Want more? Advanced embedding details, examples, and help! Publication date Usage CC0 1. Org Contributor Public. Org Language English. GHG emissions from the organic basic chemicals production processes are lower than:. Where the organic chemicals in scope are produced wholly or partially from renewable feedstock, the life-cycle GHG emissions of the manufactured chemical, manufactured wholly or partially from renewable feedstock, are lower than the life-cycle GHG emissions of the equivalent chemical manufactured from fossil fuel feedstock.
Forest biomass used for the manufacture of organic basic chemicals complies with the criteria laid down in Article 29, paragraphs 6 and 7 of that Directive. Emissions are within or lower than the emission levels associated with the best available techniques BAT-AEL ranges set out in relevant best available techniques BAT conclusions, including:. Manufacture of anhydrous ammonia.
The activity complies with one of the following criteria:. Manufacture of nitric acid. GHG emissions from the manufacture of nitric acid are lower than 0, tCO2e per tonne of nitric acid. Manufacture of plastics in primary form. Manufacture resins, plastics materials and non-vulcanisable thermoplastic elastomers, the mixing and blending of resins on a custom basis, as well as the manufacture of non-customised synthetic resins.
Forest biomass used for the manufacture of plastics in its primary form complies with the criteria laid down in Article 29, paragraphs 6 and 7, of that Directive. Electricity generation using solar photovoltaic technology. Construction or operation of electricity generation facilities that produce electricity using solar photovoltaic PV technology. The economic activities in this category could be associated with several NACE codes, in particular D The activity generates electricity using solar PV technology.
The activity assesses availability of and, where feasible, uses equipment and components of high durability and recyclability and that are easy to dismantle and refurbish. Electricity generation using concentrated solar power CSP technology. Construction or operation of electricity generation facilities that produce electricity using concentrated solar power CSP technology. The activity generates electricity using CSP technology. Electricity generation from wind power. Construction or operation of electricity generation facilities that produce electricity from wind power.
The activity generates electricity from wind power. The activity complies with the criteria set out in Appendix D to this Annex Electricity generation from ocean energy technologies.
Construction or operation of electricity generation facilities that produce electricity from ocean energy. The activity generates electricity from ocean energy. Electricity generation from hydropower. Construction or operation of electricity generation facilities that produce electricity from hydropower. The activity complies with either of the following criteria:. For operation of existing hydropower plants, including refurbishment activities to enhance renewable energy or energy storage potential, the activity complies with the following criteria:.
Measures include, where relevant and depending on the ecosystems naturally present in the affected water bodies:. The effectiveness of those measures is monitored in the context of the authorisation or permit setting out the conditions aimed at achieving good status or potential of the affected water body. For construction of new hydropower plants, the activity complies with the following criteria:. The assessment is based on recent, comprehensive and accurate data, including monitoring data on biological quality elements that are specifically sensitive to hydromorphological alterations, and on the expected status of the water body as a result of the new activities, as compared to its current one.
It assesses in particular the cumulated impacts of this new project with other existing or planned infrastructure in the river basin. On the basis of that impact assessment, it has been established that the plant is conceived, by design and location and by mitigation measures, so that it complies with one of the following requirements:.
All technically feasible and ecologically relevant mitigation measures are implemented to reduce adverse impacts on water as well as on protected habitats and species directly dependent on water.
Mitigation measures include, where relevant and depending on the ecosystems naturally present in the affected water bodies:.
In addition to the mitigation measures referred to above, and where relevant, compensatory measures are implemented to ensure that the project does not increase the fragmentation of water bodies in the same river basin district. This is achieved by restoring continuity within the same river basin district to an extent that compensates the disruption of continuity, which the planned hydropower plant may cause.
Compensation starts prior to the execution of the project. Electricity generation from geothermal energy. Construction or operation of electricity generation facilities that produce electricity from geothermal energy. Electricity generation from renewable non-fossil gaseous and liquid fuels. Construction or operation of electricity generation facilities that produce electricity using gaseous and liquid fuels of renewable origin.
