Case study:Saltburn Gill ironstones mines: Difference between revisions

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{{Case study status
{{Case study status
|Approval status=Draft
|Approval status=Approved
}}
}}
{{Location
{{Location
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|Themes=Economic aspects, Social benefits, Water quality
|Themes=Economic aspects, Social benefits, Water quality
|Country=England
|Country=England
|Main contact forename=Peter
|Main contact forename=Hugh
|Main contact surname=Aldred
|Main contact surname=Potter
|Main contact id=HPotter
|Contact organisation=Environment Agency
|Contact organisation=Environment Agency
|Contact organisation url=www.environment-agency.gov.uk/
|Contact organisation url=www.environment-agency.gov.uk/
|Partner organisations=Environment Agency, DEFRA, The Coal Authority (UK)
|Partner organisations=Environment Agency, Defra, The Coal Authority (UK)
|Multi-site=No
|Multi-site=No
|Project picture=Saltburn Gill iron mines.png
|Project picture=Aerial photo of the lower end of the Saltburn Beck 1.jpg
|Project summary=East Cleveland was a major source of ore for the Teesside iron and steel industry. The Cleveland Ironstone band was worked from the 1850’s until the early 1960’s, resulting in a legacy of abandoned mine workings.
|Project summary=Saltburn Gill is a short coastal river, flowing into the North Sea across Saltburn Beach - a designated bathing water beach and one of the most popular surfing beaches on the east coast. The river extends inland for about 8km in a steep sided valley, part of the Saltburn Gill Nature Reserve Site of Special Scientific Interest (SSSI).


In 1999, Acid Mine drainage from the abandoned mine workings to the Saltburn Gill rose the typical iron levels from around 0.1 milligrammes per litre (mg/l) to in excess of 1200mg/l. Over 330kg of iron ochre is deposited on the stream bed every day, contributing to a discharge of over 100 tonnes of iron into the North Sea each year. The pollution caused a depletion in Oxygen levels, with a devastating effect on the ecology. A biological impact survey of the stream showed that the pollution reduced the water quality of the beck from good to bad status along to 2 km of the watercourse from the discharge point to the sea.
This on-going project targets a section of the Saltburn Gill that was negatively impacted by Acid Mine Drainage (AMD) from abandoned mine workings, located upstream of the discharge point. Historically, East Cleveland was a major source of ore for the Teesside iron and steel industry, specially from the 1850’s until the early 1960’s. Afterwards, the decline of the mining activity resulted in an uncontrolled abandonment of the working mines in within the region.  


Saltburn Gill Action Group (SGAG) was set up in 2005 as a community action group. Assistance was given by The Environment Agency, Teesside University, the local Wildlife Trust, the Parish Council and others to try to find a solution to this problem.
In May 1999, an uncontrolled mine discharge increased the typical iron levels of the Saltburn Beck from around 0.1 milligrammes per litre (mg/l) to in excess of 1200mg/l. Over 330kg of iron ochre was deposited on the stream bed every day. In one year, this is the equivalent of over 100 tonnes of iron being discharged into the North Sea. The devastating effects on the ecology readily appeared, mainly due to the drastic depletion in the oxygen levels. A biological impact survey of the stream showed that the pollution reduced the water quality of the beck from good to bad status along 2km of the watercourse, from the discharge point to the sea.


In 2009/10, in Partnership with the Coal Authority, with funding from Defra, the Environment Agency undertook a number of investigations to establish the feasibility of building a treatment plant for the minewater. Construction of the treatmnet plant started in December 2012. This will involve a large pumping borehole into the mine workings and settlement ponds and reed beds. It is expected to start pumping in the spring or early summer of 2013 and final drying up of the polluting discharge and construction of the final parts of the scheme may not happen until 2014-15.
The Saltburn Gill Action Group (SGAG) was set up in 2005 as a community action group. Assistance was given by The Environment Agency, Teesside University, the local Wildlife Trust, the Parish Council and others to try to find a solution to this problem. Then, several site investigations were carried out with insights to build up a treatment plant. A major partnership project between us, the Coal Authority and Saltburn Gill Action Group has been working to clean up the pollution since 2008.
 
During the summer of 2013, Defra provided funding for the Coal Authority to pump water from the mines and build the first stage of a treatment scheme. This first stage is a settlement lagoon where iron precipitates out of the mine water to form a sludge at the bottom. A temporary chemical dosing system helps to remove more iron while the second stage is being built. Clean water is put back into the Gill, and since January 2014, the stream is no longer orange.
 
