Since the Industrial Revolution, economic growth accompanied the reckless excavation and exploitation of natural resources. Experts have warned of the environmental problems from such excavation and future resource depletion. Samsung Electronics is aware of these warnings and implementing a wide range of response measures.
In the process of product development and manufacturing, we efficiently use resources by technology innovation and find ways for inevitable waste and end-of-life products to use again. We will keep effort in making better products with fewer resources and to convert e-waste into usable resources.

Resource Efficiency KPI

This infographic shows global product recovery progress and goals. The accumulated recovered volume since 2009. The goal for 2030 is 7.5 million tons, globally.
  • Cumulative take-back of global e-waste

  • Use of Recycled Plastic

  • Use of sustainably sourced paper packaging

  • Waste recycling rate of Samsung Locations

  • Water use intensity

This infographic shows global product recovery progress and goals. The accumulated recovered volume since 2009. The goal for 2030 is 7.5 million tons, globally.
  • Cumulative take-back of global e-waste

  • Use of Recycled Plastic

  • Use of sustainably sourced paper packaging

This infographic shows global product recovery progress and goals. The accumulated recovered volume since 2009. The goal for 2030 is 7.5 million tons, globally.
  • Waste recycling rate of Samsung Locations

  • Water use intensity

We aim for a circular economy in which resources are continuously reused

To protect an environment in crisis and use resources more efficiently, Samsung Electronics is engaged in efforts to focus on a circular economy. Going beyond the conventional practice of using resources once and discarding them, Samsung is working to ensure that resources can be reused by recovering, reusing and recycling after the product’s lifespan. By minimizing the type of materials used and optimizing the assembly method, we have developed production methods that minimize the use of resources. By collecting products that have reached the end of their life span we recover valuable materials. Through this circular economy, Samsung is lowering the amount of natural resources required for production, reducing greenhouse gas and pollutants from the incineration of waste, and preventing soil and underground water contamination caused by landfills.

Above all, the best way to conserve resources is by making quality, long-lasting products. By strengthening the durability of our products before release through a series of strict reliability tests and by providing convenient repair services through its global service locations, including continuous software updates, Samsung is expanding the lifespan of our products to further contribute to the circular economy and conserving resources.

Circular economy structure adopted by Samsung Electronics
 

We breathe new life into end-of-life products

Recycling is important in a circular economic system, and to recycle, it is essential to take back used products. The circular use of resources is only possible if end-of-life products are not discarded but used to extract resources, sorted and reprocessed. Samsung operates the Re+ program globally for responsible recovery of end-of-life products.

As a part of the Re+ program, we installed collection bins at several locations frequented by customers. e-Waste can be disposed of at no cost, and the collected products are reused and recycled into a product that can be used again. We set up collection bins at Galaxy Studios in Chile, Australia and Sweden in 2017 and recovered e-waste from those markets. We also spent meaningful time with visitors introducing the Re+ program and emphasizing the importance of recycling. To improve the effectiveness of its recycling efforts, Samsung holds its recycling partners to the highest standards and closely monitors the product recovery and recycling performance of each country it operates in. As a result, we have successfully recovered 3.12 million tons of products from 2009 to 2017.

This is an image of Samsung Electronics’ Re+ program. Re+ is the most representative resource efficient program of Samsung Electronics.
Global Take-back and Recycling Activities
This map shows global Take-back and recycling activities happen in those countries: Korea, China, Japan, Taiwan, Vietnam, India, Austrailia, Russia, Turkey, South Africa, USA, Canada, Costa Rica, Colombia, Brazil, Peru and EU
  • CanadaCanada
  • ColumbiaColumbia
  • EuropeEurope
  • VietnamVietnam
  • TaiwanTaiwan
  • USAUSA
  • PeruPeru
  • IndiaIndia
  • KoreaKorea
  • AustraliaAustralia
  • Costa RicaCosta Rica
  • BrazilBrazil
  • ChinaChina
  • JapanJapan
  • Republic of South AfricaRepublic of
    South Africa
* 2016
Korea

· Take-back network (through retail logistics centers)
· Operating Asan Recycling Center
· Free pick-up service

Japan

· Participating in take-back and recycling consortiums

China

· Take-back and recycling system

Taiwan

· Participating in national recycling system

Vietnam

· Voluntary take-back bins at service centers

USA

· Take-back programs in all 50 states

Europe

· Take-back and recycling system in 37 countries

India

· Voluntary take-back program
· Free pick-up service

Australia

· Take-back and recycling for TVs, PCs and printers
· Voluntary take-back program for mobile phones

Republic of South Africa

· Voluntary take-back bins at service centers

Canada

· Take-back programs in all 10 provinces

Colombia, Peru, Costa Rica, Brazil

· Voluntary take-back programs

  • List of institutions for take-back and recycling by country 92 KB DOWNLOAD
  • List of institutions for packaging and battery recycling in European countries 166 KB DOWNLOAD

Once a resource is used, it is recovered, recycled and reused.

