Lignite |
Arsenic
|
ISO 17294 |
|
Selenium
|
ISO 17294 |
|
Mercury
|
ISO 15237 |
|
Nitrogen
|
ISO 29541 |
|
Calcium oxide
|
ISO 13605 |
|
Phosphorus pentoxide
|
ISO 13605 |
|
Potassium oxide
|
ISO 13605 |
|
Thallium
|
ISO 17294 |
|
Fluorine
|
ISO 11724 |
|
Hydrogen
|
ISO 29541 |
|
Chlorine
|
ISO 352 |
|
Sulfur trioxide
|
ISO 13605 |
|
Sulfur, total
|
ISO 19579 |
|
Magnesium oxide
|
ISO 13605 |
|
Sulfur as SO4 (sulfate)
|
ISO 157 |
|
Moisture, total
|
ISO 5068-1 |
|
Preparation
|
ISO 5069 |
|
Moisture, inherent of analysis sample
|
ISO 5068-2 |
|
Sulfur as sulfide
|
ISO 157 |
|
Sulfur as disulfide (pyrite)
|
ISO 157 |
|
Carbon, total
|
ISO 29541 |
|
Carbon as carbonate
|
ISO 925 |
|
Calorific value at constant volume (gross) Hov
|
ISO 1928 |
|
Calorific value at constant volume (net) Huv
|
ISO 1928 |
|
Calorific value at constant pressure (net) Hup
|
ISO 1928 |
|
Fusibility of ash, oxidising atmosphere
|
ISO 540 |
|
Deformation temperature (DT)
|
ISO 540 |
|
Sphere temperature (ST)
|
ISO 540 |
|
Hemisphere temperature (HT)
|
ISO 540 |
|
Flow temperature (FT)
|
ISO 540 |
|
Decomposition method
|
DIN 22022 |
|
Ash (major elements)
|
Ash 815 °C |
|
Silicon dioxide
|
ISO 13605 |
|
Aluminium oxide
|
ISO 13605 |
|
Sodium oxide
|
ISO 13605 |
|
Titanium oxide
|
ISO 13605 |
|
Manganese(II)oxide
|
ISO 13605 |
|
Barium oxide
|
ISO 13605 |
|
Strontium oxide
|
ISO 13605 |
|
Iron(III)oxide
|
ISO 13605 |
|
Ash 815 °C
|
ISO 1171 |
|
Volatile matter 900 °C
|
ISO 562 |
Charcoal |
Nitrogen
|
ISO 29541 |
|
Hydrogen
|
ISO 29541 |
|
Sulfur, total
|
ISO 19579 |
|
Sulfur as SO4 (sulfate)
|
ISO 157 |
|
Moisture, total
|
ISO 589 |
|
Preparation
|
ISO 18283 |
|
Moisture, inherent of analysis sample
|
ISO 11722 |
|
Sulfur as sulfide
|
ISO 157 |
|
Sulfur as disulfide (pyrite)
|
ISO 157 |
|
Carbon, total
|
ISO 29541 |
|
Calorific value at constant volume (gross) Hov
|
ISO 1928 |
|
Calorific value at constant pressure (net) Hup
|
ISO 1928 |
|
Volitile matter 900 °C
|
ISO 562 |
|
Ash 710 °C
|
ISO 1171 |
Petroleum coke |
Calcium
|
ISO 12980 |
|
Sodium
|
ISO 12980 |
|
Nickel
|
ISO 12980 |
|
Zinc
|
ISO 12980 |
|
Nitrogen
|
ISO 29541 |
|
Calcium oxide
|
ISO 12980 |
|
Phosphorus pentoxide
|
ISO 12980 |
|
Potassium oxide
|
ISO 12980 |
|
Vanadium
|
ISO 12980 |
|
Density
|
ISO 9088 |
|
|
ISO 21687 |
|
Iron
|
ISO 12980 |
|
Phosphorus
|
ISO 12980 |
|
Hydrogen
|
ISO 29541 |
|
Silicon
|
ISO 12980 |
|
Titanium
|
ISO 12980 |
|
Sulfur trioxide
|
ISO 12980 |
|
Sulfur, total
|
ISO 19579 |
|
Magnesium oxide
|
ISO 12980 |
|
Moisture, total
|
ISO 589 |
|
Preparation
|
DIN 51940 |
|
Moisture, inherent of analysis sample
|
ISO 11722 |
|
Carbon, total
|
ISO 29541 |
|