In the summer of 2014, work started on the second stage of the passive treatment scheme – made up of 4 settlement ponds, a sludge drying bed and a reed bed wetland. The abstracted mine water first flows over an aeration cascade, which adds oxygen to the water and improves the rate the iron oxidises into a precipitate. It then flows by gravity into settlement ponds, where the metals can settle out to the bottom. This process takes 1 to 2 days, and leaves a sludge, iron ochre, which is disposed of at a later date.
 
After the mine water has passed through the settlement ponds it then flows by gravity into the reed bed wetland. The reeds act like a natural filter, removing the majority of the remaining metal pollution. Clean water is then returned to the Gill. Once the treatment scheme is finished, the chemical dosing system can be removed – reducing long-term costs. The construction phase should be completed in early 2015, and the reeds will be planted in May 2015. As well as filtering and cleaning the mine water, the reed beds will provide a valuable new habitat for wildlife. 
 
Laboratory and field scale tests have shown that up to 99% of the iron should be removed by the treatment plant, with the local economic benefits of raising the quality of the river and foreshore predicted to be around £10.5 million over 25 years. This significantly outweighs the predicted lifetime cost of building and running the treatment plant (~£7m).
 
Benefits of remediation:
* The Saltburn Gill and Skelton Beck will no longer be polluted, and the risk of a catastrophic breakout of minewater will be reduced.
* The aesthetic, ecological and recreational value of Saltburn Gill, Saltburn Beach and the Saltburn Gill Nature Reserve will be improved.
* Improved bathing water quality on Saltburn beach, encouraging recreation that contributes to the local economy.
* The water body will achieve good chemical and ecological status as required by the Northumbria River Basin Management Plan.
}}
{{Image gallery}}
{{Case study image
|File name=Saltburn Gill mine discharge point.JPG
|Caption=Mine discharge point
}}
{{Case study image
|File name=Impact on the Saltburn Gill stream I.JPG
|Caption=Impact on the Saltburn Gill stream
}}
{{Case study image
|File name=Impact on the Saltburn Gill stream II.JPG
|Caption=Impact on the Saltburn Gill stream
}}
{{Case study image
|File name=The Saltburn Gill joining the Skelton Beck in Saltburn.JPG
|Caption=The Saltburn Gill joining the Skelton Beck in Saltburn
}}
{{Case study image
|File name=Saltburn Gill before treatment.jpg
|Caption=Saltburn Gill joining the Skelton Beck - before treatment
}}
{{Case study image
|File name=150924 Saltburn cleaned.JPG
|Caption=Crystal clear Saltburn Gill now that all four settlement ponds are on line (25 Sept 2015).
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{{Case study image
|File name=Aerial photo of the lower end of the Saltburn Beck.jpg
|Caption=Aerial photo of the lower end of the Saltburn Beck
}}
{{Case study image
|File name=Saltburn aeration.jpg
|Caption=Saltburn aeration cascade, part of the minewater treatment system
}}
{{Case study image
|File name=Saltburn settlement lagoons.jpg
|Caption=Saltburn settlement ponds, foreground, with reed bed and drying lagoon behind
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{{Case study image
|File name=Saltburn MWTS schematic.jpg
|Caption=Diagram showing the general layout of the minewater treatment scheme
}}
{{Image gallery end}}
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{{Toggle content start}}
{{Case study subcatchment
|Subcatchment=Saltburn Gill Catch trib of North Sea
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{{Case study subcatchment}}
{{Site
{{Site
|Name=Saltburn Gill Nature Reserve
|Name=Saltburn Gill Nature Reserve
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{{Monitoring documents}}
{{Monitoring documents}}
{{Monitoring documents end}}
{{Monitoring documents end}}
{{Image gallery}}
{{Additional Documents}}
{{Case study image
{{Case study documents
|File name=Saltburn Gill mine discharge point.JPG
|File name=Saltburn case study July 2010.pdf
|Caption=Mine discharge point
|Description=EA, 2010. Abandoned mines case study: Saltburn Gill ironstone mines
}}
}}
{{Case study image
{{Case study documents
|File name=Impact on the Saltburn Gill stream I.JPG
|File name=Saltburn Gill Case Study for UK River Prize.pdf
|Caption=Impact on the Saltburn Gill stream
}}
}}
{{Case study image
{{Additional Documents end}}
|File name=Impact on the Saltburn Gill stream II.JPG
{{Additional links and references header}}
|Caption=Impact on the Saltburn Gill stream
{{Additional links and references
|Link=www.bbc.co.uk/news/uk-england-tees-15002074
|Description=BBC, 2011. Polluted Saltburn Gill in Cleveland gets cash for clean-up
}}
}}
{{Case study image
{{Additional links and references
|File name=The Saltburn Gill joining the Skelton Beck in Saltburn.JPG
|Link=www.bbc.co.uk/news/uk-england-tees-20739848
|Caption=The Saltburn Gill joining the Skelton Beck in Saltburn
|Description=BBC, 2012. Saltburn polluted stream clean-up begins
}}
}}
{{Case study image
{{Additional links and references
|File name=Aerial photo of the lower end of the Saltburn Beck.jpg
|Link=www.environment-agency.gov.uk/news/144707.aspx
|Caption=Aerial photo of the lower end of the Saltburn Beck
|Description=EA, 2012. Saltburn’s ochre stream set for clean up
}}
}}
{{Image gallery end}}
{{Additional Documents}}
{{Additional Documents end}}
{{Additional links and references header}}
{{Additional links and references footer}}
{{Additional links and references footer}}
{{Supplementary Information}}
{{Supplementary Information}}

