Hazardous Landfill

From Wikiwaste
Revision as of 10:58, 8 December 2020 by Bin52 (talk | contribs) (minor text change)

Only a Hazardous Landfill can accept Hazardous Waste for Landfill Disposal but only then if it meets the relevant standards for engineering and management controls and Waste Acceptance Criteriaset out in the Annex to the EU Decision (2003/33/EC)[1], but it may also be able to accept small quantities of Inert Waste. Hazardous landfill sites cannot accept Non-Hazardous Waste. There are some restricted circumstances in which Non-hazardous Landfill can accept Hazardous Waste, these are described further below.

There are numerical limit values for leachable inorganic substances, organic content along with standards for physical stability. These exist for both granular and monolithic hazardous waste.

Standards require Hazardous Waste that is disposed of with other Non-Hazardous Waste to be in separate engineered cells within the Landfill where Stabilised Non-Reactive Hazardous Waste or Gypsum Waste (normally plasterboard) is to be disposed of[2].

Capacity Hazardous Landfill

The capacity of Hazardous Landfill is reported[3] by the EA for England and is summarised in the graph and table below. Capacity for Hazardous Waste is split out into 'Restricted Sites' by the EA which totaled 722,708 cubic meters in 2015 and 832,407 cubic metres in 2019. Note that Hazardous Landfill also provides Inert Landfill capacity in the sense that these waste are used for daily cover and site engineering purposes.

Changes in Hazardous Landfill Capacity
<graph>{

"width":400, "height":200, "data":[{ "name":"table", "values":[ {"x":2015,"y":17.7},{"x":2016,"y":19.3},{"x":2017,"y":18.8}, {"x":2018,"y":19.1},{"x":2019,"y":18.4} ] }], "scales": [

   {
     "name": "x",
     "type": "linear",
     "range": "width",
     "zero": false,
     "domain": {"data": "table", "field": "x"}
   },
   {
     "name": "y",
     "type": "linear",
     "range": "height",
     "nice": true,
     "domain": {"data": "table", "field": "y"}
   }

], "axes": [

   	{"type": "x", "scale": "x", "format":"d","title":"Year"},
   	{"type": "y", "scale": "y", "grid":true, "title":"Million Cubic Metres"}

], "marks": [

   {
     "type": "line",
     "from": {"data": "table"},
     "properties": {
       "enter": {
         "x": {"scale": "x", "field": "x"},
         "y": {"scale": "y", "field": "y"},
         "stroke": {"value": "steelblue"},
         "strokeWidth":{"value":2}
       }
     }
   },

{

     "type": "symbol",
     "from": {"data": "table"},
     "properties": {
       "enter": {
         "x": {"scale":"x","field": "x"},
         "y": {"scale":"y","field": "y"},
         "fill": {"value": "steelblue"},
         "size":{"value":15}
       	}
   	}

}

 ]

}</graph>

Table Summarizing Graph Data
Year 2015 2016 2017 2018 2019
Million Cubic Metres 17.7 19.3 18.8 19.1 18.4

Capacity Non-Hazardous Landfill with Stabilised Non-Reactive Hazardous Waste

The capacity of Non-Hazardous Landfill which has a cell or cells for Stabilised Non-Reactive Hazardous Waste is also reported by the EA and is summarised in the graph and table below (although the proportion of the total which is Stabilised Non-Reactive Hazardous Waste is generally relatively small). Note that Hazardous Landfill also provides Inert Landfill capacity in the sense that these waste are used for daily cover and site engineering purposes.

Changes in Non-Hazardous Landfill Capacity with Stabilised Non-Reactive Hazardous Waste Cell
<graph>{

"width":400, "height":200, "data":[{ "name":"table", "values":[ {"x":2015,"y":89.4},{"x":2016,"y":85.3},{"x":2017,"y":82.9}, {"x":2018,"y":75.1},{"x":2019,"y":69.4} ] }], "scales": [

   {
     "name": "x",
     "type": "linear",
     "range": "width",
     "zero": false,
     "domain": {"data": "table", "field": "x"}
   },
   {
     "name": "y",
     "type": "linear",
     "range": "height",
     "nice": true,
     "domain": {"data": "table", "field": "y"}
   }

], "axes": [

   	{"type": "x", "scale": "x", "format":"d","title":"Year"},
   	{"type": "y", "scale": "y", "grid":true, "title":"Million Cubic Metres"}

], "marks": [

   {
     "type": "line",
     "from": {"data": "table"},
     "properties": {
       "enter": {
         "x": {"scale": "x", "field": "x"},
         "y": {"scale": "y", "field": "y"},
         "stroke": {"value": "steelblue"},
         "strokeWidth":{"value":2}
       }
     }
   },

{

     "type": "symbol",
     "from": {"data": "table"},
     "properties": {
       "enter": {
         "x": {"scale":"x","field": "x"},
         "y": {"scale":"y","field": "y"},
         "fill": {"value": "steelblue"},
         "size":{"value":15}
       	}
   	}

}

 ]

}</graph>

Table Summarizing Graph Data
Year 2015 2016 2017 2018 2019
Million Cubic Metres 89.4 85.3 82.9 75.1 69.4


References

  1. EU Council Decision (2003/33/EC) establishing criteria and procedures for the acceptance of waste at landfills pursuant to Art 16 of and Annex II to Directive 1999/31/EC
  2. Defra, 2010. Environmental Permitting Guidance: The Landfill Directive for the Environmental Permitting (England and Wales) Regulations 2010. London: Department for Environment, Food and Rural Affairs, p.7.
  3. EA Remaining Landfill Capacity