Calorific value at constant volume (gross) Hov
|
ISO 1928 |
|
Calorific value at constant pressure (net) Hup
|
ISO 1928 |
|
Ash (major elements)
|
Ash 815 °C |
|
Silicon dioxide
|
ISO 12980 |
|
Aluminium oxide
|
ISO 12980 |
|
Sodium oxide
|
ISO 12980 |
|
Titanium oxide
|
ISO 12980 |
|
Manganese(II)oxide
|
ISO 12980 |
|
Barium oxide
|
ISO 12980 |
|
Strontium oxide
|
ISO 12980 |
|
Iron(III)oxide
|
ISO 12980 |
|
Bulk density (tapped) 1-2 mm
|
ISO 10236 |
|
Electrical resistance
|
ISO 10143 |
|
Reactivity towards carbon dioxide
|
ISO 12981-1 |
|
Reactivity towards air
|
ISO 12981-1 |
|
Dedusting substances
|
DIN 51933 |
|
Ash 815 °C
|
ISO 1171 |
|
Volatile matter 900 °C
|
ISO 562 |
Hardcoal |
Arsenic
|
ISO 11723 |
|
Selenium
|
ISO 11723 |
|
Mercury
|
ISO 15237 |
|
Nitrogen
|
ISO 29541 |
|
Calcium oxide
|
ISO 13605 |
|
Phosphorus pentoxide
|
ISO 13605 |
|
Potassium oxide
|
ISO 13605 |
|
Thallium
|
ISO 17294 |
|
Fluorine
|
ISO 11724 |
|
Hydrogen
|
ISO 29541 |
|
Minerals
|
ISO 7404-4 |
|
Chlorine
|
ISO 352 |
|
Sulfur trioxide
|
ISO 13605 |
|
Sulfur, total
|
ISO 19579 |
|
Magnesium oxide
|
ISO 13605 |
|
Sulfur as SO4 (sulfate)
|
ISO 157 |
|
Moisture, residual
|
ISO 589 |
|
Moisture, total
|
ISO 589 |
|
Preparation
|
ISO 13909 |
|
|
ISO 589 |
|
Moisture, free
|
ISO 589 |
|
Moisture, inherent of analysis sample
|
ISO 11722 |
|
Sulfur as sulfide
|
ISO 157 |
|
Sulfur as disulfide (pyrite)
|
ISO 157 |
|
Carbon, total
|
ISO 29541 |
|
Carbon as carbonate
|
ISO 925 |
|
Calorific value at constant volume (gross) Hov
|
ISO 1928 |
|
Calorific value at constant volume (net) Huv
|
ISO 1928 |
|
Calorific value at constant pressure (net) Hup
|
ISO 1928 |
|
Hardgrove index
|
ISO 5074 |
|
Fusibility of ash, oxidising atmosphere
|
Ash 815 °C |
|
Deformation temperature (DT)
|
ISO 540 |
|
Sphere temperature (ST)
|
ISO 540 |
|
Hemisphere temperature (HT)
|
ISO 540 |
|
Flow temperature (FT)
|
ISO 5074 |
|
Decomposition method
|
DIN 22022 |
|
Ash (major elements)
|
Ash 815 °C |
|
Silicon dioxide
|
ISO 13605 |
|
Aluminium oxide
|
ISO 13605 |
|
Sodium oxide
|
ISO 13605 |
|
Titanium oxide
|
ISO 13605 |
|
Manganese(II)oxide
|
ISO 13605 |
|
Barium oxide
|
ISO 13605 |
|
Strontium oxide
|
ISO 13605 |
|
Coal petrology (Maceral group analysis)
|
ISO 7404-4 |
|
Vitrinite
|
ISO 7404-4 |
|
Inertinite
|
ISO 7404-4 |
|
Liptinite (exinite)
|
ISO 7404-4 |
|
Rm reflectance on vitrinite main population
|
ISO 7404-5 |
|
Standard deviation 2s
|
ISO 7404-5 |
|
Number points
|
ISO 7404-5 |
|
Rm reflectance on vitrinite whole population
|
ISO 7404-5 |
|
Sum
|
ISO 7404-4 |
|
Ash 815 °C
|
ISO 1171 |
|
Volatile matter 900 °C
|
ISO 562 |
Coke <10 mm |
Nitrogen
|
ISO 29541 |
|
Calcium oxide
