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Traceability of materials
IVL Swedish Environmental Research Institute helps your company with systems for traceability of materials and value chains. It can also be a broad collaboration across the value chain or in the industry.
Traceability can be built on the basis of both certification systems, mass balance accounting and blockchains as examples. We help you build systems for traceability in the industry and combine our experts in value chains and industrial life cycle analyzes with digitization experts and experts in business models.
Hire IVL to:
- Build systems for traceability and support in the processes that need to be built
- Build information about origin, resource use and climate footprint
Last updated: 2024-09-19
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Our services
- Accidents and safe workplace
- Air analyzes
- Anaerobic digestion experiments
- Analysis and visualization of environmental data
- Analysis of biota
- Analysis of indoor environment
- Analysis of pollutants in the work environment
- Analysis of products and materials
- Analysis of soil and sediment
- Analysis of wastewater
- Analyzing biodiversity with (eDNA)
- Appealing and socially sustainable residential areas
- Aquaculture
- Biogas solutions
- Biological tests
- Build sustainably in a changing climate
- Chart and make ecosystem services visible
- Chemical health risks in the workplace
- Circular construction and recycling in the construction sector
- Circular economy
- Circular economy in a non-toxic environment
- Clean Shipping Index
- Climate adaptation and vulnerability analyzes
- Climate assessment of energy measures (Tidstegen)
- Climate declaration of buildings, BM
- Climate goals according to Science Based Targets
- Contaminated areas and oil damage
- Diffusion sampling
- Digital environmental information for a circular construction industry eBVD
- Digital registration of construction product declarations (eBVD)
- Digitize buildings
- DNSH criteria pollutants
- Ecodesign in product development
- Energy and climate smart buildings
- Environmental assessment system for construction products (BASTA)
- Environmental product declaration (EPD)
- EU's taxonomy for sustainable investments
- Forest diversity and ecosystem services
- Good indoor environment
- Greenhouse gas emissions
- Impact on Forests and Soil
- Increased resource efficiency through reduced food waste
- Independent advice for effective climate compensation
- Industrial environmental issues
- Industrial symbiosis
- Life cycle analyzes
- Life cycle assessment of textiles
- Management of marine ecosystems
- Marine micro-debris
- Measure and evaluate biological diversity
- Measures and strategies for increased circularity and resource efficiency
- Measuring and Reporting According to the TNFD Framework
- Mobility for property owners
- Monitoring of air and precipitation
- Nature-based solutions in an urban environment
- Net zero emissions of greenhouse gases
- Permit applications and environmental impact assessments
- PFAS analysis
- PFAS purification of water
- PFAS simulator
- Preparation of Status Reports
- Recycling and circular flows
- Recycling of textiles
- Reduce climate impact from construction
- Renewable fuels and biofuels
- Reuse of textiles
- Safety advice when transporting dangerous goods
- Science Based Targets (SBTs) for nature
- Ship Emissions
- Ship fuels and energy efficiency improvements
- Socially sustainable adjustment
- Spread calculations and modeling
- Strategic sustainability work and sustainability management
- Strategies for climate-neutral properties
- Support for legal requirements for chemicals
- Survey and purification of PFASs in soil and water
- Sustainability label for furniture (Möbelfakta)
- Sustainability reporting as per CSRD
- Sustainable and resource-efficient energy solutions
- Sustainable harbours and marinas
- Sustainable ports
- Sustainable procurement
- Test beds, pilot plants and demonstrators
- Textile collection and sorting
- Tools for Sustainable Construction – One stop shop
- Traceability of materials
- Underwater noise
- Water analyzes
- Water purification
- Water surveillance
- Work environment for small and medium-sized companies
- Research projects
- About IVL
- Publications
- Career
- Accidents and safe workplace
- Air analyzes
- Anaerobic digestion experiments
- Analysis and visualization of environmental data
- Analysis of biota
- Analysis of indoor environment
- Analysis of pollutants in the work environment
- Analysis of products and materials
- Analysis of soil and sediment
- Analysis of wastewater
- Analyzing biodiversity with (eDNA)
- Appealing and socially sustainable residential areas
- Aquaculture
- Biogas solutions
- Biological tests
- Build sustainably in a changing climate
- Chart and make ecosystem services visible
- Chemical health risks in the workplace
- Circular construction and recycling in the construction sector
- Circular economy
- Circular economy in a non-toxic environment
- Clean Shipping Index
- Climate adaptation and vulnerability analyzes
- Climate assessment of energy measures (Tidstegen)
- Climate declaration of buildings, BM
- Climate goals according to Science Based Targets
- Contaminated areas and oil damage
- Diffusion sampling
- Digital environmental information for a circular construction industry eBVD
- Digital registration of construction product declarations (eBVD)
- Digitize buildings
- DNSH criteria pollutants
- Ecodesign in product development
- Energy and climate smart buildings
- Environmental assessment system for construction products (BASTA)
- Environmental product declaration (EPD)
- EU's taxonomy for sustainable investments
- Forest diversity and ecosystem services
- Good indoor environment
- Greenhouse gas emissions
- Impact on Forests and Soil
- Increased resource efficiency through reduced food waste
- Independent advice for effective climate compensation
- Industrial environmental issues
- Industrial symbiosis
- Life cycle analyzes
- Life cycle assessment of textiles
- Management of marine ecosystems
- Marine micro-debris
- Measure and evaluate biological diversity
- Measures and strategies for increased circularity and resource efficiency
- Measuring and Reporting According to the TNFD Framework
- Mobility for property owners
- Monitoring of air and precipitation
- Nature-based solutions in an urban environment
- Net zero emissions of greenhouse gases
- Permit applications and environmental impact assessments
- PFAS analysis
- PFAS purification of water
- PFAS simulator
- Preparation of Status Reports
- Recycling and circular flows
- Recycling of textiles
- Reduce climate impact from construction
- Renewable fuels and biofuels
- Reuse of textiles
- Safety advice when transporting dangerous goods
- Science Based Targets (SBTs) for nature
- Ship Emissions
- Ship fuels and energy efficiency improvements
- Socially sustainable adjustment
- Spread calculations and modeling
- Strategic sustainability work and sustainability management
- Strategies for climate-neutral properties
- Support for legal requirements for chemicals
- Survey and purification of PFASs in soil and water
- Sustainability label for furniture (Möbelfakta)
- Sustainability reporting as per CSRD
- Sustainable and resource-efficient energy solutions
- Sustainable harbours and marinas
- Sustainable ports
- Sustainable procurement
- Test beds, pilot plants and demonstrators
- Textile collection and sorting
- Tools for Sustainable Construction – One stop shop
- Traceability of materials
- Underwater noise
- Water analyzes
- Water purification
- Water surveillance
- Work environment for small and medium-sized companies