Cement and concrete have the most mature EPD ecosystem in any sector. The PCRs are well-developed, the verifier pool is deep, and the procurement-side demand is acute — Buy Clean in North America, RE2020 in France, QNG in Germany, and embodied-carbon caps across the Nordics all pull hard on cement-and-concrete EPDs. This article walks through what to expect.
The product hierarchy and what gets declared
EPDs in this sector follow the product hierarchy:
- Cement — typically declared per tonne. Includes ordinary Portland (CEM I), blended cements (CEM II–V), and increasingly low-carbon variants (calcined clay, LC³, geopolymer).
- Concrete (ready-mix) — declared per cubic metre. The most common declaration unit. EPDs vary by compressive strength class (C20/25, C25/30, C30/37, C35/45, etc.), exposure class, and aggregate composition.
- Precast concrete elements — declared per element or per cubic metre depending on the product. Hollow-core slabs, columns, beams, façade panels each have their own typical declaration.
- Concrete admixtures — declared per kilogram. Plasticisers, superplasticisers, accelerators, retarders, air-entrainers.
- Aggregates — declared per tonne. Often industry-wide rather than product-specific, though product-specific is becoming more common.
The PCRs you'll encounter
The applicable PCRs depend on your Program Operator and region. The dominant ones for construction products are EN 15804+A2 (Europe-wide, used by all major European POs) and ISO 21930 (used by North American POs alongside the underlying ISO 14025). Within those frameworks, sub-PCRs exist for cement, concrete, precast, and admixtures — and the same product can have measurable differences in declared impact depending on which PCR is applied. Where multiple PCRs cover your product, the LCA consultant should walk you through the trade-off before committing.
The production data you'll need to collect
This is the part that typically takes longer than expected. For a cement or concrete EPD you'll need to assemble:
Primary plant data
- Cement production volumes and clinker content by month, by plant, for the reference year (typically calendar year)
- Energy consumption: electricity (kWh), thermal energy (MJ) split by fuel source (natural gas, coal, alternative fuels including biomass and refuse-derived fuel)
- Process emissions (the limestone-decarbonation CO₂ — typically 50–55% of cement's footprint)
- Water consumption and discharge
- Waste streams, with composition and disposal route
- For ready-mix: aggregate, water, cement, admixture inputs by mix design
Supply-chain data
- Source and transport mode/distance for raw materials (limestone, gypsum, clay, additives)
- Source and transport mode/distance for fuel (especially relevant for alternative-fuel-heavy plants)
- Where supplementary cementitious materials (SCMs) are used — slag, fly ash, silica fume — their origin, allocation method, and transport
Mix design (for ready-mix EPDs)
One ready-mix EPD per declared mix is typical, but you can declare a representative range with appropriate documentation. Mix proportions, water-cement ratio, target strength class, exposure class, and any admixtures are required.
The dominant program operators
For European-market cement and concrete, IBU and Environdec are the dominant POs by volume, with national POs (EPD Norge, EPD Danmark, EPD Italy) handling regional markets. France's FDES route via INIES is mandatory for RE2020-regulated buildings. For North American markets, UL, NSF, and the Concrete EPD Program (administered by NRMCA) are the main routes. ASTM and SCS handle a smaller share.
Timeline and cost expectations
For a single cement product or a single concrete mix at a single plant, expect 4–8 months from project kickoff to publication, with cost in the lower-to-middle part of the typical EPD range. For a portfolio EPD covering multiple mixes or plants under a single declaration, timeline extends to 6–10 months but per-mix cost falls sharply — portfolio approaches are how most large ready-mix operators handle scale.
What goes wrong
- Inconsistent plant data. Multiple plants with different metering granularity is the most common timeline killer. Cleaning the data takes longer than the LCA itself.
- SCM allocation disputes. Slag from steel and fly ash from coal are by-products with allocation choices (mass, economic, energy). Verifiers will challenge the choice — pick one early and defend it.
- Mix-design drift. If your actual production drifts from the declared mix, the EPD's validity is compromised. Set a tolerance band in the declaration that matches operational reality.
- Geographic recognition. A North American Buy Clean buyer may not accept an Environdec EPD even if it's perfectly valid in Europe. Match the PO to the market.
If your sector is cement or ready-mix concrete and you're starting your first EPD process, expect the time-and-effort cost on your side to be roughly equal to the consulting cost. Data collection is the work. The earlier you start, the smoother the LCA.