Latest revision as of 13:27, 6 June 2017

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Location: 54° 34' 19.07" N, 0° 57' 36.96" W
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Project overview

Edit project overview
Status In progress
Project web site
Themes Economic aspects, Social benefits, Water quality
Country England
Main contact forename Hugh
Main contact surname Potter
Main contact user ID User:HPotter
Contact organisation Environment Agency
Contact organisation web site http://www.environment-agency.gov.uk/
Partner organisations Environment Agency, Defra, The Coal Authority (UK)
Parent multi-site project
This is a parent project
encompassing the following
projects 		No
Project picture

Project summary

Edit project overview to modify the project summary.


Saltburn Gill is a short coastal river, flowing into the North Sea across Saltburn Beach - a designated bathing water beach and one of the most popular surfing beaches on the east coast. The river extends inland for about 8km in a steep sided valley, part of the Saltburn Gill Nature Reserve Site of Special Scientific Interest (SSSI).

This on-going project targets a section of the Saltburn Gill that was negatively impacted by Acid Mine Drainage (AMD) from abandoned mine workings, located upstream of the discharge point. Historically, East Cleveland was a major source of ore for the Teesside iron and steel industry, specially from the 1850’s until the early 1960’s. Afterwards, the decline of the mining activity resulted in an uncontrolled abandonment of the working mines in within the region.

In May 1999, an uncontrolled mine discharge increased the typical iron levels of the Saltburn Beck from around 0.1 milligrammes per litre (mg/l) to in excess of 1200mg/l. Over 330kg of iron ochre was deposited on the stream bed every day. In one year, this is the equivalent of over 100 tonnes of iron being discharged into the North Sea. The devastating effects on the ecology readily appeared, mainly due to the drastic depletion in the oxygen levels. A biological impact survey of the stream showed that the pollution reduced the water quality of the beck from good to bad status along 2km of the watercourse, from the discharge point to the sea.

The Saltburn Gill Action Group (SGAG) was set up in 2005 as a community action group. Assistance was given by The Environment Agency, Teesside University, the local Wildlife Trust, the Parish Council and others to try to find a solution to this problem. Then, several site investigations were carried out with insights to build up a treatment plant. A major partnership project between us, the Coal Authority and Saltburn Gill Action Group has been working to clean up the pollution since 2008.

During the summer of 2013, Defra provided funding for the Coal Authority to pump water from the mines and build the first stage of a treatment scheme. This first stage is a settlement lagoon where iron precipitates out of the mine water to form a sludge at the bottom. A temporary chemical dosing system helps to remove more iron while the second stage is being built. Clean water is put back into the Gill, and since January 2014, the stream is no longer orange.

In the summer of 2014, work started on the second stage of the passive treatment scheme – made up of 4 settlement ponds, a sludge drying bed and a reed bed wetland. The abstracted mine water first flows over an aeration cascade, which adds oxygen to the water and improves the rate the iron oxidises into a precipitate. It then flows by gravity into settlement ponds, where the metals can settle out to the bottom. This process takes 1 to 2 days, and leaves a sludge, iron ochre, which is disposed of at a later date.

After the mine water has passed through the settlement ponds it then flows by gravity into the reed bed wetland. The reeds act like a natural filter, removing the majority of the remaining metal pollution. Clean water is then returned to the Gill. Once the treatment scheme is finished, the chemical dosing system can be removed – reducing long-term costs. The construction phase should be completed in early 2015, and the reeds will be planted in May 2015. As well as filtering and cleaning the mine water, the reed beds will provide a valuable new habitat for wildlife.

