| ACT - Advanced Cement Technology |
Decarbonisation
, Energy efficiency
, Water efficiency
, Material efficiency (Reduction of raw material consumption or waste generation)
, Reduction of emissions to air (including noise and odour)
|
8 |
3.1a Production of cement, lime and magnesium oxide: production of cement clinker in rotary kilns
|
Under construction |
| Recovery and use of waste heat for decarbonisation of flat glass production - IDENTIFIED BY INCITE |
Decarbonisation
, Energy efficiency
|
9 |
3.3 Manufacture of glass including glass fibre with a melting capacity exceeding 20 tonnes per day
|
Under construction |
| Hybrid electric and fossil-fuel fired regenerative furnace - IDENTIFIED BY INCITE |
Decarbonisation
, Energy efficiency
|
7 |
3.3 Manufacture of glass including glass fibre with a melting capacity exceeding 20 tonnes per day
|
Under construction |
| Use of green hydrogen to power furnaces during steel production - IDENTIFIED BY INCITE |
Decarbonisation
|
9 |
2.2 Production of pig iron or steel (primary or secondary fusion) exceeding 2,5 tonnes per hour
|
Under construction |
| Cryogenic capture of CO2 in large scale clinker production - IDENTIFIED BY INCITE |
Decarbonisation
|
7 |
3.1b Production of cement, lime and magnesium oxide: production of lime in kilns (exceeding 50 tonnes per day)
|
Under construction |
| 100MW PEM electrolyzer to produce Hydrogen and Oxygen - IDENTIFIED BY INCITE |
Decarbonisation
|
7 |
1.2 Refining of mineral oil and gas
|
Under construction |
| Hydrogen combustion equipment for industrial high temperature processes - IDENTIFIED BY INCITE |
Decarbonisation
|
7 |
2.2 Production of pig iron or steel (primary or secondary fusion) exceeding 2,5 tonnes per hour
, 2.3a Processing of ferrous metals: operation of hot-rolling mills with a capacity exceeding 20 tonnes of crude steel per hour
, 2.5a Processing of non-ferrous metals: production of non-ferrous crude metals
|
Under development / testing |
| Waste recycling and production of alternative fuel from unrecycable fractions - IDENTIFIED BY INCITE |
Material efficiency (Reduction of raw material consumption or waste generation)
, Circular economy (e.g. recovery/reuse/recycling of residues, industrial symbiosis)
, Reduction of emissions to water, soil or groundwater
, Reduction of emissions to air (including noise and odour)
|
9 |
5.3b Recovery, or a mix of recovery and disposal, of non-hazardous waste with a capacity exceeding 75 tonnes per day
|
Under development / testing |
| Full-scale BECCS with hot potassium carbonate technology - IDENTIFIED BY INCITE |
Decarbonisation
, Energy efficiency
|
8 |
1.1 Combustion of fuels in installations with a total rated thermal input of 50 MW or more
|
Under construction |
| Carbon capture technology for decarbonization of kiln cement production - IDENTIFIED BY INCITE |
Decarbonisation
, Reduction of emissions to air (including noise and odour)
|
9 |
3.1b Production of cement, lime and magnesium oxide: production of lime in kilns (exceeding 50 tonnes per day)
|
Under development / testing |
| Carbon capture and storage in glass manufacturing - IDENTIFIED BY INCITE |
Decarbonisation
|
8 |
3.3 Manufacture of glass including glass fibre with a melting capacity exceeding 20 tonnes per day
|
Planned |
| Carbon capture and storage for lime production - IDENTIFIED BY INCITE |
Decarbonisation
, Reduction of emissions to air (including noise and odour)
|
9 |
3.1b Production of cement, lime and magnesium oxide: production of lime in kilns (exceeding 50 tonnes per day)
|
Under development / testing |
| Plasma reactor for processing coarse residues - IDENTIFIED BY INCITE |
Circular economy (e.g. recovery/reuse/recycling of residues, industrial symbiosis)
|
8 |
2.2 Production of pig iron or steel (primary or secondary fusion) exceeding 2,5 tonnes per hour
|
Under development / testing |
| Use of green hydrogen to power the iron reduction process during steel production - IDENTIFIED BY INCITE |
Decarbonisation
, Reduction of emissions to air (including noise and odour)
|
9 |
2.2 Production of pig iron or steel (primary or secondary fusion) exceeding 2,5 tonnes per hour
|
Under development / testing |
| Pretreatment and upgrading of liquefied waste plastic - IDENTIFIED BY INCITE |
Material efficiency (Reduction of raw material consumption or waste generation)
, Circular economy (e.g. recovery/reuse/recycling of residues, industrial symbiosis)
|
7 |
4.1.(a) Production of organic chemicals, such as: simple hydrocarbons
, 4.1.(b) Production of organic chemicals, such as: oxygen-containing hydrocarbons
|
Under construction |
| Novel hybrid wool glass furnace at industrial scale - IDENTIFIED BY INCITE |
Decarbonisation
, Energy efficiency
|
9 |
3.3 Manufacture of glass including glass fibre with a melting capacity exceeding 20 tonnes per day
|
Planned |
| Per and polyfluorinated alkyl substances in groundwater: water treatment for industrial use in the surface finishing industry - IDENTIFIED BY INCITE |
Reduction of emissions to water, soil or groundwater
|
6 |
2.6 Surface treatment of metals or plastic materials using an electrolytic or chemical process (vats exceeds 30 m3)
|
Under development / testing |
| Recovery of synthetic fluorspar starting from agricultural waste - IDENTIFIED BY INCITE |
Circular economy (e.g. recovery/reuse/recycling of residues, industrial symbiosis)
|
8 |
4.2d Production of inorganic chemicals, such as salts
, 5.3b Recovery, or a mix of recovery and disposal, of non-hazardous waste with a capacity exceeding 75 tonnes per day
|
Planned |
| Recycling of unsorted heterogeneous plastic waste - IDENTIFIED BY INCITE |
Circular economy (e.g. recovery/reuse/recycling of residues, industrial symbiosis)
|
7 |
5.2a Disposal or recovery of waste in waste incineration plants or in waste co-incineration plants (no exceeding 3 tonnes p/h)
|
Under development / testing |
| Direct reduction of iron ore using hydrogen - HYBRIT - IDENTIFIED BY INCITE |
Decarbonisation
|
9 |
2.2 Production of pig iron or steel (primary or secondary fusion) exceeding 2,5 tonnes per hour
|
Planned |
| Conversion of CO2 emissions from waste incineration into formic acid via an electrochemical process - IDENTIFIED BY INCITE |
Circular economy (e.g. recovery/reuse/recycling of residues, industrial symbiosis)
|
6 |
6.11. Independently operated treatment of waste water not covered by Directive 91/271/EEC and discharged by an installation
|
Under development / testing |
| Mechano-chemical activation of clays for Supplementary Cementitious Material production |
Decarbonisation
, Material efficiency (Reduction of raw material consumption or waste generation)
, Reduction of emissions to air (including noise and odour)
|
8 |
3.1a Production of cement, lime and magnesium oxide: production of cement clinker in rotary kilns
|
Under construction |