This activity does not include electricity generation from the exclusive use of biogas and bio-liquid fuels see Section 4. Where facilities incorporate any form of abatement including carbon capture or use of decarbonised fuels , that abatement activity complies with the criteria set out in the relevant Section of this Annex, where applicable. Where the CO2 that would otherwise be emitted from the electricity generation process is captured for the purpose of underground storage, the CO2 is transported and stored underground, in accordance with the technical screening criteria set out in Sections 5.
The activity meets either of the following criteria:. Emissions are within or lower than the emission levels associated with the best available techniques BAT-AEL ranges set out in the latest relevant best available techniques BAT conclusions, including the best available techniques BAT conclusions for large combustion plants Electricity generation from bioenergy.
Construction and operation of electricity generation installations that produce electricity exclusively from biomass, biogas or bioliquids, excluding electricity generation from blending of renewable fuels with biogas or bioliquids see Section 4. Forest biomass used in the activity complies with the criteria laid down in Article 29, paragraphs 6 and 7, of that Directive.
Where the installations rely on anaerobic digestion of organic material, the production of the digestate meets the criteria in Sections 5. Points 1 and 2 do not apply to electricity generation installations with a total rated thermal input below 2 MW and using gaseous biomass fuels. For electricity generation installations with a total rated thermal input from 50 to MW, the activity applies high-efficiency cogeneration technology, or, for electricity-only installations, the activity meets an energy efficiency level associated with the best available techniques BAT-AEL ranges set out in the latest relevant best available techniques BAT conclusions, including the best available techniques BAT conclusions for large combustion plants For electricity generation installations with a total rated thermal input above MW, the activity complies with one or more of the following criteria:.
Where the CO2 that would otherwise be emitted from the electricity generation process is captured for the purpose of underground storage, the CO2 is transported and stored underground in accordance with the technical screening criteria set out in Sections 5.
For anaerobic digestion plants treating over tonnes per day, emissions to air and water are within or lower than the emission levels associated with the best available techniques BAT-AEL ranges set for anaerobic treatment of waste in the latest relevant best available techniques BAT conclusions, including the best available techniques BAT conclusions for waste treatment Transmission and distribution of electricity.
Construction and operation of transmission systems that transport the electricity on the extra high-voltage and high-voltage interconnected system. Construction and operation of distribution systems that transport electricity on high-voltage, medium-voltage and low-voltage distribution systems.
The transmission and distribution infrastructure or equipment is in an electricity system that complies with at least one of the following criteria:. I sensors and measurement tools including meteorological sensors for forecasting renewable production ;. II communication and control including advanced software and control rooms, automation of substations or feeders, and voltage control capabilities to adapt to more decentralised renewable infeed.
For the purposes of this Section, the following specifications apply:. In systems that become non-compliant, no new transmission and distribution activities are compliant from that moment onward, until the system complies again with the threshold except for those activities that are always compliant, see above.
Activities in subordinated systems may still be compliant, where those subordinated systems meet the criteria of this Section;.
A waste management plan is in place and ensures maximal reuse or recycling at end of life in accordance with the waste hierarchy, including through contractual agreements with waste management partners, reflection in financial projections or official project documentation.
Activities do not use PCBs polyclorinated biphenyls. Storage of electricity. Construction and operation of facilities that store electricity and return it at a later time in the form of electricity. The activity includes pumped hydropower storage. The activity is the construction and operation of electricity storage including pumped hydropower storage. Where the activity includes chemical energy storage, the medium of storage such as hydrogen or ammonia complies with the criteria for manufacturing of the corresponding product specified in Sections 3.
In case of using hydrogen as electricity storage, where hydrogen meets the technical screening criteria specified in Section 3. In case of pumped hydropower storage not connected to a river body, the activity complies with the criteria set out in Appendix B to this Annex. In case of pumped hydropower storage connected to a river body, the activity complies with the criteria for DNSH to sustainable use and protection of water and marine resources specified in Section 4.
