Business case

Impact on the availability of resources as well as their effect on living organisms, ecosystems, and components of the environment.

Ecological Impact

Impacts on the financial condition of a company, as well as the the economicconditions of its stakeholders and on economic systems at local, national, andglobal levels.

Economic Impact

Impact on the ease of innovation, and facilitating uptake of innovations

Innovation

Reduced use of virgin materials and/or an increase of the use of secondary and bio-based materials

Reduce Material Consumption (SDG12)

Producing and providing business and consumer goods and services

Goods and Services

Providing recreational and cultural services, including hotels, resorts, casinos, sport and fitness centers, stadiums, golf courses and amusement parks, restaurants, bars, pubs, fast-food or take-out facilities, as well as libraries and museums

Hospitality and Tourism

Ensure renewable, reusable, non-toxic resources are utilised as materials and energy in an efficient way

Prioritise regenerative resources

While resources are in-use, maintain, repair and upgrade them to maximise their lifetime and give them a second life through take back strategies when applicable

Stretch the lifetime

Utilise waste streams as a source of secondary resources and recover waste for reuse and recycling

Use waste as a resource

Account for the systems perspective during the design process, to use the right materials, to design for appropriate lifetime and to design for extended future use

Design for the future

Utilise bio-based, reusable, non-toxic and non-critical materials

Regenerative materials

Upgrade, repair, and maintenance while in-use

Maximise lifetime of products in-use

Designing to enable multiple uses and lifecycles of a product and its materials

Design for cyclability

Using bio-based materials such as bioplastics, mushroom-based materials, etc.

Alternative bio-based materials and inputs

Providing repair services or maintenance services for products or parts

Product maintenance, repair

Designing products to remove any barriers to recycling and enable easy recyclability

Design for recycling

**Ensure sustainable consumption and production patterns**

![12..JPG](https://goldilocks-images.s3.eu-west-1.amazonaws.com/12_ff44598f2b.JPG)

The world is seriously off track in its effort to halve per-capita food waste and losses by 2030.The COVID-19 pandemic has had significant impacts on consumption and production patterns, with disruptions to global supply chains and changes in consumer behaviour. 

Responsible consumption and production must be an integral part of the recovery from the pandemic. 
But the global economy also needs to speed up the decoupling of economic growth from resource use by maximizing the socio-economic benefits of resources while minimizing their negative impacts. 

Reporting on corporate sustainability has tripled since the beginning of the SDG period, but the private sector will need to significantly improve reporting on activities that contribute to the SDGs. 

This primarily entails environmentally sound management of "toxic chemicals" A substantial use of chemicals is essential to meet the social and economic goals of the world community, and these can be used with a high degree of safety when best practices are followed.  Gross chemical contamination, with grave damage to human health, genetic structures reproductive outcomes, and the environment, has been continuing within some of the world's most important industrial areas, and restoration will require major investment as well as the development of new techniques.
Effective control of the generation, storage, treatment, recycling and reuse, transport, recovery and disposal of hazardous wastes is another similar challenge. 
In addition,  solid wastes include all domestic refuse and non-hazardous wastes such as commercial and institutional wastes, street sweepings construction debris, and, in some countries, human wastes. As hazardous waste is frequently intermixed with other waste, this poses particular management challenges.
Finally, this target ensures that radioactive waste is safely managed, transported, stored and disposed of, with a view to protecting human health and the environment. 

To deliver SDG12, it is crucial to implement policies that support the shift to sustainable practices and decouple economic growth from resource use.

Sources: [https://sdgs.un.org/goals/goal12](https://sdgs.un.org/goals/goal12)
[https://sdgs.un.org/topics/chemicals-and-waste](https://sdgs.un.org/topics/chemicals-and-waste)

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12. Responsible consumption and production

Ensure sustainable consumption and production patterns

**Take urgent action to combat climate change and its impacts**

![13..JPG](https://goldilocks-images.s3.eu-west-1.amazonaws.com/13_26b36d59ff.JPG)

The science is clear: our climate is heating rapidly. The average global temperatures have increased by 1.2 degrees Celsius since 1880, particularly in the late 20th century. The concentration of atmospheric CO2, the GHG that contributes more than 2/3 to global warming, is at its highest level ever. The Intergovernmental Panel on Climate Change (IPCC) steadily points out that human activities have warmed the atmosphere, ocean and land, producing widespread and rapid changes in the atmosphere, ocean, cryosphere and biosphere. 

Without transformative action starting now and within this decade to reduce greenhouse gas emissions deeply and rapidly in all sectors, the 1.5°C target will be at risk and with it the lives of more than 3 billion people. 
According to IPCC, warming beyond 1.5 degrees could have irreversible and irreparable consequences. However, effective and equitable adaptation and mitigation actions can significantly reduce vulnerability and contribute to climate resilience. To limit global warming to well below 2, preferably 1.5 degrees Celsius, compared to pre-industrial levels, countries came together to hold themselves accountable under the Paris Agreement. 