To go beyond linear consumption and disposal of resources, Samsung is carrying out various activities to create a closed-loop recycling system that makes it possible to use, recover, recycle and reuse resources. To do so, we analyse the composition of the products we make, analyse the risks from various perspectives including supply continuity, environmental impact, economic and social impact to improve the recycling rate of resources.

This image shows the typical composition of mobile phones, which are made of 35.1% plastic, 20.2% aluminium, 10.6% steel, 10.0% copper, 8.6% cobalt and 15.5% other materials.
One of the representative cases of Samsung’s recycling efforts is the Asan Recycling Centre, which is established and operated by Samsung. All major metal and plastic that comes out of the recycling centre are re-used to make electronics. Since it was established in 1998, The Asan Recycling Centre has been recycling waste electronics. In 2017 alone, it has processed 357,000 units of refrigerators, washing machines, air conditioners, and IT devices, separating 25.365 tons of major metals (steel, copper, aluminium, etc.) and plastic to be recycled. The plastic from waste electronics, sorted at the Asan Recycling Centre, are supplied to plastic manufacturers who reformulate them for reuse. Using a jointly-developed technology, Asan Recycling Centre has established a closed-loop recycling system that makes it possible to use the renewed plastic in Samsung products. The 1,500 tons of renewed plastic produced through this closed-loop recycling system in 2017 were used in Samsung refrigerators, air conditioners and washing machines. And when you consider the renewed plastic acquired from other channels, approximately 35,000 tons were used in making appliances, TVs, monitors and mobile phone chargers. Copper is separated from major components (wires, compressors, etc.), recycled and used to make other electronics. Another example is cobalt, which is one of the major resources used in mobile phone batteries. To recycle cobalt, it is extracted from lithium-ion batteries and reused as raw materials for batteries. In addition, we are making various attempts to achieve closed-loop recycling of major metal resources, such as using aluminium recovered from discarded mobile phones into frames of certain TV models in 2017.

One of the representative cases of Samsung’s recycling efforts is the Asan Recycling Centre, which is established and operated by Samsung. All major metal and plastic that comes out of the recycling centre are re-used to make electronics. Since it was established in 1998, The Asan Recycling Centre has been recycling waste electronics. In 2017 alone, it has processed 357,000 units of refrigerators, washing machines, air conditioners, and IT devices, separating 25.365 tons of major metals (steel, copper, aluminium, etc.) and plastic to be recycled. The plastic from waste electronics, sorted at the Asan Recycling Centre, are supplied to plastic manufacturers who reformulate them for reuse. Using a jointly-developed technology, Asan Recycling Centre has established a closed-loop recycling system that makes it possible to use the renewed plastic in Samsung products. The 1,500 tons of renewed plastic produced through this closed-loop recycling system in 2017 were used in Samsung refrigerators, air conditioners and washing machines. And when you consider the renewed plastic acquired from other channels, approximately 35,000 tons were used in making appliances, TVs, monitors and mobile phone chargers. Copper is separated from major components (wires, compressors, etc.), recycled and used to make other electronics. Another example is cobalt, which is one of the major resources used in mobile phone batteries. To recycle cobalt, it is extracted from lithium-ion batteries and reused as raw materials for batteries. In addition, we are making various attempts to achieve closed-loop recycling of major metal resources, such as using aluminium recovered from discarded mobile phones into frames of certain TV models in 2017.

This image shows the waste plastic closed-loop recycling process at the Asan Recycling Centre.

We convert manufacturing waste into resources

The amount of waste produced from product development through the manufacturing process is considerable. For complex electronic devices with numerous components, even the packaging thrown away for each part adds up. At the end of a project, the many pilot products used to refine a product all go to waste. If these are all incinerated or buried, the environment will be polluted and resources will be depleted. By processing the waste through an environmentally responsible recycling company, Samsung is increasing the recovery of recyclable materials and has achieved its overall waste recycling goal of 95% in 2016, four years earlier than planned.

This image shows the waste plastic closed-loop recycling process at the Asan Recycling Centre.