Storage of thermal energy. Construction and operation of facilities that store thermal energy and return it at a later time in the form of thermal energy or other energy vectors. A waste management plan is in place and ensures maximal reuse, remanufacturing or recycling at end of life, including through contractual agreements with waste management partners, reflection in financial projections or official project documentation.
Storage of hydrogen. Construction and operation of facilities that store hydrogen and return it at a later time. Manufacture of biogas and biofuels for use in transport and of bioliquids. Manufacture of biogas or biofuels for use in transport and of bioliquids. Forest biomass used for the manufacture of biogas or biofuels for use in transport and for the manufacture of bioliquids complies with the criteria laid down in Article 29, paragraphs 6 and 7, of that Directive.
Food-and feed crops are not used for the manufacture of biofuels for use in transport and for the manufacture of bioliquids. Where the manufacture of biogas relies on anaerobic digestion of organic material, the production of the digestate meets the criteria in Sections 5.
Where the CO2 that otherwise would be emitted from the manufacturing process is captured for the purpose of underground storage, the CO2 is transported and stored underground in accordance with the technical screening criteria set out in Sections 5. For biogas production, a gas-tight cover on the digestate storage is applied.
Transmission and distribution networks for renewable and low-carbon gases. Conversion, repurposing or retrofit of gas networks for the transmission and distribution of renewable and low-carbon gases. Construction or operation of transmission and distribution pipelines dedicated to the transport of hydrogen or other low-carbon gases.
The activity consists in one of the following:. The activity includes leak detection and repair of existing gas pipelines and other network elements to reduce methane leakage. Construction, refurbishment and operation of pipelines and associated infrastructure for distribution of heating and cooling, ending at the sub-station or heat exchanger. Installation and operation of electric heat pumps.
The installation and operation of electric heat pumps complies with both of the following criteria:. Where facilities incorporate any form of abatement including carbon capture or use of decarbonised fuels that abatement activity complies with the relevant Sections of this Annex, where applicable. Where the CO2 that would otherwise be emitted from the cogeneration process is captured for the purpose of underground storage, the CO2 is transported and stored underground, in accordance with the technical screening criteria set out in Sections 5.
Forest biomass used in the activity complies with the criteria laid down in Article 29, paragraphs 6 and 7 of that Directive. Where the cogeneration installations rely on anaerobic digestion of organic material, the production of the digestate meets the criteria in Sections 5. Points 1 and 2 do not apply to cogeneration installations with a total rated thermal input below 2 MW and using gaseous biomass fuels.
Where facilities incorporate any form of abatement including carbon capture or use of decarbonised fuels , that abatement activity complies with the relevant Sections of this Annex, where applicable.
Emissions are within or lower than the emission levels associated with the best available techniques BAT-AEL ranges set in the latest relevant best available techniques BAT conclusions, including the best available techniques BAT conclusions for large combustion plants Points 1 and 2 do not apply to heat generation installations with a total rated thermal input below 2 MW and using gaseous biomass fuels. Water supply, sewerage, waste management and remediation. Construction, extension and operation of water collection, treatment and supply systems.
The economic activities in this category could be associated with several NACE codes, in particular E The water supply system complies with one of the following criteria:. Net energy consumption may take into account measures decreasing energy consumption, such as source control pollutant load inputs , and, as appropriate, energy generation such as hydraulic, solar and wind energy ;.
That calculation is to be applied across the extent of water supply distribution network where the works are carried out, i. Renewal of water collection, treatment and supply systems. Renewal of water collection, treatment and supply systems including renewals to water collection, treatment and distribution infrastructures for domestic and industrial needs.
It implies no material changes to the volume of flow collected, treated or supplied. The renewal of the water supply system leads to improved energy efficiency in one of the following ways:. The current leakage level averaged over three years is calculated across the extent of water supply distribution network where the works are carried out, i. Construction, extension and operation of waste water collection and treatment. Construction, extension and operation of centralised waste water systems including collection sewer network and treatment.
