Refuse Derived Fuel

From Wikiwaste

A type of Waste Derived Fuel, Refuse Derived Fuel or RDF has been prepared by a treatment process to produce a broad specification fuel, which is still considered to be a waste, that can be used by an EfW plant. The specification will depend upon the plant to be used, but typically at the most basic level will have had metals and inert materials removed, removal of some recyclables and limited shredding/bag splitting. More refined RDF will have had drying, shredding to a uniform size and Moisture Content reduction. At the very high end of production the RDF will move towards being a SRF.

Moving Refuse Derived Fuel and Solid Recovered Fuel from the UK abroad requires compliance with the Transfrontier Shipment Regulations (TFS) and in simple terms requires an application for movement to be made to the relevant authorities that requires a number of key measures to be satisfied before this can occur.

Export Yearly

Year Tonnage Shipped Increase on Previous Percentage Change
2010 11,102 - -
2011 251,450 +240,348 2164.9%
2012 1,009,971 +758,520 301.7%
2013 1,963,362 +953,390 48.6%
2014 2,661,870 +698,508 35.6%
2015 3,211,635 +549,765 20.7%
2016 3,530,858 +319,222 9.9%
2017 3,460,663 -70,194 -2.0%
2018 3,222,711 -237,952 -6.9%
2019 (Quarters 1-3) 2,008,235 -1,214,476 -37.7%

Fuel Specifications

We have pulled together a number of specification (spec) sheets to produce give an overall feel for the spec of Refuse Derived Fuel and Solid Recovered Fuel, as shown in the table below. In reality the spec is usually very tightly controlled by the receiving plant.

Measure Units Residual Waste[1] RDF SRF
Net Calorific Value MJ/kg (as received) 9 - 15 10 - 15 >18.5
Moisture wt% (dry basis) 10 - 40 <20 <15
Biomass Content[2] wt% (dry basis) >45 >65 >65
Ash Content wt% (dry basis) 10 - 30 <20 <15
Sulphur wt% (dry basis) < 0.85 <0.5 <0.5
Nitrogen wt% (dry basis) <1.5 <0.8 <0.8
Lead mg/kg <200 <100 <80
Chlorine CI wt% (dry basis) <1.2 <0.6 <0.6
Zinc[3] wt% (dry basis) <0.1    
Sodium and Potassium[3] wt% (dry basis) <0.8    
Mercury mg/kg <2 <1 <0.6
Nickel mg/kg <200 <100 <100
Thallium mg/kg <20 <10 <10
Ferrous and non-ferrous metals wt% (dry basis) <7 <3 <1
Non combustible material wt% (dry basis) <15 <10 <5
Glass wt% (dry basis) <5 <2 <1
Dust <1mm wt% (dry basis) <5 <5 <5
Bulk Density (loose) kg/m3 100 - 275 100 - 175 185
Particle Size (max dimension) mm 500 300 <40

References

  1. Typical ranges for Residual Waste as a Comparison
  2. Not generally defined for exports to EU (no biomass requirements.)
  3. 3.0 3.1 Not generally defined in a fuel spec