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Sustainability Report*
Sustainability @ Seagate
Seagate is committed to sustainable storage. Our engineering focus is on increasing storage capacity and utilization, while controlling the quantity and types of materials we use and improving energy efficiency and recyclability.
Sustainable Design Features
- PowerBalanceTM feature optimizes Watts/TB
- Maximize total cost of ownership savings through lower power and weight with helium sealed-drive design
- Base plate manufactured using 90% post-consumer recycled Aluminum
Energy and Greenhouse Gases
Manufacturing and using our products requires energy and produces Greenhouse Gas (GHG) emissions. We assess life cycle energy and GHG impacts and work towards improving energy and GHG efficiency and reducing ownership costs with each new generation of our products. Since 2022, our manufacturing facilities have operated using 100% renewable energy.
Power Consumption | Per Unit | Per TB |
---|---|---|
Average Idle Power (W) | 5.3 | 0.3 |
Operating (W) | 9.5 | 0.5 |
Average Annual (kWh) | 49.8 | 2.8 |
Greenhouse Gas Emissions by Life Stage
Use Phase - Conventional Energy
4.4% | Bill of Materials | |
7.2% | Manufacturing | |
0.1% | Packaging | |
1.4% | Distribution | |
86.8% | Use Phase | |
0.1% | End of Life |
2.28
kg CO2e/TB-yr
Use Phase - Renewable Energy
26.7% | Bill of Materials | |
43.6% | Manufacturing | |
0.4% | Packaging | |
8.4% | Distribution | |
20.2% | Use Phase | |
0.8% | End of Life |
0.38
kg CO2e/TB-yr
EXOS X18*ST18000NM001J,EVANSBP,18000GB,9D/18H
Safer Materials
As a leading supplier to major original equipment manufacturers, Seagate helps to establish standards for direct materials – components that make up our products -- to meet customers’ strictest specifications. We are meticulous about cataloging restricted substances; currently we list more than 2,000.
Human Toxicity by Life Cycle Stage
Use Phase - Conventional Energy
29.1% | Bill of Materials | |
3.6% | Manufacturing | |
0.1% | Packaging | |
0.2% | Distribution | |
66.9% | Use Phase | |
0.2% | End of Life |
7.84E-7
DALY/TB-yr
Use Phase - Renewable Energy
87.8% | Bill of Materials | |
10.8% | Manufacturing | |
0.2% | Packaging | |
0.5% | Distribution | |
0.0% | Use Phase | |
0.7% | End of Life |
2.60E-7
DALY/TB-yr
Scarce Resources
We aim to reduce our use of scarce resources during the life cycle of our products. We assess the water and mineral resource depletion impacts of our products in order to minimize dependence on key natural resources and reduce manufacturing and product ownership costs.
Mineral Resource Scarcity by Life Cycle Stage
Use Phase - Conventional Energy
95.1% | Bill of Materials | |
0.2% | Manufacturing | |
0.1% | Packaging | |
0.0% | Distribution | |
4.6% | Use Phase | |
0.1% | End of Life |
0.006
kg Cu eq/TB-yr
Use Phase - Renewable Energy
99.7% | Bill of Materials | |
0.2% | Manufacturing | |
0.1% | Packaging | |
0.0% | Distribution | |
0.0% | Use Phase | |
0.0% | End of Life |
0.006
kg Cu eq/TB-yr
Water Consumption by Life Cycle Stage
Use Phase - Conventional Energy
23.6% | Bill of Materials | |
18.8% | Manufacturing | |
0.0% | Packaging | |
0.0% | Distribution | |
57.5% | Use Phase | |
0.0% | End of Life |
0.026
m3/TB-yr
Use Phase - Renewable Energy
10.3% | Bill of Materials | |
8.2% | Manufacturing | |
0.0% | Packaging | |
0.0% | Distribution | |
81.5% | Use Phase | |
0.00% | End of Life |
0.059
m3/TB-yr
Materials Efficiency and Circularity
Seagate recognizes the traditional “take, make, dispose” linear approach to business is unsustainable. We measure our progress towards a circular economy with a variety of indicators including material used per TB of storage, use of recycled content, reuse rates, and recycling type and efficiency.
Device Weight - Shipped (g) | Per Unit | Per TB | |
---|---|---|---|
Drive | Enclosure | 519 | 29 |
Media | 138 | 8 | |
Electronics | 16 | 1 | |
Packaging | Cardboard and paper | 55 | 3 |
Other materials | 19 | 1 | |
Total | 747 | 41 |
Key Circularity Parameters | Per Unit |
---|---|
Estimated Operating Life | 5 years |
Recycled aluminum in base plate | 90% |
Recycled aluminum in other parts | World average |
Recycled steel content | World average |
Recycled cardboard | 100% |
Reused content | zero |
Recycling rate | 25% |
Residual disposal | 100% landfill |
Reuse rate | zero |
Recycling efficiency | 95% |
Recycling collections efficiency | 90% |
Seagate measures and reports its product sustainability performance on a TB-year basis. Seagate's drives come in different storage sizes and have different estimated useful lives. When referring to drive capacity, one terabyte, or TB, equals one trillion bytes. The TB-year measure combines these factors so that sustainability performance data is comparable across products and that annual impacts are directly reported. Seagate uses the Ecoinvent 3.8 Life Cycle Inventory database.
Seagate’s sustainability assessment tools used to generate life cycle assessment results have been verified by UL in accordance with ISO 14040, ISO 14044, and the World Resources Institute and World Business Council for Sustainable Development's GHG Protocol Product Life Cycle Accounting and reporting Standard.
© 2021 Seagate Technology LLC. All rights reserved. Printed in USA. Seagate, Seagate Technology and the Wave logo are registered trademarks of Seagate Technology LLC in the United States and/or other countries. Seagate reserves the right to change, without notice, product offerings or specifications. DS1663.4-0911US, March 2016.
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EXOS X18*ST18000NM001J,EVANSBP,18000GB,9D/18H