuing to assess additional capital maintenance works over and above the current project works and, if deemed appropriate, will seek the allocation of appropriate investment and resources for this work.
Current programme of works underway
Uisce Éireann is progressing works at the Drogheda Wastewater Treatment plant, which primarily relates to the covering of the primary settlement tanks.
The covering of the first primary settlement tanks has been completed. The next stage of works involves bringing this tank into service whilst conducting a drain-down of the next tank to continue our works. This process will be carried out over a three-week period commencing Monday 04 November 2024. Provisions are being put in place to mitigate odour generation over this period but we feel it is important to highlight these works due to an increased odour risk.
The works, which represent an investment of €10m by Uisce Éireann in Drogheda, are expected to be completed by December 2025. These upgrades are being carried out by EPS (Electrical and Pump Services) on behalf of Uisce Éireann and will be conducted entirely within the confines of the wastewater treatment plant, minimizing traffic disruption in the locality during construction.
Former Anaerobic Digester No. 1
This photo illustrates that Anaerobic Digester No. 1 has been demolished on-site (24 June 2022). The second digester has also been fully cleaned out and is ready for future demolishing works.
The new Anaerobic Digester
Replacement work for the new Anaerobic Digester is advancing well on-site. (19 August 2022). Digester No. 1 is now installed and watertight. The next phase of works includes mechanical and electrical installations and pressure testing.
Covering of Primary Settlement Tanks and On-going Technical Assessments (further investment needs and plans)
We are actively working on a capital project (with investment allocated) to cover the Primary Settlement Tanks and to provide new odour control units to treat extracted odours from this location. The timeframe for installation of the primary settlement tank covers and associated ancillary works will be subject to on-going review as the project progresses but is currently estimated to be within the following time period: the end of Q2 2026 to the end of Q4 2027*.
*Note -end of Q2 2026 being best case estimation, and end of Q4 2027 being estimation of timeframe for completion of works having regard to possible statutory or contractual complexities that may arise during project delivery.
We will continue to actively review operational data from Drogheda Wastewater Treatment Plant and other similar sites in Ireland (and internationally) in order to seek to define and evaluate, appropriate, proportionate and sustainable additional mitigation measures for the site, which might be considered by Uisce Éireann. This review will include a cost/benefit analysis on the various options in-line with funding governance requirements.
We have also completed a review of the full sludge line requirements for the site in order to identify any further improvement works that may be deemed necessary, so that if deemed appropriate a capital replacement project for the site can be fully and comprehensively scoped and funded.
We will continue to provide on-going progress updates via our website on works underway and those which might be planned for the future.
Works on the Network
Given the extent and distance of the sewer network in Drogheda, wastewater can potentially be held in the sewer for a long period of time before arriving at the WWTP for treatment (particularly during the summer season). To reduce potential odours from the sewer network the following measures are being implemented:
In 2021, Uisce Éireann first applied temporary/ seasonal odour neutralising treatment at the East Meath pumping station that conveys wastewater to the plant, this was again applied during the summer season of 2022 at East Meath Pumping station. In addition, odour neutralising treatment was implemented at a further (main) pumping station at the WWTP itself during 2022. Seasonal odour neutralising treatment will continue to be applied at the above pumping stations over the 2023 summer season.
Network jetting is being undertaken on an ongoing basis in Drogheda to clear general blockages in the network that could give rise to odours and Uisce Éireann also intend on installing sealed manhole covers at a number of specific locations in the network, to seek to prevent the release of any odours that might arise.
For more information on the importance of not flushing inappropriate items down the toilet please see our Think Before You Flush page.
Independent Odour assessments
In Q2 of 2021 Uisce Éireann commissioned an independent odour report for the Drogheda WWTP, the results of which are available below.
This odour modelling report is detailed and technical, but it identifies that the most significant potential odour source at the WWTP are the Primary settlement tanks, with a number of other less significant sources. These odour sources contribute to 61% of the overall odour load to atmosphere from the existing facility.
From a follow up modelling exercise the odour plume spread associated with night-time meteorological conditions is also predicted to result in greater plume extent and impact area in the vicinity of the WWTP in comparison with daytime meteorological conditions.
Uisce Éireann now has investment in place and a capital project underway to address the covering of the primary settlement tanks. This is detailed further below.
Odour models will now be considered as part of an overall assessment which will seek to determine the most appropriate course of action. A project team has been appointed to complete this review.
