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 Now that you understand what PCFs are and how to approach them, it's time to dig into the calculation process. In lesson nine, youâll learn:
Why this is relevant: A clear calculation process helps you create accurate PCFs and identify where you might need support. Whether you're just starting out or improving existing PCFs, these steps will guide you through the process. |
The five steps to building PCFs
Building on the knowledge youâve gained so far, itâs time to walk through each step of creating a product carbon footprint.
Step 1: Set your boundaries
Remember in Lesson 4 when we talked about different types of PCFs? This is where you decide which one youâll be creating:
- For intermediate products (like raw materials): Use cradle-to-gate.
- For finished products (like consumer goods): Use cradle-to-grave.
Tip: List the sources you want to collect data for and draw a diagram showing whatâs included and whatâs not. This helps your team to understand the scope.
For example, letâs say you manufacture plastic resin, an intermediate product:
â
Do include raw material extraction, processing, manufacturing.Â
â Donât include product use, disposal.
Step 2: Collect your data
Remember in Lesson 2 when we talked about activity data? Now itâs time to gather it. Youâll need data for every emission source within your boundary.
Examples of information to collect
- Fuel usage
- Electricity consumption
- Raw material quantitiesÂ
- Transport distances
- Water withdrawal
Tip: Start with what you think are your biggest emission sources first. If you don't know this, then collecting information on the materials used and the energy consumed can be a good place to begin. Remember to check any measurement conversions you may need to do in advance.
Going back to the example of the plastic resin manufacturer making a cradle-to-gate product carbon footprint, youâll need to collect:
Stage 1: Raw material acquisition and pre-processing
- Bill of materials
- Transport distances and modes for deliveries
Stage 2: Production
- Energy used to make the product or component
- Water withdrawn and water discharged
- Waste generated and the type of treatment
- Any chemical reactions that happened during production
- Estimates for the leakage refrigerant gases that are used in the production process
- Information on any external services that you use during production
- Transport distances and modes for deliveries for you own vehicles
Step 3: Find your emission factors
As you found out in Lesson 2, emission factors help convert your activity data into greenhouse gas emissions. To recap, you have two main options:
1) Primary emission factors, for example:
- PCFs from your own suppliers
- Specific emission factors for your electricity
- Custom factors for your processes
2) Secondary emission factors, for example:
- Government databases
- Industry averages
- Life cycle assessment databases
Let's see how our plastic resin manufacturer might use both types:
Primary emission factors:
- Emission factor from their electricity supplier
- PCF data from their raw material supplier
- Actual fuel emission factors from their gas provider
Secondary emission factors:
- Industry average for similar transport routes
- Government database values for any missing material PCFs
Tip: Remember the primary data score from Lesson 3? Using more primary emission factors will improve your overall score. Our plastic resin manufacturer could improve their score by getting more PCFs from their suppliers.
Step 4: Do the calculations
This is where everything comes together, using the formula you learned in Lesson 2:
Activity data x emission factor = greenhouse gas emissions
In our example, the plastic resin manufacturer would:
- Take natural gas usage for the previous year (activity data)
- Multiply by the emission factor for natural gas
- Repeat for each emission source
- Add it all upÂ
Your final result will be in kilograms (kg) of carbon equivalence (CO2e) per unit (such as per kg of plastic resin).Â
Step 5: Analyze and plan improvements
At this point, your PCF turns into a powerful tool for your organization:
-
Look for hotspots
- Which sources create the most emissions?
- Where are your biggest opportunities?
-
Plan improvements
- Set realistic reduction targets
- Identify quick wins
- Make a long-term plan
Going back to our example, if the plastic resin PCF shows that raw materials are your biggest source of emissions, you might:
- Work with your own suppliers to reduce their emissions
- Look for lower-carbon alternative materials
- Identify ways to optimize material use in your process
Choosing your calculation method
As you found out in Lesson 7, there are several methodologies, guidelines, and standards to choose from when calculating PCFs. Hereâs how to choose the right one for your organization.
Start with your sector
Different industries have different needs. Check if there are specific rules for your sector. Below, youâll find some common examples.
Sector-specific methods
- Product Category Rules (PCRs - specific to the product category)
- Product Environmental Footprint Category Rules (PEFCRs)
- Catena-X (automotive)
- Together for Sustainability (chemicals)
- CEPI Ten Toes (paper)
Why this matters: Using your sectorâs method means your PCFs can be compared with similar products.Â
Using Manufacture 2030 (M2030)
Donât worry if youâre not sure which method to use. The M2030 platform:
- Is based on the WBCSD PACT Methodology and GHG Protocol Product Standards
- Works for all manufacturing sectors
- Handles cradle-to-gate calculations
Check your knowledge
Time to see if it all makes sense! Take the quiz to check your understanding:
If your customers have asked you to complete M2030's Product Carbon Footprint Academy, taking this quiz will show them you're making progress. Your answers and scores will not be shared with them â only that you have taken the quiz.