2012/134/EU: Commission Implementing Decision of 28 February 2012 establishing th... (32012D0134)
INHALT
2012/134/EU: Commission Implementing Decision of 28 February 2012 establishing the best available techniques (BAT) conclusions under Directive 2010/75/EU of the European Parliament and of the Council on industrial emissions for the manufacture of glass (notified under document C(2012) 865) Text with EEA relevance
- COMMISSION IMPLEMENTING DECISION
- of 28 February 2012
- establishing the best available techniques (BAT) conclusions under Directive 2010/75/EU of the European Parliament and of the Council on industrial emissions for the manufacture of glass
- (notified under document C(2012) 865)
- (Text with EEA relevance)
- (2012/134/EU)
- Article 1
- Article 2
- ANNEX
- BAT CONCLUSIONS FOR THE MANUFACTURE OF GLASS
- SCOPE
- DEFINITIONS
- GENERAL CONSIDERATIONS
- Averaging periods and reference conditions for air emissions
- Conversion to reference oxygen concentration
- Conversion from concentrations to specific mass emissions
- DEFINITIONS FOR CERTAIN AIR POLLUTANTS
- AVERAGING PERIODS FOR WASTE WATER DISCHARGES
- 1.1.
- General BAT conclusions for the manufacture of glass
- 1.1.1.
- Environmental management systems
- Applicability
- 1.1.2.
- Energy efficiency
- 1.1.3.
- Materials storage and handling
- 1.1.4.
- General primary techniques
- Applicability
- Monitoring
- 1.1.5.
- Emissions to water from glass manufacturing processes
- 1.1.6.
- Waste from the glass manufacturing processes
- 1.1.7.
- Noise from the glass manufacturing processes
- 1.2.
- BAT conclusions for container glass manufacturing
- 1.2.1.
- Dust emissions from melting furnaces
- 1.2.2.
- Nitrogen oxides (NO
- X
- ) from melting furnaces
- 1.2.3.
- Sulphur oxides (SO
- X
- ) from melting furnaces
- 1.2.4.
- Hydrogen chloride (HCl) and hydrogen fluoride (HF) from melting furnaces
- 1.2.5.
- Metals from melting furnaces
- 1.2.6.
- Emissions from downstream processes
- 1.3.
- BAT conclusions for flat glass manufacturing
- 1.3.1.
- Dust emissions from melting furnaces
- 1.3.2.
- Nitrogen oxides (NO
- X
- ) from melting furnaces
- 1.3.3.
- Sulphur oxides (SO
- X
- ) from melting furnaces
- 1.3.4.
- Hydrogen chloride (HCl) and hydrogen fluoride (HF) from melting furnaces
- 1.3.5.
- Metals from melting furnaces
- 1.3.6.
- Emissions from downstream processes
- 1.4.
- BAT conclusions for continuous filament glass fibre manufacturing
- 1.4.1.
- Dust emissions from melting furnaces
- 1.4.2.
- Nitrogen oxides (NO
- X
- ) from melting furnaces
- 1.4.3.
- Sulphur oxides (SO
- X
- ) from melting furnaces
- 1.4.4.
- Hydrogen chloride (HCl) and hydrogen fluoride (HF) from melting furnaces
- 1.4.5.
- Metals from melting furnaces
- 1.4.6.
- Emissions from downstream processes
- 1.5.
- BAT conclusions for domestic glass manufacturing
- 1.5.1.
- Dust emissions from melting furnaces
- 1.5.2.
- Nitrogen oxides (NO
- X
- ) from melting furnaces
- 1.5.3.
- Sulphur oxides (SO
- X
- ) from melting furnaces
- 1.5.4.
- Hydrogen chloride (HCl) and hydrogen fluoride (HF) from melting furnaces
- 1.5.5.
- Metals from melting furnaces
- 1.5.6.
- Emissions from downstream processes
- 1.6.
- BAT conclusions for special glass manufacturing
- 1.6.1.
- Dust emissions from melting furnaces
- 1.6.2.
- Nitrogen oxides (NO
- X
- ) from melting furnaces
- 1.6.3.
- Sulphur oxides (SO
- X
- ) from melting furnaces
- 1.6.4.
- Hydrogen chloride (HCl) and hydrogen fluoride (HF) from melting furnaces
- 1.6.5.
- Metals from melting furnaces
- 1.6.6.
- Emissions from downstream processes
- 1.7.
- BAT conclusions for mineral wool manufacturing
- 1.7.1.
- Dust emissions from melting furnaces
- 1.7.2.
- Nitrogen oxides (NO
- X
- ) from melting furnaces
- 1.7.3.
- Sulphur oxides (SO
- X
- ) from melting furnaces
- 1.7.4.
- Hydrogen chloride (HCl) and hydrogen fluoride (HF) from melting furnaces
- 1.7.5.
- Hydrogen sulphide (H
- 2
- S) from stone wool melting furnaces
- 1.7.6.
- Metals from melting furnaces
- 1.7.7.
- Emissions from downstream processes
- 1.8.
- BAT conclusions for high temperature insulation wools (HTIW) manufacturing
- 1.8.1.
- Dust emissions from melting and downstream processes
- 1.8.2.
- Nitrogen oxides (NO
- X
- ) from melting and downstream processes
- 1.8.3.
- Sulphur oxides (SO
- X
- ) from melting and downstream processes
- 1.8.4.
- Hydrogen chloride (HCl) and hydrogen fluoride (HF) from melting furnaces
- 1.8.5.
- Metals from melting furnaces and downstream processes
- 1.8.6.
- Volatile organic compounds from downstream processes
- 1.9.
- BAT conclusions for frits manufacturing
- 1.9.1.
- Dust emissions from melting furnaces
- 1.9.2.
- Nitrogen oxides (NO
- X
- ) from melting furnaces
- 1.9.3.
- Sulphur oxides (SO
- X
- ) from melting furnaces
- 1.9.4.
- Hydrogen chloride (HCl) and hydrogen fluoride (HF) from melting furnaces
- 1.9.5.
- Metals from melting furnaces
- 1.9.6.
- Emissions from downstream processes
- Glossary
- 1.10.
- Description of techniques
- 1.10.1.
- Dust emissions
- 1.10.2.
- NO
- X
- emissions
- 1.10.3.
- SO
- X
- emissions
- 1.10.4.
- HCl, HF emissions
- 1.10.5.
- Metal emissions
- 1.10.6.
- Combined gaseous emissions (e.g. SO
- X
- , HCl, HF, boron compounds)
- 1.10.7.
- Combined emissions (solid + gaseous)
- 1.10.8.
- Emissions from cutting, grinding, polishing operations
- 1.10.9.
- H
- 2
- S, VOC emissions
Feedback