Visualising CO2 emissions across the product life cycle
Reducing the ecological footprint of our products as much as possible is one of HELU’s declared goals. To make our efforts transparent, we have made the Product Carbon Footprint (PCF) data for select products available. All relevant information can be found on this page.
HELU’s Product Carbon Footprint (PCF) initiative
HELU has begun systematically calculating the Product Carbon Footprint of its products using a cradle-to-gate methodology. For selected products, these calculations have already been completed, with the results available in the HELU online shop under the respective product’s “Downloads” section. Additional product groups will be gradually included over time.
The PCF calculation is a key element in HELU’s efforts to better understand and manage the environmental impact of its product portfolio. It enables the identification of major emission drivers across the value chain and supports the development of targeted optimisation measures in product design and development. At the same time, it provides a robust foundation for reducing Scope 3 emissions and preparing for future regulatory requirements at an early stage.
Furthermore, by making PCF data available, we enhance transparency for our customers and business partners. This information also offers direct value to our customers, as it can be integrated into their own Scope 3 reporting and CO₂ accounting for their products.
How we calculate the Product Carbon Footprint
In order to calculate the PCF, we analyse the CO2 emissions throughout the entire manufacturing phase of a product—from the raw material extraction to material processing and ending with the final product leaving our factory. We document the materials used, the energy expended during production, and the relevant routes of transportation. Using this data, we then calculate the total CO2 footprint per product in kilograms of CO2 equivalents (CO2e).
One primary challenge when calculating these values is in closing data gaps. In cases where precise primary data is not yet available, we use recognised average values and clearly documented estimates.
The accuracy of the results depends on the data availability across the supply chain. Regardless, PCFs are already providing a reliable indication of emissions levels and helping identify key emissions drivers. At the same time, we are committed to increasing the share of primary data.
FAQ
A Product Carbon Footprint describes the greenhouse gas emissions that are produced throughout the entire lifecycle of a product, from the extraction of raw materials, to manufacturing, and ending when the product leaves our warehouse. Contrary to the Corporate Carbon Footprint (CCF), which calculates the emissions of an entire company, the PCF value is specific to an individual product. It is especially relevant in procurement, product development, and for customer-specific sustainability evaluations.
CO2 e stands for "carbon dioxide equivalent" and is the internationally recognised unit of measurement for greenhouse gas emissions. This unit is used because other gases such as methane and nitrous oxide also contribute to global warming, however in different capacities.
In order to allow for comparison, they are converted to CO2 equivalents using their Global Warming Potential (GWP). With this method, it is estimated that methane has an 80-times greater climate impact than CO2 over a twenty-year span. CO2 e summarises these different effects in one transparent and comparable number.
Cradle to gate is the system boundry within which all emissions are considered, from raw materials extraction (cradle) to when products leave our factory (gate). We start here because it covers the largest area of influence that we are currently able to control and measure: materials, energy usage, and transport up to delivery.
A complete approach (cradle to grave) would also include usage and disposal. These phases, however, fall outside of our direct influence and require additional data that are often difficult to obtain and make the results less accurate.
At first glance, they seem easy to compare: two similar products, two PCF values, and the lower value automatically appears better. In practice, however, it is not that simple. Even small differences in the calculation can influence the result, e.g., different emissions factors from different databases, divergent assumptions regarding transport routes, or different boundaries marking the lifecycle phases (e.g., cradle to gate vs. cradle to grave).
PCF values are therefore primarily a helpful tool for understanding and improving a products impact on the climate. A direct comparison between products makes sense when the underlying methods of calculation and assumptions are identical.
Do you have any questions regarding sustainability?
Our team of experts is happy to help! Contact them at: sustainability@helukabel.de