Lean Quarry Landfill Site: Difference between revisions
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[[Category:Non-Haz Landfill]] | [[Category:Non-Haz Landfill]] | ||
==Summary== | ==Summary== | ||
Lean Quarry | [[Lean Quarry Landfill Site]] is a modern site, engineered to standards set by the [[Landfill Directive]]. The site was developed from 2003 onwards by [[Viridor]]. | ||
==History== | ==History== | ||
Lean Quarry landfill was granted [[Planning_Permission|planning permission]] in 2002 by Cornwall County Council. At the time, the site was owned and operated by Roseland Plant Hire Limited who were acquired by [[Viridor]] later in 2002. An [[Environmental Permit|environmental permit]] for the site was granted in 2003 and construction of the site commenced thereafter. | Lean Quarry landfill was granted [[Planning_Permission|planning permission]] in 2002 by [[Cornwall County Council]]. At the time, the site was owned and operated by [[Roseland Plant Hire Limited]] who were acquired by [[Viridor]] later in 2002. An [[Environmental Permit|environmental permit]] for the site was granted in 2003 and construction of the site commenced thereafter. | ||
==Geology== | ==Geology== | ||
The quarry is excavated into Devonian and Carboniferous deposits comprising basalt pillow lavas extruded on to slate and siltstone country rocks. These are defined by the Environment Agency as a Secondary Aquifer, although due to the lithology, locally they are not water-bearing to any significant degree. | The quarry is excavated into Devonian and Carboniferous deposits comprising basalt pillow lavas extruded on to slate and siltstone country rocks. The basaltic rocks are known as dolerite locally, although this is incorrect nomenclature. These are defined by the [[Environment Agency]] as a Secondary Aquifer, although due to the lithology, locally they are not water-bearing to any significant degree. | ||
==Engineering and Environmental Controls== | ==Engineering and Environmental Controls== | ||
The landfill is constructed as a Containment Facility, utilizing the re-worked siltstone and slate derived clay materials as the principal barrier. The landfill lining system is augmented with a flexible membrane liner of High Density Polyethylene (HDPE) on the base and the lower part of the sidewalls. The sidewalls are steeply graded and required buttressing to enable construction within the 40+ metre deep quarry. | The[[landfill]] is constructed as a Containment Facility, utilizing the re-worked siltstone and slate derived clay materials as the principal barrier. The landfill lining system is augmented with a flexible membrane liner of High Density Polyethylene (HDPE) on the base and the lower part of the sidewalls. The sidewalls are steeply graded and required buttressing to enable construction within the 40+ metre deep quarry. | ||
There is Landfill Gas power generation with electricity export to the National Grid. Installed capacity is 2.05MW.<ref> | There is [[Landfill Gas]] power generation with electricity export to the [[National Grid]]. Installed capacity is 2.05MW.<ref>http://renewables-uk.co.uk/listofgem.asp?pshowofgemtech=Landfill+Gas+(REGO+code+%3D+LG)</ref> | ||
</ref> | |||
Viridor have been unable to secure a connection to the local sewerage system, principally due to a lack of local treatment capacity at the receiving Sewage Treatment Works. Consequently, Leachate produced by the site is removed by tanker to appropriately permitted Sewage Treatment Works. | Viridor have been unable to secure a connection to the local sewerage system, principally due to a lack of local treatment capacity at the receiving [[Sewage Treatment Works]]. Consequently, Leachate produced by the site is removed by tanker to appropriately permitted Sewage Treatment Works. | ||
==Other Infrastructure== | ==Other Infrastructure== | ||
Elsewhere within the quarry complex, Viridor also developed a [[Materials Recovery Facility]] to deal with locally derived recyclable waste streams. This facility was covered by the same planning consent as the landfill. | Elsewhere within the quarry complex, Viridor also developed a [[Materials Recovery Facility]] to deal with locally derived recyclable waste streams. This facility was covered by the same planning consent as the landfill. | ||
{{NHLFTable|Permit=BV2204IZ}} | {{NHLFTable|Permit=BV2204IZ}} | ||
==References== | ==References== | ||
Latest revision as of 09:24, 3 March 2022
| LEAN QUARRY LANDFILL | |
 See Non-Hazardous Landfill → page for a wider UK perspective. | |
| Waste Licence | BV2204IZ (BV2204IZ) |
| Operator | Valencia Waste |
Void
| Year | Total Void[1] |
|---|---|
| 2018 | 1501933 |
| 2019 | 1501933 |
| 2020 | 1501933 |
Summary site information collated from a variety of sources
including: Monksleigh, Ellard Associates, EA, WasteDataFlow,
SEPA, NRW, DEFRA, BEIS and owner and developer websites
Summary
Lean Quarry Landfill Site is a modern site, engineered to standards set by the Landfill Directive. The site was developed from 2003 onwards by Viridor.
History
Lean Quarry landfill was granted planning permission in 2002 by Cornwall County Council. At the time, the site was owned and operated by Roseland Plant Hire Limited who were acquired by Viridor later in 2002. An environmental permit for the site was granted in 2003 and construction of the site commenced thereafter.
Geology
The quarry is excavated into Devonian and Carboniferous deposits comprising basalt pillow lavas extruded on to slate and siltstone country rocks. The basaltic rocks are known as dolerite locally, although this is incorrect nomenclature. These are defined by the Environment Agency as a Secondary Aquifer, although due to the lithology, locally they are not water-bearing to any significant degree.
Engineering and Environmental Controls
Thelandfill is constructed as a Containment Facility, utilizing the re-worked siltstone and slate derived clay materials as the principal barrier. The landfill lining system is augmented with a flexible membrane liner of High Density Polyethylene (HDPE) on the base and the lower part of the sidewalls. The sidewalls are steeply graded and required buttressing to enable construction within the 40+ metre deep quarry.
There is Landfill Gas power generation with electricity export to the National Grid. Installed capacity is 2.05MW.[2]
Viridor have been unable to secure a connection to the local sewerage system, principally due to a lack of local treatment capacity at the receiving Sewage Treatment Works. Consequently, Leachate produced by the site is removed by tanker to appropriately permitted Sewage Treatment Works.
Other Infrastructure
Elsewhere within the quarry complex, Viridor also developed a Materials Recovery Facility to deal with locally derived recyclable waste streams. This facility was covered by the same planning consent as the landfill.
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Waste Tonnage, EWC List
The table shows a list of the Waste for the Permit BV2204IZ, that has arrived into sites as reported to the Regulator and then publicised in their reported statistics. The Data used is the most current. The total reported tonnage arriving at the site was: Expression error: Unexpected < operator.t.
| EWC Code | Description | Tonnes In |
|---|
References
- ↑ Units are in m3 for England and Wales, and Tonnes for Scotland.
- ↑ http://renewables-uk.co.uk/listofgem.asp?pshowofgemtech=Landfill+Gas+(REGO+code+%3D+LG)