|
ISO 13605 |
|
Phosphorus pentoxide
|
ISO 13605 |
|
Potassium oxide
|
ISO 13605 |
|
Phosphorus
|
ISO 622 |
|
Hydrogen
|
ISO 29541 |
|
Sulfur trioxide
|
ISO 13605 |
|
Sulfur, total
|
ISO 19579 |
|
Magnesium oxide
|
ISO 13605 |
|
Moisture, total
|
ISO 589 |
|
Preparation
|
ISO 18283 |
|
Moisture, inherent of analysis sample
|
ISO 11722 |
|
Carbon, total
|
ISO 29541 |
|
Calorific value at constant volume (gross) Hov
|
ISO 1928 |
|
Calorific value at constant volume (net) Huv
|
ISO 1928 |
|
Calorific value at constant pressure (net) Hup
|
ISO 1928 |
|
Ash (major elements)
|
ISO 13605 |
|
Silicon dioxide
|
ISO 13605 |
|
Aluminium oxide
|
ISO 13605 |
|
Sodium oxide
|
ISO 13605 |
|
Titanium oxide
|
ISO 13605 |
|
Manganese(II)oxide
|
ISO 13605 |
|
Barium oxide
|
ISO 13605 |
|
Strontium oxide
|
ISO 13605 |
|
Iron(III)oxide
|
ISO 13605 |
|
Ash 815 °C
|
ISO 1171 |
|
Volatile matter 900 °C
|
ISO 562 |
Coke 19-22.4 mm |
Moisture, total
|
ISO 589 |
|
Preparation
|
ISO 18283 |
|
Coke reactivity index (CRI)
|
ISO 18894 |
|
Coke strength after reaction (CSR)
|
ISO 18894 |
Furnace coke >40 mm |
Moisture, total
|
ISO 589 |
|
Preparation
|
ISO 18283 |
|
IRSID strength index I10
|
ISO 556 |
|
IRSID strength index I40
|
ISO 556 |
|
MICUM 10
|
ISO 556 |
|
MICUM 40
|
ISO 556 |
Ash (hard coal or lignite) |
Calcium oxide
|
ISO 13605 |
|
Phosphorus pentoxide
|
ISO 13605 |
|
Potassium oxide
|
ISO 13605 |
|
Sulfur trioxide
|
ISO 13605 |
|
Magnesium oxide
|
ISO 13605 |
|
Ash (major elements)
|
ISO 13605 |
|
Silicon dioxide
|
ISO 13605 |
|
Aluminium oxide
|
ISO 13605 |
|
Sodium oxide
|
ISO 13605 |
|
Titanium oxide
|
ISO 13605 |
|
Manganese(II)oxide
|
ISO 13605 |
|
Barium oxide
|
ISO 13605 |
|
Strontium oxide
|
ISO 13605 |
|
Iron(III)oxide
|
ISO 13605 |
Hard coal fly ash |
Arsenic
|
ISO 11885 |
|
Cadmium
|
ISO 11885 |
|
Nickel
|
ISO 11885 |
|
Lead
|
ISO 11885 |
|
Copper
|
ISO 11885 |
|
Zinc
|
ISO 11885 |
|
Antimony
|
ISO 11885 |
|
Mercury
|
EN 1483 |
|
Manganese
|
ISO 11885 |
|
Potassium oxide
|
EN 196-2 |
|
Thallium
|
ISO 11885 |
|
Vanadium
|
ISO 11885 |
|
Tin
|
ISO 11885 |
|
Chromium
|
ISO 11885 |
|
Chlorine
|
EN 196-2 |
|
Titanium
|
ISO 11885 |
|
Sulfur trioxide
|
ISO 10694 |
|
Calcium oxide (free)
|
EN 196-2 |
|
Moisture, total
|
ISO 589 |
|
Preparation
|
EN 196-2 |
|
Moisture, inherent of analysis sample
|
ISO 11722 |
|
Carbon, total
|
ISO 29541 |
|
Decomposition method
|
EN 13657 (aqua regia) |
|
Sodium oxide
|
EN 196-2 |
|
Bulk density (tapped) 1-2 mm
|
ISO 787-11 |
|
Loss on combustion
|
EN 196-2 |
|
Calcium oxide, total
|
EN 196-2 |
|
Sodium oxide (equivalent)
|
EN 196-2 |
|
Ammonia steam destillation
|
VGB 4.4.2 (1-87) |
|
Phosphorus pentoxide, dissoluble