A link to the primary modelling report can be found by visiting the following links. Due to its size the report is divided into 3 parts:
Odour reports
Odours can arise for a variety of reasons- environmental factors such as rainfall can impact the dilution effect in a combined sewer network, estuary, low tides or ectocarpus (a type of algae) and seasonal warm temperatures can naturally give rise to odour issues; local conditions such as non-domestic and industry sources and increased agricultural activity can also lead to odours; and actions such as illegal dumping of waste into the sewer network and flushing inappropriate items down the toilet can cause blockages in domestic and public pipes (resulting in odours).
Uisce Éireann is committed to investigating any odour complaints in relation to the Drogheda Wastewater Treatment Plant (WWTP) as and when reported.
Reporting an odour
Customers should continue to report any issues directly to Uisce Éireann’s call centre which operates 24/7 on 1800 278 278 or by email to operations@water.ie.
Customers can view our Complaint Handling Code of Practice (COP) for more information.
Description of Wastewater Treatment Plant processes at Drogheda:
Stage 1
Preliminary Treatment:
The enclosed building receives of flows from Newtown pumping station, East Meath, Bryanstown pumping station, supernatant pumping station, scum chamber pumping station and storm water tanks return flow.
This stage removes materials from the raw wastewater that could damage our equipment. This screening involves removing: paper and plastics; grit removal; flow balancing; fat and grease removal. Air is extracted from the building and treated in an odour control unit prior to release to the atmosphere.
Primary Settlement:
There are 3 primary settlement tanks on site, only 2 tanks are required for normal service. These tanks except for the outer V-notch weirs, which are covered, and air from this element is extracted for treatment in an odour control unit. These tanks accept screened and degritted sewage.
In this stage wastewater flows through large primary sedimentation tanks with mechanical scrapers. These tanks use gravity to settle the solids. The solids are then transferred to sludge treatment facilities.
Stage 2
Secondary Treatment - Aeration Stage:
There are 6 aeration tanks on-site, each with an anoxic phase for nitrogen removal.
This stage adds large amounts of air to degrade the biological content of the wastewater. Most wastewater treatment plants treat the settled wastewater liquor using aerobic processes.
Aeration Tanks:
To meet discharge licence conditions we reduce the levels of nutrients, such as nitrate and phosphorus. We do this through biological processes in the secondary and final settlement stages.
Floc Formation:
We use bacteria and protozoa to consume soluble contaminants like sugars, fats and organic short-chain carbon molecules. A lot of the less soluble fractions are bound into clumps of fine particles that we call floc
Final Settlement:
There are 3 final settlement tanks. Following a suitable holding time in the aeration tanks, the wastewater (termed ‘mixed liquor’ at this stage) passes forward to the final settlement tanks for separation of the biomass from the cleaner, treated water.
The wastewater is now passed through final settlement tanks. These tanks use gravity settlement and mechanical scrapers to remove the floc. The wastewater is now passed through final settlement tanks. These tanks use gravity settlement and mechanical scrapers to remove the floc.
Control Building and Site Laboratory
Quality Control:
Our quality control measures include regular laboratory testing of the final treated wastewater. This is to ensure the cleaned water has no detrimental effects on aquatic life or other water users.
Sludge Farm:
The area known as sludge farm treats the waste removed from the treatment process. The sludge farm includes 2 anaerobic digesters, 2 gas holders, sludge thickeners, a blend tank, sludge building including centrifuges, cake storage skips and sludge storage tanks.
The Sludge Building:
The control centre for the sludge farm. It also houses 2 centrifuges and sludge pumps.
Primary Picket Fence Thickener Tanks (PFTs):
Separate sludge picket fence thickener (PFT) tanks are provided for each type of sludge. The PFT thickens the sludge.
Sludge Tickner’s/ Blending Tanks:
Primary and final sludges are blended in this tank
Following thickening, sludge is pumped forward to the blending tank for mixing to ensure a homogeneous mixture is pumped on to the anaerobic digestion plant.
Anaerobic Digesters:
Anaerobic digestion works by feeding the sludge into a heated enclosed reaction tank where naturally occurring anaerobic bacteria degrade the organic material. The end product is biogas and stabilised sludge. The purpose of anaerobic digestion is to convert bulky, odorous raw sludge to a relatively inert material that can be rapidly dewatered with the absence of odours and reduce the volume of sludge for processing.