Laboratory and field scale tests have shown that up to 99% of the iron should be removed by the treatment plant, with the local economic benefits of raising the quality of the river and foreshore predicted to be around £10.5 million over 25 years. This significantly outweighs the predicted lifetime cost of building and running the treatment plant (~£7m).

Benefits of remediation:

  • The Saltburn Gill and Skelton Beck will no longer be polluted, and the risk of a catastrophic breakout of minewater will be reduced.
  • The aesthetic, ecological and recreational value of Saltburn Gill, Saltburn Beach and the Saltburn Gill Nature Reserve will be improved.
  • Improved bathing water quality on Saltburn beach, encouraging recreation that contributes to the local economy.
  • The water body will achieve good chemical and ecological status as required by the Northumbria River Basin Management Plan.

Monitoring surveys and results

This case study hasn’t got any Monitoring survey and results, you can add some by editing the project overview.

Lessons learnt

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Image gallery


Mine discharge point
Impact on the Saltburn Gill stream
Impact on the Saltburn Gill stream
The Saltburn Gill joining the Skelton Beck in Saltburn
Saltburn Gill joining the Skelton Beck - before treatment
Crystal clear Saltburn Gill now that all four settlement ponds are on line (25 Sept 2015).
Aerial photo of the lower end of the Saltburn Beck
Saltburn aeration cascade, part of the minewater treatment system
Saltburn settlement ponds, foreground, with reed bed and drying lagoon behind
Diagram showing the general layout of the minewater treatment scheme
ShowHideAdditionalImage.png


Catchment and subcatchment

Catchment

River basin district Northumbria
River basin Tees

Subcatchment

River name Saltburn Gill Catch trib of North Sea
Area category 10 - 100 km²
Area (km2)
Maximum altitude category 200 - 500 m
Maximum altitude (m) 231231 m <br />0.231 km <br />23,100 cm <br />
Dominant geology Calcareous
Ecoregion Great Britain
Dominant land cover Arable and Horticulture
Waterbody ID GB103025071960



Site

Name Saltburn Gill Nature Reserve
WFD water body codes GB103025071960
WFD (national) typology Low, Small, Calcareous
WFD water body name Saltburn Gill Catch trib of North Sea
Pre-project morphology
Reference morphology
Desired post project morphology
Heavily modified water body No
National/international site designation UK - Site of Special Scientific Interest
Local/regional site designations
Protected species present No
Invasive species present No
Species of interest
Dominant hydrology
Dominant substrate
River corridor land use
Average bankfull channel width category
Average bankfull channel width (m)
Average bankfull channel depth category
Average bankfull channel depth (m)
Mean discharge category
Mean annual discharge (m3/s)
Average channel gradient category
Average channel gradient
Average unit stream power (W/m2)


Project background

Reach length directly affected (m)
Project started 2009/07/01
Works started 2012/12/03
Works completed
Project completed
Total cost category
Total cost (k€) 700000700,000 k€ <br />700,000,000 € <br />
Benefit to cost ratio
Funding sources

Cost for project phases

Phase cost category cost exact (k€) Lead organisation Contact forename Contact surname
Investigation and design
Stakeholder engagement and communication
Works and works supervision
Post-project management and maintenance
Monitoring



Reasons for river restoration

Mitigation of a pressure Pollution incident
Hydromorphology Quantity & dynamics of flow
Biology
Physico-chemical Oxygen balance, PH
Other reasons for the project


Measures

Structural measures
Bank/bed modifications
Floodplain / River corridor
Planform / Channel pattern
Other Construction of a Treatment Plant
Non-structural measures
Management interventions
Social measures (incl. engagement)
Other


Monitoring

Hydromorphological quality elements

Element When monitored Type of monitoring Control site used Result
Before measures After measures Qualitative Quantitative

Biological quality elements

Element When monitored Type of monitoring Control site used Result
Before measures After measures Qualitative Quantitative

Physico-chemical quality elements

Element When monitored Type of monitoring Control site used Result
Before measures After measures Qualitative Quantitative

Any other monitoring, e.g. social, economic

Element When monitored Type of monitoring Control site used Result
Before measures After measures Qualitative Quantitative


Monitoring documents



Additional documents and videos


Additional links and references

Link Description
http://www.bbc.co.uk/news/uk-england-tees-15002074 BBC, 2011. Polluted Saltburn Gill in Cleveland gets cash for clean-up
http://www.bbc.co.uk/news/uk-england-tees-20739848 BBC, 2012. Saltburn polluted stream clean-up begins
http://www.environment-agency.gov.uk/news/144707.aspx EA, 2012. Saltburn’s ochre stream set for clean up

Supplementary Information

Edit Supplementary Information
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