We strive to develop eco-friendly materials
so we can recycle more resources

Eco-friendly materials are made by recycling resources that have been used previously or by processing materials that can be substituted for natural resources. In this way, the burden on the environment is reduced. Samsung Electronics is dedicated to reducing the use of natural resources and increasing the amount of waste that is recycled by researching and developing various ways to use recycled or plant-based materials.
For example, we used packaging materials made from recycled paper, natural stone fillers and sugar cane, thereby resulting in no environmental impact at the time of disposal. For products needing a lot of packaging because of their size, like refrigerators, we applied a material that can be used more than 40 times and that significantly reduced resource consumption. Moreover, in 2016, we used recycled plastic collected from ewaste in 5% of the total plastic needed to make new products.

Applications of Eco-friendly Materials
PCR plastic

PCR plastic * PCR: Post Consumer Recycled

· Applied to all smart device chargers since the Galaxy Note 4 (20%)

Bioplastic film with sugar cane extracts

Bioplastic film with sugar cane extracts

· Reduced GHG emissions by 25% compared to previous petroleum-based plastic films
· Used as TV accessory packaging material

A photo of plastics containing stone flour

Plastics containing stone flour

· Partially replaced polypropylene (PP) with natural stone fillers, saving 40% of petroleum-based resources
· Saved about 500 tons of petroleum-based resources a year
· Expected to result in 15% drop in CO2 emissions

A photo of reusable refrigerator packaging

A photo of reusable refrigerator packaging

· Eco-friendly packaging material made with expanded polypropylene that can be used more than 40 times
· Elimination of tape and styrofoam, resulting in a 99.7% decrease in total volatile organic compounds (TVOC), an effect equivalent to planting 63000 trees

Product Life Extention

Extended product lifespan through customer services and improved durability.

Samsung Electronics strives to improve the durability of its products by conducting various tests such as strength, drop, and lifespan tests in the product development stage so that our customers can enjoy consistent performance longer. Going beyond meeting international standards, we also conduct threshold tests such as free fall tests by different angles and floor material, and waterproof tests under various conditions.
Samsung also strives to minimize parts replacement and repairs due to product failure. Furthermore, we are focusing our efforts to extend the lifespan of products by providing quick product diagnostics and fixes by repair experts. To this end, we are providing convenient product pick-up and walk-in service options for repair and are continuously expanding Samsung's authorized network of Care Repair Centers to provide more accurate and faster diagnostics and repair services.

Mobile phone durability testing image
“Galaxy Upcycling”
- Transforming old mobile phones into new IoT devices

The Galaxy Upcycling project began with an employee’s idea to upcycle old Galaxy phones as IoT devices with new features. In 2017, various IoT concepts were proposed, such as smart CCTVs, pet feeders, and door bells, and over 50 prototypes were developed. Upcycling mobile phones into IoT devices not only extends the lifespan of the smartphone itself, but it lowers the need to harvest resources to manufacture new IoT devices, which ultimately conserves existing natural resources. This simple, yet innovative Galaxy Upcycling concept has the potential to solve future waste problems, and as such it was awarded "Sustainable Materials Management Cutting Edge Champion" by the US Environmental Protection Agency in early 2018.

Image of using an old mobile phone as a new IoT device

Conserve, reuse and recycle valuable water resources

In response to the increasingly serious global water resource crisis, and as part of our environmental protection efforts, Samsung Electronics instituted the 3R (Reduce, Reuse, Recycle) Strategy for water resources. We prevented the waste of water resources by replacing old valves to stop leaks and by developing sophisticated control units so that only the necessary amount is used. In addition, we reformed our processes so that water can be reused and water consumption reduced. Previously, water used in one process could not be reused in another since each process required water with different standards. However, by standardizing water, we can now reuse water in multiple processes. Thanks to such efforts, we were able to reuse 56,154 tons of water in 2017, which is 16% more than the year before, and reused water made up 46.6% of the total water used.
We continue to seek various ways to reduce our intensity-based water consumption (ton/KRW 100 million) to 50 by 2020 from the current level of 60.

This infographic shows the water resource policies. The upside is the basic philosophy, and the downside action guidelines. The basic philosophy is Samsung Electronics recognizes that water resources are important to maintaining a sustainable society and business, and this contributes to fulfilling our social responsibility as a global company to protect such resources. Action guidelines are 1) Strive to minimize water resource risks in business management, 2) recognize the importance of water resources as part of our corporate culture, 3) actively cooperate in complying with public water resources policies, and 4) disclose our water resource policies and activities.
Our Eco-Conscious worksites coexist with nature
A background image of Eco-Conscious Worksites Page