The net energy consumption of the waste water treatment plant equals to or is lower than:. Net energy consumption of the operation of the waste water treatment plant may take into account measures decreasing energy consumption relating to source control reduction of storm water or pollutant load inputs , and, as appropriate, energy generation within the system such as hydraulic, solar, thermal and wind energy.
For the construction and extension of a waste water treatment plant or a waste water treatment plant with a collection system, which are substituting more GHG-intensive treatment systems such as septic tanks, anaerobic lagoons , an assessment of the direct GHG emissions is performed The results are disclosed to investors and clients on demand.
Where the waste water is treated to a level suitable for reuse in agricultural irrigation, the required risk management actions to avoid adverse environmental impacts have been defined and implemented Appropriate measures have been implemented to avoid and mitigate excessive storm water overflows from the waste water collection system, which may include nature-based solutions, separate storm water collection systems, retention tanks and treatment of the first flush.
Renewal of waste water collection and treatment. Renewal of centralised waste water systems including collection sewer network and treatment. It implies no material change related to the load or volume of flow collected or treated in the waste water system.
That decrease of energy consumption can be accounted for at the level of the project i. For the purposes of points 1 and 2, the net energy consumption of the system is calculated in kWh per population equivalent per annum of the waste water collected or effluent treated, taking into account measures decreasing energy consumption relating to source control reduction of storm water or pollutant load inputs and, as appropriate, energy generation within the system such as hydraulic, solar, thermal and wind energy.
For the purpose of point 1 and 2, the operator demonstrates that there are no material changes relating to external conditions, including modifications to discharge authorisation s or changes in load to the agglomeration that would lead to a reduction of energy consumption, independent of efficiency measures taken.
Collection and transport of non-hazardous waste in source segregated fractions. Separate collection and transport of non-hazardous waste in single or comingled fractions aimed at preparing for reuse or recycling.
All separately collected and transported non-hazardous waste that is segregated at source is intended for preparation for reuse or recycling operations. Separately collected waste fractions are not mixed in waste storage and transfer facilities with other waste or materials with different properties. Anaerobic digestion of sewage sludge. Construction and operation of facilities for the treatment of sewage sludge by anaerobic digestion with the resulting production and utilisation of biogas or chemicals.
A monitoring and contingency plan is in place in order to minimise methane leakage at the facility. The produced biogas is used directly for the generation of electricity or heat, or upgraded to bio-methane for injection in the natural gas grid, or used as vehicle fuel or as feedstock in chemical industry. Emissions are within or lower than the emission levels associated with the best available techniques BAT-AEL ranges set for anaerobic treatment of waste in the latest relevant best available techniques BAT conclusions, including the best available techniques BAT conclusions for waste treatment Anaerobic digestion of bio-waste.
The bio-waste that is used for anaerobic digestion is source segregated and collected separately. The produced digestate is used as fertiliser or soil improver, either directly or after composting or any other treatment.
Composting of bio-waste. Construction and operation of dedicated facilities for the treatment of separately collected bio-waste through composting aerobic digestion with the resulting production and utilisation of compost.
The bio-waste that is composted is source segregated and collected separately. For composting plants treating over 75 tonnes per day, emissions to air and water are within or lower than the emission levels associated with the best available techniques BAT-AEL ranges set out for aerobic treatment of waste in the latest relevant best available techniques BAT conclusions, including the best available techniques BAT conclusions for waste treatment The site has a system in place that prevents leachate reaching groundwater.
Material recovery from non-hazardous waste. Construction and operation of facilities for the sorting and processing of separately collected non-hazardous waste streams into secondary raw materials involving mechanical reprocessing, except for backfilling purposes. Landfill gas capture and utilisation. Installation and operation of infrastructure for landfill gas capture and utilisation in permanently closed landfills or landfill cells using new or supplementary dedicated technical facilities and equipment installed during or post landfill or landfill cell closure.
The landfill has not been opened after 8 July The landfill or landfill cell where the gas capture system is newly installed, extended, or retrofitted is permanently closed and is not taking in further biodegradable waste The produced landfill gas is used for the generation of electricity or heat as biogas , or upgraded to bio-methane for injection in the natural gas grid, or used as vehicle fuel or as feedstock in chemical industry.