|
EN 450 |
|
Bulk density of solid particles
|
EN 196-2 |
|
Particle size >0.045 mm
|
EN 933-10 |
Sewage sludge, dry |
Adsorbable organically bound halogens (AOX)
|
DIN 38414-S18 |
|
Arsenic
|
ISO 17294-2 |
|
Cadmium
|
ISO 17294-2 |
|
Nickel
|
ISO 17294-2 |
|
Lead
|
ISO 17294-2 |
|
Copper
|
ISO 17294-2 |
|
Zinc
|
ISO 17294-2 |
|
Aluminium
|
ISO 17294-2 |
|
Antimony
|
ISO 17294-2 |
|
Mercury
|
EN 1483 |
|
Nitrogen
|
ISO 29541 |
|
Manganese
|
ISO 17294-2 |
|
Cobalt
|
ISO 17294-2 |
|
Thallium
|
ISO 17294-2 |
|
Vanadium
|
ISO 17294-2 |
|
Tin
|
ISO 17294-2 |
|
Fluorine
|
EN 14582 |
|
Phosphorus
|
ISO 17294-2 |
|
Hydrogen
|
ISO 29541 |
|
Chromium
|
ISO 17294-2 |
|
Chlorine
|
EN 14582 |
|
Titanium
|
ISO 17294-2 |
|
Sulfur, total
|
ISO 19579 |
|
PCB 28
|
EN 15308 |
|
PCB 52
|
EN 15308 |
|
PCB 101
|
EN 15308 |
|
PCB 138
|
EN 15308 |
|
PCB 180
|
EN 15308 |
|
Moisture, total
|
ISO 589 |
|
Moisture, inherent of analysis sample
|
ISO 11722 |
|
Carbon, total
|
ISO 29541 |
|
Calorific value at constant volume (gross) Hov
|
EN 15170 |
|
Calorific value at constant pressure (net) Hup
|
EN 15170 |
|
Decomposition method
|
Aqua regia digestion |
|
Loss on combustion @ 550 °C
|
EN 12879 |
|
Loss on combustion @ 815 °C
|
ISO 1171 |
|
Ash 815 °C
|
ISO 1171 |
|
Volitile matter 900 °C
|
ISO 562 |
|
PCB 150
|
EN 15308 |
Wood chips |
Arsenic
|
EN 15297 |
|
Cadmium
|
EN 15297 |
|
Nickel
|
EN 15297 |
|
Lead
|
EN 15297 |
|
Copper
|
EN 15297 |
|
Zinc
|
EN 15297 |
|
Aluminium
|
EN 15297 |
|
Antimony
|
EN 15297 |
|
Mercury
|
EN 15297 |
|
Nitrogen
|
EN 15104 |
|
Manganese
|
EN 15297 |
|
Calcium oxide
|
EN 15290 |
|
Phosphorus pentoxide
|
EN 15290 |
|
Potassium oxide
|
EN 15290 |
|
Cobalt
|
EN 15297 |
|
Thallium
|
EN 15297 |
|
Vanadium
|
EN 15297 |
|
Tin
|
EN 15297 |
|
Fluorine
|
ISO 11724 |
|
Iron
|
EN 15297 |
|
Hydrogen
|
EN 15104 |
|
Chromium
|
EN 15297 |
|
Chlorine
|
EN 15289 |
|
Sulfur trioxide
|
EN 15290 |
|
Sulfur, total
|
EN 15289 |
|
Magnesium oxide
|
EN 15290 |
|
Moisture, total
|
EN 14774-1 |
|
Preparation
|
EN 14780 |
|
Moisture, inherent of analysis sample
|
EN 14774-3 |
|
Carbon, total
|
EN 15104 |
|
Calorific value at constant volume (gross) Hov
|
EN 14918 |
|
Calorific value at constant pressure (net) Hup
|
EN 14918 |
|
Fusibility of ash, oxidising atmosphere
|
Ash 550 °C |
|
Deformation temperature (DT)
|
EN 15370-1 |
|
Hemisphere temperature (HT)
|
EN 15370-1 |
|
Flow temperature (FT)
|
EN 15370-1 |
|
Decomposition method
|
EN 15297 |
|
Ash (major elements)
|
Ash 550 °C |
|
Silicon dioxide
|
EN 15290 |
|
Aluminium oxide
|
EN 15290 |
|
Sodium oxide
|
EN 15290 |
|
Titanium oxide
|
EN 15290 |
|
Manganese(II)oxide
|
EN 15290 |
|
