The process of proper establishment of scope 1, 2 & 3, Product Carbon Factoring definition and product life cycle modelling based on availability of data, in compliance with ISO 14064 standards and certified by internationally renowned third-party testing companies.
Carbon emission inventory refers to the calculation of the direct or indirect greenhouse gas emissions of various links in the social and production activities of enterprises, governments or institutions
Product Carbon Footprint refers to the GHG emissions generated along the entire life cycle of a product, including the mining, manufacturing, transportation, distribution, use of raw materials, and final disposal.
The process of proper establishment of scope 1, 2 & 3, Product Carbon Factoring definition and product life cycle modelling based on availability of data, in compliance with ISO 14064 standards and certified by internationally renowned third-party testing companies.
Carbon emission inventory refers to the calculation of the direct or indirect greenhouse gas emissions of various links in the social and production activities of enterprises, governments or institutions
Product Carbon Footprint refers to the GHG emissions generated along the entire life cycle of a product, including the mining, manufacturing, transportation, distribution, use of raw materials, and final disposal.
Digital Innovation Solutions drive green and low-carbon development. A Comprehensive Toolbox for Carbon Neutral Strategy Implementation
Quantifies greenhouse gas (GHG) emissions and removals at the organization level by integrating GHG emissions and carbon neutrality standards, including ISO 14064 and PAS 2060. With embedded GHG emission factor datasets and guidance, Circular Unite can generate online reports for organization-level GHG inventories and prepare for verification.
Provides modelling tool to help quickly identify GHG emission sources from input-output-based life cycle assessment of your product. It also incorporates multiple mainstream carbon footprint databases, such as the ecoinvent database, ELCD, CLCD, and CPCD, to generate product carbon footprint reports based on the product supply chain.
Provides carbon neutrality goal management and carbon emission reduction project management features to help enterprises clearly understand the estimated results and current progress of carbon emission reduction projects. Circular Unite can also provides carbon offset solutions.
The implementation process of organizing carbon inventory is mostly divided into the following steps:
1 Define the boundary
2 Determine the scope
3 Data collection
4 Carbon emission factor calculation
5 Report & Certification
The implementation process of the product carbon footprint function is mostly divided into the following steps:
1 Define the boundary
2 Data collection
3 Modeling
4 Report & Certification
5 Carbon offsetting or neutrality services
Digital Innovation Solutions drive green and low-carbon development. A Comprehensive Toolbox for Carbon Neutral Strategy Implementation
Quantifies greenhouse gas (GHG) emissions and removals at the organization level by integrating GHG emissions and carbon neutrality standards, including ISO 14064 and PAS 2060. With embedded GHG emission factor datasets and guidance, Circular Unite can generate online reports for organization-level GHG inventories and prepare for verification.
Provides modelling tool to help quickly identify GHG emission sources from input-output-based life cycle assessment of your product. It also incorporates multiple mainstream carbon footprint databases, such as the ecoinvent database, ELCD, CLCD, and CPCD, to generate product carbon footprint reports based on the product supply chain.
Provides carbon neutrality goal management and carbon emission reduction project management features to help enterprises clearly understand the estimated results and current progress of carbon emission reduction projects. Circular Unite can also provides carbon offset solutions.
The implementation process of organizing carbon inventory is mostly divided into the following steps:
1 Define the boundary
2 Determine the scope
3 Data collection
4 Carbon emission factor calculation
5 Report & Certification
The implementation process of the product carbon footprint function is mostly divided into the following steps:
1 Define the boundary
2 Data collection
3 Modeling
4 Report & Certification
5 Carbon offsetting or neutrality services
The data collection involves fundamental information about the enterprise and its product for the certification report. The product modeling relies on a detailed process flow chart outlining the sequential stages of creation. At each step, comprehensive data is gathered, covering raw materials, energy usage, final and intermediate outputs, waste, wastewater, and gas emissions.
According to the process flow chart and related data, the product model will be generated with the input of the relevant data.
Upon finalizing calculations, the N.A.T.A.L.I.E. platform generates a comprehensive report on the event's carbon emissions, including insightful observations. After completing product modeling and data integration, the platform seamlessly creates an online report. Additionally, it enables the generation of a QR code and sharing interface for effortless access to specific product carbon emission data through code scanning.
After calculating the product's carbon footprint, customers can opt to offset remaining emissions through CU's carbon neutral services.
The data collection involves fundamental information about the enterprise and its product for the certification report. The product modeling relies on a detailed process flow chart outlining the sequential stages of creation. At each step, comprehensive data is gathered, covering raw materials, energy usage, final and intermediate outputs, waste, wastewater, and gas emissions.
According to the process flow chart and related data, the product model will be generated with the input of the relevant data.
Upon finalizing calculations, the N.A.T.A.L.I.E. platform generates a comprehensive report on the event's carbon emissions, including insightful observations. After completing product modeling and data integration, the platform seamlessly creates an online report. Additionally, it enables the generation of a QR code and sharing interface for effortless access to specific product carbon emission data through code scanning.
After calculating the product's carbon footprint, customers can opt to offset remaining emissions through CU's carbon neutral services.
Contact us today for a consultation on how we can help your company achieve net zero emissions by 2030.
Contact us today for a consultation on how we can help your company achieve net zero emissions by 2030.
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