The permanent closure and remediation as well as the after-care of old landfills, where the landfill gas capture system is installed, are carried out in accordance with the following rules:. Transport of CO2. Construction and operation of CO2 pipelines and retrofit of gas networks where the main purpose is the integration of captured CO2. The economic activities in this category could be associated with several NACE codes, in particular F The CO2 transported from the installation where it is captured to the injection point does not lead to CO2 leakages above 0.
The CO2 is delivered to a permanent CO2 storage site that meets the criteria for underground geological storage of CO2 set out in Section 5. Appropriate leak detection systems are applied and a monitoring plan is in place, with the report verified by an independent third party.
The activity may include the installation of assets that increase the flexibility and improve the management of an existing network.. Underground permanent geological storage of CO2.
Permanent storage of captured CO2 in appropriate underground geological formations. For operation of underground geological CO2 storage sites, including closure and post-closure obligations:. For the exploration and operation of storage sites in third countries, the activity complies with ISO for geological storage of CO2. Passenger interurban rail transport.
Purchase, financing, rental, leasing and operation of passenger transport using railway rolling stock on mainline networks, spread over an extensive geographic area, passenger transport by interurban railways and operation of sleeping cars or dining cars as an integrated operation of railway companies.
The economic activities in this category could be associated with several NACE codes, in particular H Measures are in place to manage waste in accordance with the waste hierarchy, in particular during maintenance.
Freight rail transport. Back to all. Level 2: Execute. Iso 1 pdf free download ISO. First edition. Reference number downloading this file, parties accept therein the responsibility of not infringing Adobe's Details of the software products used to create this PDF file can be found in the General Info.
Second edition. Reference number. ISO E. This international standard enables organizations to quantify and report greenhouse gas GHG emissions and removals in the global pursuit of combating anthropogenic climate change ISO To represent a total amount of: , 04 tC02e For the following activities Logistics, transportation and warehouse activities. Climate change has implications for both human and natural systems and could lead to significant impacts on resource availability, economic activity and.
Author: Mulrajas. Sie behandelt die Messung, Berichterstattung und Verifizierung von Treibhausgasemissionen. Da in vielen Organisationen mittlerweile integrierte Managementsysteme, also. Guidance for voluntary, corporate greenhouse gas reporting. Iso en , greenhouse gases — part 1: specification. In response to this demand and to provide an international standard against which such reports can be voluntarily verified, ISO has been developed.
The ISO standards provide governments, businesses, regions and other. Drafting of the verification and sampling plan Based on the results of the Preliminary meeting, the verifier writes a verification plan and a sampling plan. Both plans can be included in one joint document. AS ISO View all product details Most Recent Track It. Secure PDF Files. Enter your email address below to subscribe to the newsletter:.
Page 1 of 3 Form ACG Part 1 - specifies requirements for designing and developing organization or entity-level GHG inventories Part 2 - details requirements for quantifying, monitoring and reporting emission reductions and removal enhancements from GHG projects, and Part 3 - provides requirements and. SGS mobilizes its international network of ISO accredited laboratories to support the consumer water industry.
Page 1 of 3 Form ACG Specification with Guidance for the Validation and Verification of Greenhouse Gas Assertions- provides principles, requirements, and guidance for individuals conducting or managing verification or validation of organizational carbon inventory reports or project-level assertions. One of the obvious, but not often reviewed, is the internal audit process in use.
SGS can audit your organization against ISO parts 1 and 2 to provide verification of your greenhouse gas emissions and reductions. It is a network of the national standards institutes of countries. This voluntary standard provides specifications and guidance for the quantification and reporting of greenhouse gases In response to this demand and to provide an international standard against which such reports can be voluntarily verified, ISO has been developed.
By Clare Naden on 24 July Improve your environmental performance with this family of standards. Final text received or FDIS registered for formal approval. It provides a framework for the verification of GHG inventories and projects, which gives more credibility to the GHG-reduction process.
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