Cake Storage Skips:
Dewatered sludge (termed sludge ‘cake’) is then lime stabilised and transferred to the cake storage skips pending appropriate disposal off site.
Gas Holders:
The biogas is stored in the gas holders and can then be converted to both electricity and heat using combined heat and power (CHP) units.
Sludge Storage Tanks:
Digested sludge is stored in these tanks in advance of being centrifuged.
two odour control units are provided. One serves the centrifuges and the second serves the PFTs, Blending Tank and the Sludge Storage Tanks.
Storm Water Holding Tanks:
During adverse wet weather, where the incoming flow exceeds the hydraulic capacity of the plant, dilute screened storm water will be diverted to the storm tanks for settlement prior to return to the plant for full treatment or release to receiving waters. Cleaning of these tanks occurs, via tipping buckets after each storm event.
The enclosed building receives of flows from Newtown pumping station, East Meath, Bryanstown pumping station, supernatant pumping station, scum chamber pumping station and storm water tanks return flow. This stage removes materials from the raw wastewater that could damage our equipment. This screening involves removing: paper and plastics; grit removal; flow balancing; fat and grease removal. Air is extracted from the building and treated in an odour control unit prior to release to the atmosphere.
There are 3 primary settlement tanks on site, only 2 tanks are required for normal service. These tanks except for the outer V-notch weirs, which are covered, and air from this element is extracted for treatment in an odour control unit. These tanks accept screened and degritted sewage. In this stage wastewater flows through large primary sedimentation tanks with mechanical scrapers. These tanks use gravity to settle the solids. The solids are then transferred to sludge treatment facilities.
There are 6 aeration tanks on-site, each with an anoxic phase for nitrogen removal. The secondary treatment stage adds large amounts of air to degrade the biological content of the wastewater. Most wastewater treatment plants provide secondary treatment by aerobic processes. During this stage of treatment organic matter and nutrient levels such as nitrate and phosphorous are significantly reduced.
Provides air for the aeration tanks. Floc Formation We use bacteria and protozoa to consume soluble contaminants like sugars, fats and organic short-chain carbon molecules. A lot of the less soluble fractions are bound into clumps of fine particles that we call floc
There are 3 final settlement tanks. Following a suitable holding time in the aeration tanks, the wastewater (termed ‘mixed liquor’ at this stage) passes forward to the final settlement tanks for separation of the biomass from the cleaner, treated water. These tanks use gravity settlement and mechanical scrapers to remove the floc. Clear treated effluent then discharges safely to the environment, while the floc is retained for dewatering and further treatment.
Quality Control Our quality control measures include regular laboratory testing of the final treated wastewater. This is to ensure the cleaned water has no detrimental effects on aquatic life or other water users.
The area known as sludge farm treats the waste removed from the treatment process. The sludge farm includes 2 anaerobic digesters, 2 gas holders, sludge thickeners, a blend tank, sludge building including centrifuges, cake storage skips and sludge storage tanks.
The control centre for the sludge farm. It also houses 2 centrifuges and sludge pumps.
Separate sludge picket fence thickener (PFT) tanks are provided for each type of sludge. The PFT thickens the sludge.
Separate sludge picket fence thickener (PFT) tanks are provided for each type of sludge. The PFT thickens the sludge.
Primary and final sludges are blended in this tank Following thickening, sludge is pumped forward to the blending tank for mixing to ensure a homogeneous mixture is pumped on to the anaerobic digestion plant.
Anaerobic digestion works by feeding the sludge into a heated enclosed reaction tank where naturally occurring anaerobic bacteria degrade the organic material. The end product is biogas and stabilised sludge. The purpose of anaerobic digestion is to convert bulky, raw sludge to a relatively inert material that can be rapidly dewatered with the absence of odours and reduce the volume of sludge for processing.
Dewatered sludge (termed sludge ‘cake’) is then lime stabilised and transferred to the cake storage skips pending appropriate disposal off site.
The biogas is stored in the gas holders and can then be converted to both electricity and heat using combined heat and power (CHP) units.
Digested sludge is stored in these tanks in advance of being centrifuged. two odour control units are provided. One serves the centrifuges and the second serves the PFTs, Blending Tank and the Sludge Storage Tanks.
During adverse wet weather, where the incoming flow exceeds the hydraulic capacity of the plant, dilute screened storm water will be diverted to the storm tanks for settlement prior to return to the plant for full treatment or release to receiving waters. Cleaning of these tanks occurs, via tipping buckets after each storm event.