Barium oxide
|
EN 15290 |
|
Strontium oxide
|
EN 15290 |
|
Iron(III)oxide
|
EN 15290 |
|
Ash 815 °C
|
ISO 1171 |
|
Ash 550 °C
|
EN 14775 |
|
Shrinkage starting temperature (SST)
|
EN 15370-1 |
|
Volatile matter 900 °C
|
EN 15148 |
Wood pellets |
Arsenic
|
EN 15297 |
|
Cadmium
|
EN 15297 |
|
Nickel
|
EN 15297 |
|
Lead
|
EN 15297 |
|
Copper
|
EN 15297 |
|
Zinc
|
EN 15297 |
|
Aluminium
|
EN 15297 |
|
Antimony
|
EN 15297 |
|
Mercury
|
EN 15297 |
|
Nitrogen
|
EN 15104 |
|
Manganese
|
EN 15297 |
|
Calcium oxide
|
EN 15290 |
|
Phosphorus pentoxide
|
EN 15290 |
|
Potassium oxide
|
EN 15290 |
|
Extractable Organic Halogens (EOX)
|
DIN 38414-S18 |
|
Cobalt
|
EN 15297 |
|
Thallium
|
EN 15297 |
|
Vanadium
|
EN 15297 |
|
Tin
|
EN 15297 |
|
Fluorine
|
ISO 11724 |
|
Iron
|
EN 15297 |
|
Hydrogen
|
EN 15104 |
|
Chromium
|
EN 15297 |
|
Chlorine
|
EN 15289 |
|
Diameter
|
EN 16127 |
|
Sulfur trioxide
|
EN 15290 |
|
Sulfur, total
|
EN 15289 |
|
Magnesium oxide
|
EN 15290 |
|
Density, bulk
|
EN 15103 |
|
Moisture, total
|
EN 14774-1 |
|
Preparation
|
EN 14780 |
|
Moisture, inherent of analysis sample
|
EN 14774-3 |
|
Carbon, total
|
EN 15104 |
|
Calorific value at constant volume (gross) Hov
|
EN 14918 |
|
Calorific value at constant pressure (net) Hup
|
EN 14918 |
|
Fusibility of ash, oxidising atmosphere
|
Ash 550 °C |
|
Deformation temperature (DT)
|
EN 15370-1 |
|
Hemisphere temperature (HT)
|
EN 15370-1 |
|
Flow temperature (FT)
|
EN 15370-1 |
|
Decomposition method
|
EN 15297 |
|
Ash (major elements)
|
Ash 550 °C |
|
Silicon dioxide
|
EN 15290 |
|
Aluminium oxide
|
EN 15290 |
|
Sodium oxide
|
EN 15290 |
|
Titanium oxide
|
EN 15290 |
|
Manganese(II)oxide
|
EN 15290 |
|
Barium oxide
|
EN 15290 |
|
Strontium oxide
|
EN 15290 |
|
Iron(III)oxide
|
EN 15290 |
|
Ash 815 °C
|
ISO 1171 |
|
Volitile matter 900 °C
|
EN 15148 |
|
Ash 550 °C
|
EN 14775 |
|
Shrinkage starting temperature (SST)
|
EN 15370-1 |
|
Particle density
|
EN 15150 |
|
Abrasion <3.15 mm (LIGNO test)
|
LIGNO test |
|
Mechanical durability
|
EN 15210 |
Olive kernels, palm kernels, ground coffee |
Arsenic
|
EN 15297 |
|
Cadmium
|
EN 15297 |
|
Nickel
|
EN 15297 |
|
Lead
|
EN 15297 |
|
Copper
|
EN 15297 |
|
Zinc
|
EN 15297 |
|
Aluminium
|
EN 15297 |
|
Antimony
|
EN 15297 |
|
Mercury
|
EN 15297 |
|
Nitrogen
|
EN 15104 |
|
Manganese
|
EN 15297 |
|
Calcium oxide
|
EN 15290 |
|
Phosphorus pentoxide
|
EN 15290 |
|
Potassium oxide
|
EN 15290 |
|
Cobalt
|
EN 15297 |
|
Thallium
|
EN 15297 |
|
Vanadium
|
EN 15297 |
|
Tin
|
EN 15297 |
|
Fluorine
|
ISO 11724 |
|
Iron
|
EN 15297 |
|
Hydrogen
|
EN 15104 |
|
Chromium
|
EN 15297 |
|
Chlorine
|
EN 15289 |
|
Sulfur trioxide
|
EN 15290 |
|
Sulfur, total
|
