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Mass Balance Approach in the chemical industry

Written by Hetal Udas | Feb 08 2024

What is the Mass Balance Approach?

The mass balance Approach (MBA) is a process for determining the use of chemically recycled or bio-based feedstock in a final product when both recycled and virgin feedstock or bio-based and fossil feedstock have been used in the process. Depending on the feedstock used, the output is a mix of products (primary and recycled or fossil and bio-based) which are not distinguishable based on their composition or technical characteristics. This is different from the mechanical recycling of plastics, where materials can be separated, treated, and included in new products. This approach addresses materials that cannot be physically separated because they could be heavily mixed or contaminated, such as additives, paints, and adhesives but can be retrieved using chemical recycling and incorporated as feedstock. 
Fig 1. Simplified illustration of the mass balance mode (Source: ISO/FDIS 22095:2020(E) )

 

The flow of renewable feedstock and recycled feedstock can be traced and balanced across the supply chain, thus facilitating a system of using existing production plants and supply chains, accelerating the circular economy without requiring new and elaborate supply chains and investments. Chain of Custody (COC)models are designed to create transparency and trust throughout the value chain regarding properties of goods and materials that are otherwise hard to distinguish between samples. The mass balance approach is one such COC model designed to trace these flows in which the inputs, outputs, and associated information are transferred, monitored, and controlled as they move through the relevant supply chain. The property conservation principle is set to ensure that the total certified output does not exceed its original input. Other well-known examples and implementation of chain of custody models are (1) Renewable Energy or Green Energy Certificates (book and claim COC model) (2) Timber – FSC (Segregation COC model) (3) Organic food from a single farm (Identity preservation COC model).

 

Certifications and standards for Mass Balance Approach verifications and claims

For companies to follow and control the chain of custody that they are directly active in and to communicate and make sustainability claims for their products transparently, they must be able to verify it credibly. Certification schemes that certify companies and/or products for the content and/or implementation of the mass balance approach are listed below. Each scheme has a different methodology, accounting unit, and levels (material batches, company, site-specific, across sites with physical connectedness or none) at which mass balance is verified.
  • The ISCC (International Sustainability and Carbon Certification) PLUS is a certification scheme run by ISCC System GmbH. ISCC is the largest of the certification systems on the market in terms of the number of certified companies and products.
  • The REDcert is a certification scheme run by REDcert GmbH. REDcert focuses on the chemical industry and is the second largest of the available certification systems in terms of the number of certified companies and products.
  • RSB Advanced Products – is included in the Roundtable on Sustainable Biomaterials (RSB) system. RSB is a member organization with about 100 members. This scheme focuses on products only.
  • Ecoloop is a certification scheme for plastic producers, recyclers, processors, and manufacturers of plastic products. It focuses on recycled plastics and is governed by the company Ecocycle.
The following standards aim to provide standardization in designing a chain of custody models and determining bio- based content of a product.

 

Mass Balance Approach based environmental impacts calculations and declarations

Some manufacturers are using MBA in the calculations of Life Cycle Assessment (LCA) by claiming a percentage of biobased or recycled feedstock in the modelling of materials. In most studies the added share of sustainable raw materials is mathematically assigned to the corresponding mass-balanced new product. However, the modelling of recycled feedstock is not always as straightforward. Suppose the properties of the feedstock (for example, carbon and energy content) are different from those it replaces. In that case, the LCA should consider the equivalency of the products in terms of properties and interchangeability in further use. Another challenge seen is in the actual content of biobased or recycled content in the final product, which poses a challenge in the verification of the claims at the product level being analysed. In the context of the Circular Economy Action Plan, associated initiatives (Sustainable Products Initiative), and regulations (Construction Products Regulation), there is an increased emphasis on promoting circularity for products by increasing % of renewable and/or recycled content and including them in the calculations of environmental impacts. However, there is a lack of consensus and common rules and guidance to transparently use this methodology in LCA and EPD calculations. Therefore, it is imperative that standards and regulations are developed and uniformly implemented to standardize the approach of handling MBA in LCA calculations. These rules will also help in the verification process of life cycle assessments, carbon footprints, and EPDs and enable manufacturers to make claims based on verified calculations.

References

  1. Communication From The Commission To The European Parliament, The Council, The European Economic And Social Committee And The Committee Of The Regions A European Strategy For Plastics In A Circular Economy, 2018
  2. Ellen MacArthur Foundation: Enabling A Circular Economy For Chemicals With The Mass Balance Approach A White Paper From Co. Project Mass Balance, May 2019
  3. Standards And Certification Schemes Related To The Mass Balance Approach, Applications In Chemical Industry, Industrial Energi, 31-03-2020.
  4. Mass Balance Approach To Accelerate The Use Of Renewable Feedstocks In Chemical Processes, Plastics Europe.