Failure to act leads to intensifying heat waves, droughts, flooding, wildfires, sea-level rise, and famines. Emissions should already be decreasing now and will need to be cut almost by half by 2030 - a mere seven years from now. 


To combat climate change and its impacts by 2030, urgent and transformative action is needed to meet the commitments under the Paris Agreement across mitigation and adaptation efforts.

Sources: [https://sdgs.un.org/goals/goal13](https://sdgs.un.org/goals/goal13)
[https://sdgs.un.org/topics/climate-action-synergies](https://sdgs.un.org/topics/climate-action-synergies)

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13. Climate action

Take urgent action to combat climate change and its impacts

**Protect, restore and promote sustainable use of terrestrial ecosystems, sustainably manage forests, combat desertification, and halt and reverse land degradation and halt biodiversity loss**

![15..JPG](https://goldilocks-images.s3.eu-west-1.amazonaws.com/15_a3875a0f9c.JPG)

The world is facing a triple planetary crisis of climate change, pollution and biodiversity loss. The trend in forest loss, land degradation and the extinction of species is becoming worse, posing a severe threat to the health of the planet and people. Goal 15 will not be met without a dramatic shift in our relationship with our natural environment.

Forests have a significant role in reducing the risk of natural disasters, including floods, droughts, landslides and other extreme events. At the global level, forests mitigate climate change through carbon sequestration, contribute to the balance of oxygen, carbon dioxide and humidity in the air and protect watersheds, which supply 75% of freshwater worldwide. Mountains are also among the ecosystems to be conserved, restored, and sustainably used.

Similarly, deserts are being addressed as 'fragile ecosystems'. Desertification affects as much as one-sixth of the world's population, 70 percent of all drylands, and one-quarter of the total land area of the world. It could result, among others, in widespread poverty as well as in the degradation of billion hectares of rangeland and cropland. 

Sources: [https://sdgs.un.org/goals/goal15](https://sdgs.un.org/goals/goal15)
[https://sdgs.un.org/topics/forests](https://sdgs.un.org/topics/forests)
[https://sdgs.un.org/topics/desertification-land-degradation-and-drought](https://sdgs.un.org/topics/desertification-land-degradation-and-drought)



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15. Life on land

Protect, restore and promote sustainable use of terrestrial ecosystems, sustainably manage forests, combat desertification, and halt and reverse land degradation and halt biodiversity los

Slow strategies aim to keep materials in use for as long as possible, for example through design for durability and repairability. A more circular economy is also a slower one: materials, components, and products—and even buildings and infrastructure—that we lock in stocks are made to last. This will lower material demand in the long run, in essence also serving to narrow resource flows.

Slow

Regenerate strategies phase out hazardous or toxic materials and processes and substitute them with regenerative biomass resources. A circular economy aims to mimic natural cycles—by shifting to more regenerative farming practices, for example—while also maximising the share of circular biomass that enters the economy. Regeneration can happen both at the systems level (by designing regenerative processes) as well as at the product level (by switching synthetic to organic fertilisers, for example).

Regenerate

Cycle strategies aim to cycle and reuse materials at their highest value: they maximise the volume of secondary materials re-entering the economy, ultimately minimising the need for virgin material inputs and therefore also narrowing flows. Of course, virgin materials will always be needed to a degree: all materials degrade and can’t be cycled infinitely, use energy, and require blending with virgin materials to maintain strength and functionality.

Cycle

Consider opportunities to create greater value and align incentives that build on the interaction between products and services

Rethink the business model

Work together throughout the supply chain, internally within organisations and with the public sector and communities to increase transparency and create joint value

Team up to create joint value

Use digital, online platforms and technologies that provide insights to track and optimise resource use, strengthen connections between supply chain actors, and enable the implementation of circular models



Incorporate digital technology

Replace freshwater with less impactful alternatives and enact water efficiency measures

Regenerative water

Replace energy sources with less impactful alternatives and enact energy efficiency measures

Regenerative energy

Give products and parts another life after their end-of-use

Maximise lifetime of products after use

Ensure that biological products are properly managed and preserved

Maximise lifetime of biological products

Reuse, repurpose, and recycle waste streams within the same industry

Valorise waste streams - closed loop

Reuse, repurpose, and recycle waste streams within other industries

Valorise waste streams - open loop

Recover waste energy or generate fuels and energy from waste streams

Energy recovery from waste

Deliver products through business models that ensure maximum value

Product business models

Deliver services through business models that ensure maximum value

Service business models

Designing to reduce waste during production and use

Design out waste

Designing products that are made to last and to ensure longer use

Design for durability

Industry peers to industry peer collaboration to create joint value and identify synergies

Industry collaboration

Engage and guide customers and consumers to ensure circular use of products

Customer / consumer collaboration

Engage with the government on circular policies and programmes

Government collaboration

Engage internally to guide employees and facilitate greater knowledge sharing between internal divisions

Internal collaboration

Engage with the local community where facilities or offices are located

Community collaboration

Employ technologies to gather and analyse data to provide insights on resource use

Data and insights

Employ online platforms to connect and improve information sharing between stakeholders

Digital platforms

Enacting measures that optimise material use such as 3D printing, etc.