EN 15289 |
|
Magnesium oxide
|
EN 15290 |
|
Moisture, total
|
EN 14774-1 |
|
Preparation
|
EN 14780 |
|
Moisture, inherent of analysis sample
|
EN 14774-3 |
|
Carbon, total
|
EN 15104 |
|
Calorific value at constant volume (gross) Hov
|
EN 14918 |
|
Calorific value at constant pressure (net) Hup
|
EN 14918 |
|
Fusibility of ash, oxidising atmosphere
|
Ash 550 °C |
|
Deformation temperature (DT)
|
EN 15370-1 |
|
Hemisphere temperature (HT)
|
EN 15370-1 |
|
Flow temperature (FT)
|
EN 15370-1 |
|
Decomposition method
|
EN 15297 |
|
Ash (major elements)
|
Ash 550 °C |
|
Silicon dioxide
|
EN 15290 |
|
Aluminium oxide
|
EN 15290 |
|
Sodium oxide
|
EN 15290 |
|
Titanium oxide
|
EN 15290 |
|
Manganese(II)oxide
|
EN 15290 |
|
Barium oxide
|
EN 15290 |
|
Strontium oxide
|
EN 15290 |
|
Iron(III)oxide
|
EN 15290 |
|
Ash 815 °C
|
ISO 1171 |
|
Ash 550 °C
|
EN 14775 |
|
Shrinkage starting temperature (SST)
|
EN 15370-1 |
|
Volatile matter 900 °C
|
EN 15148 |
Fuels, solid recovered |
Arsenic
|
EN 15411 |
|
Cadmium
|
EN 15411 |
|
Nickel
|
EN 15411 |
|
Lead
|
EN 15411 |
|
Copper
|
EN 15411 |
|
Zinc
|
EN 15411 |
|
Aluminium
|
EN 15411 |
|
Antimony
|
EN 15411 |
|
Mercury
|
EN 15411 |
|
Nitrogen
|
EN 15407 |
|
Manganese
|
EN 15411 |
|
Calcium oxide
|
EN 15410 |
|
Phosphorus pentoxide
|
EN 15410 |
|
Potassium oxide
|
EN 15410 |
|
Extractable Organic Halogens (EOX)
|
DIN 38414-S18 |
|
Cobalt
|
EN 15411 |
|
Thallium
|
EN 15411 |
|
Vanadium
|
EN 15411 |
|
Tin
|
EN 15411 |
|
Fluorine
|
EN 15408 |
|
Hydrogen
|
EN 15407 |
|
Chromium
|
EN 15411 |
|
Chlorine
|
EN 15408 |
|
Sulfur trioxide
|
EN 15410 |
|
Sulfur, total
|
EN 15408 |
|
Magnesium oxide
|
EN 15410 |
|
Moisture, total
|
EN 15414 |
|
Preparation
|
EN 15413 |
|
Carbon, total
|
EN 15407 |
|
Calorific value at constant volume (gross) Hov
|
EN 15400 |
|
Calorific value at constant pressure (net) Hup
|
EN 15400 |
|
Fusibility of ash, oxidising atmosphere
|
Ash 550 °C |
|
Deformation temperature (DT)
|
EN 15404 |
|
Hemisphere temperature (HT)
|
EN 15404 |
|
Flow temperature (FT)
|
EN 15404 |
|
Decomposition method
|
EN 15411 |
|
Ash (major elements)
|
Ash 550 °C |
|
Silicon dioxide
|
EN 15410 |
|
Aluminium oxide
|
EN 15410 |
|
Sodium oxide
|
EN 15410 |
|
Titanium oxide
|
EN 15410 |
|
Manganese(II)oxide
|
EN 15410 |
|
Barium oxide
|
EN 15410 |
|
Strontium oxide
|
EN 15410 |
|
Iron(III)oxide
|
EN 15410 |
|
Ash 550 °C
|
EN 15403 |
|
Shrinkage starting temperature (SST)
|
EN 15404 |
|
Volatile matter 900 °C
|
EN 15402 |
|
Carbon, total inorganic (TIC)
|
EN 13137 |
|
Carbon, total organic (TOC)
|
EN 13137 |
|
Biomass content
|
EN 15440 |
|
Non-biomass content
|
EN 15440 |
|
Aluminium, metallic
|
EN 15411 |