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Residual Waste EFW: Difference between revisions
update Tolvik reference report and graphs
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Historically, the UK has been very dependent on [[Landfill]] or [[Incineration without Energy Recovery]] for [[Disposal]] of [[Residual Waste]]. The landfill diversion targets set in the mid 1990s promoted [[EfW]] developments. The diversion of residual waste away from [[Landfill]] and into [[EfW]] processes was intended to reduce emissions of methane and pollution originating from [[Landfill]] sites and increase production of renewable energy<ref name="foo" />. [[Energy from Waste]] is the now the main method for dealing with [[Residual Waste]], with [[Landfill]] of [[Residual Waste]] being the least preferred method, as outlined in the [[Waste Hierarchy]]<ref name="foo" />. | Historically, the UK has been very dependent on [[Landfill]] or [[Incineration without Energy Recovery]] for [[Disposal]] of [[Residual Waste]]. The landfill diversion targets set in the mid 1990s promoted [[EfW]] developments. The diversion of residual waste away from [[Landfill]] and into [[EfW]] processes was intended to reduce emissions of methane and pollution originating from [[Landfill]] sites and increase production of renewable energy<ref name="foo" />. [[Energy from Waste]] is the now the main method for dealing with [[Residual Waste]], with [[Landfill]] of [[Residual Waste]] being the least preferred method, as outlined in the [[Waste Hierarchy]]<ref name="foo" />. | ||
In 2020, the amount of residual waste that was sent to [[EfW]] processes in the UK increased by 10.5%, amounting to a total of 13,960 kt being sent to 54 operational EfW facilities across the UK<ref name="foo2> [https://www.tolvik.com/published-reports/view/uk-energy-from-waste-statistics- | In 2020, the amount of residual waste that was sent to [[EfW]] processes in the UK increased by 10.5%, amounting to a total of 13,960 kt being sent to 54 operational EfW facilities across the UK<ref name="foo2> [https://www.tolvik.com/published-reports/view/uk-energy-from-waste-statistics-2021/ Derived from Tolvik EFW Statistics 2021, Published May 2022]</ref>. This was against a headline/plated capacity of 16,630 kt of operational capacity and a further 4,070 kt of late stage commissioning and in construction 'plated' capacity at that time. This represented 52% of the total [[Residual Waste]] produced in the UK in 2020 (increasing from 46% in 2019)<ref name="foo2" />. The total net power exported from [[EfW]] facilities in 2019 was 7,762 GWh, this supplied 2.5% of the total UK power generation, and gives an average of 557 kWh of power generated per tonne of residual waste treated at UK [[EfW]] facilities<ref name="foo2" />. | ||
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The graph below displays how the tonnage of residual waste processes by UK [[EfW]] facilities has changed over recent years, and is based on that received rather than the 'plated' capacity of the plants in operation and construction (20,200 kt reported by Tolvik<ref name="foo2" /> at the end of 2020, whereas this page reports '''{{formatnum: {{#expr: {{#var: opston}} + {{#var: ucston}}}}}} kt''' as at March 2021). | The graph below displays how the tonnage of residual waste processes by UK [[EfW]] facilities has changed over recent years, and is based on that received rather than the 'plated' capacity of the plants in operation and construction (20,200 kt reported by Tolvik<ref name="foo2" /> at the end of 2020, whereas this page reports '''{{formatnum: {{#expr: {{#var: opston}} + {{#var: ucston}}}}}} kt''' as at March 2021). | ||
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{"x":2012,"y":5.2},{"x":2013,"y":5.5},{"x":2014,"y":6.7}, | {"x":2012,"y":5.2},{"x":2013,"y":5.5},{"x":2014,"y":6.7}, | ||
{"x":2015,"y":8.4},{"x":2016,"y":10.1},{"x":2017,"y":10.9}, | {"x":2015,"y":8.4},{"x":2016,"y":10.1},{"x":2017,"y":10.9}, | ||
{"x":2018,"y":11.5},{"x":2019,"y":12.6},{"x":2020,"y":14.0} | {"x":2018,"y":11.5},{"x":2019,"y":12.6},{"x":2020,"y":14.0}, | ||
{"x":2021,"y":14.8} | |||
] | ] | ||
}], | }], | ||
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|- | |- | ||
|+Table Summarizing Graph Data | |+Table Summarizing Graph Data | ||
|'''Year''' || 2006 || 2007 || 2008 || 2009 || 2010 || 2011 || 2012 || 2013 || 2014 || 2015 || 2016 || 2017 || 2018||2019||2020 | |'''Year''' || 2006 || 2007 || 2008 || 2009 || 2010 || 2011 || 2012 || 2013 || 2014 || 2015 || 2016 || 2017 || 2018||2019||2020||2021 | ||
|- | |- | ||
|'''Million Tonnes''' || 3.3 || 3.3 || 3.3 || 3.6 || 4.2 || 4.8 || 5.2 || 5.5 || 6.7 || 8.4 || 10.1 || 10.9 || 11.5||12.6||14. | |'''Million Tonnes''' || 3.3 || 3.3 || 3.3 || 3.6 || 4.2 || 4.8 || 5.2 || 5.5 || 6.7 || 8.4 || 10.1 || 10.9 || 11.5||12.6||14.1||14.8 | ||
|} | |} | ||
|} | |} | ||
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|- | |- | ||
|+Power and Heat Table | |+Power and Heat Table | ||
|'''Year''' || 2014 || 2015 || 2016 || 2017 || 2018||2019||2020 | |'''Year''' || 2014 || 2015 || 2016 || 2017 || 2018||2019||2020||2021 | ||
|- | |- | ||
|'''Net Power Export (GWh<sub>e</sub>)''' ||3,368||4,636||5,291||6,258||6,230||6,703||7, | |'''Net Power Export (GWh<sub>e</sub>)''' ||3,368||4,636||5,291||6,258||6,230||6,703||7,769||8,643 | ||
|- | |- | ||
|'''Net Heat Export (GWh<sub>th</sub>)''' ||NA||554||730||865||1,112||1,384||1,651 | |'''Net Heat Export (GWh<sub>th</sub>)''' ||NA||554||730||865||1,112||1,384||1,651||1,845 | ||
|- | |- | ||
|} | |} | ||