Material efficiency

Using <a href="http://ec.europa.eu/growth/sectors/raw-materials/specific-interest/critical_sv" target="_blank">materials that are not considered critical</a>.

Non-critical materials and inputs 

Using <a href="https://echa.europa.eu/information-on-chemicals" target="_blank">materials that are not toxic or hazardous</a>.

Non-toxic materials and inputs

Using materials that can be easily reused or recycled after use

Reusable, recyclable materials and inputs

Replacing freshwater use with rainwater, fogwater, seawater, etc.

Alternative water use

Enacting measures that optimise water use

Water efficiency

Converting fossil fuel based operations to electric

Electrification

Enacting measures that optimise energy use

Energy efficiency

Using renewable energy like solar, wind, etc. or renewable fuels like biomass, etc.

Renewable energy, fuels

Providing upgrade programmes or upgrade services for products or parts of products

Product upgrade

Providing DIY repair kits or spare part programmes for enabling self-repair

Self-repair, spare part service

Extraction and reuse of parts from end-of-life products for use in new products

Part recovery

Activities to clean, decorate, and restore products back to working condition for original or new purposes

Refurbishment, remanufacturing, renovation

Marketplaces or services that enable the second hand sale of own-brand products

Own brand second-hand sale

Marketplaces or services that enable the second hand sale of products

Second-hand sale, distribution

Preserving and conserving biological products such as food, forests, etc.

Preservation, conservation

Managing and enriching biological products such as soil, land, etc.

Management, enrichment

Collection programmes that process products and parts for reuse or recycling within the same industry

Closed loop collection

Transforming waste products, materials for reuse within the same industry

Closed loop upcycling

Using waste materials that have been processed and recycled to produce new products within the same industry

Using closed loop recycled materials

Transforming waste products into materials and lower value products within the same industry

Closed loop downcycling

Collection programmes that process products and parts for reuse or recycling within other industries

Open loop collection

Transforming waste products into materials and lower value products within other industries

Open loop downcycling

Transforming waste products, materials for reuse within other industries

Open loop upcycling

Using waste materials that have been processed and recycled to produce new products within other industries

Using open loop recycled materials

Generating energy from waste through processes such as anaerobic digestion, gasification, incineration, etc.

Generating energy from waste

Processing waste streams into fuels such as biogas, biofuels, pellets, etc.

Processing waste into fuel

Recovering and reusing waste heat, gas, etc. for energy

Recovery and reuse of waste energy

Selling parts of modular products that can be refilled

Sale of refillable parts

Providing products through leasing, rental, or pay-per-use models instead of sales

Leasing, rental, pay per use

Providing products through sharing between consumers, customers, etc.

Peer to peer sharing

Selling high quality, long-lasting products

Sale of durable, long-lasting goods

Selling parts of modular products that can be exchanged or replaced

Sale of exchangeable parts

Providing services through a subscription plan with regular payment schemes

Subscription-based services

Decentralised services that rely on the power of the crowd or the community

Crowd-based services

Providing services where customers are charged only when they use it

Payment per use

Designing products so they produce as little waste as possible during production

Design for minimal waste

Designing products so they use as little materials, water, energy, etc. as possible during use

Design for resource efficiency

Designing products that can easily breakdown and degrade in the environment

Design for bio-degradability

Designing products of multiple parts that can be easily disassembled

Design for disassembly

Designing products of multiple parts that can be easily exchanged

Design for modularity

Designing products with a single material type to more easily recycle them after use

Design for recycling - mono-materials

Designing products so they are able to be easily repaired

Design for repair

Designing products to be reused for the same or different purposes in multiple lifecycles

Design for reuse

Designing products to resist damage and wear, and serve a long and useful life.

Design for physical durability

Designing products to increase consumer’s emotional attachment and ensure longer use

Design for product attachment, emotional durability

Putting in place purchasing guidelines for procurement departments and evaluating suppliers on circular economy principles

Circular procurement

Working together with stakeholders and parties in other unrelated industries to implement circular economy strategies and opportunities

Cross-industry projects, pilots

Engaging in discussions with industry stakeholders to share circular economy best practices and push the industry towards greater circularity

Guidance, dialogue with industry stakeholders

Working together with industry peers to engage in business activities or exploratory projects that advance the circular economy

Joint industry ventures, projects, pilots

Working together with customers to jointly create products fit for them

Co-creation

Engaging in discussions with customers to educate and raise awareness of the circular economy and explore circular opportunities together

Customer dialogue, marketing 

Specific programmes or initiatives to help customers become more circular 

Customer programmes

Key elements of the circular economy

<p>Earlybird Skis, a Swiss company, has developed the world's first fully recyclable freeride skis. By utilising bio-based and recycled materials, along with an innovative epoxy resin, they have created high-performance skis that minimise environmental impact. This initiative exemplifies the application of circular economy principles in the sports equipment industry.</p>