How Cisco's Circular Design Principles Are Helping to Minimize Environmental Impact
How Cisco's Circular Design Principles Are Helping to Minimize Environmental Impact
The following is an excerpt from the 2021 Cisco目的报告, published on December 13, 2021.
循环设计意味着设计能够重复使用,最大程度地减少环境影响,推动创新并实现利益相关者的价值的产品和系统。在2020财年启动了循环设计原则之后,我们优先考虑培训设计社区,并将这些原理进一步整合到标准的设计工具和要求中。188bet网址怎么打不开我们推出了一个互动,游戏化的培训课程,学习者在其中做出设计决策来“构建”思科产品,学习循环设计原理,并在优先级的供应链和工程团队中达到93%的完成率。
In addition to the Circular Design Principles training, we launched a circular design evaluation methodology and tool that will help us track progress toward our goal that 100 percent of new Cisco products and packaging incorporate the Design Principles by 2025. The evaluation methodology was developed with the help of a cross-functional team of leaders from our product design, manufacturing, and service organizations. We tested these new tools by evaluating to what extent 15 products and 10 packaging designs at different stages of new product introduction (NPI) from across our product portfolio incorporated our Circular Design Principles. Of those, nine products and three packaging designs met the defined threshold for integration. The pilot included product families that have been collaborating closely with the Circular Economy team on integrating the Principles. Therefore, the scores are higher than what we expect to see next year with an expanded scope. In the coming year, we will continue to integrate the evaluation tool into our product development processes and expand scoring to additional product families.
As we continue to incorporate Cisco’s Circular Design Principles into all NPI product and packaging design, we are also identifying new opportunities to reduce unwanted or redundant items in shipments and reduce plastic waste. We have expanded our power cord opt out model to additional products and in fiscal 2022 we’ll evaluate providing customers with a more standardized option to opt-out of accessory kits when placing orders.
In fiscal 2021, Cisco met the 2025 goal to reduce virgin plastic by 20 percent and we closed out the goal. We reduced virgin plastics by 38 percent compared to our baseline due to an increase in the use of recycled plastic and COVID-19 impacts. We remain focused on reducing use of virgin plastic, facilitating reuse of materials and increasing the use of recycled plastic by further embedding Cisco’s Circular Design Principles throughout the business. This includes efforts like eliminating plastic bags for items such as external power supply units and power and accessory cables. We are also considering potential future goals that align with our focus on reducing the use of virgin materials and increasing the use of recycled plastic.
Circular thinking in new UCS-X servers
循环设计不是思科统一计算系统(UCS)团队的新概念。十多年来,UCS服务器已被设计为快速组装并使用常见工具拆卸。UCS产品由模块化,易于移动的组件构建,可针对维修,再利用和最终回收利用。该团队还从其许多产品中消除了湿油漆,并为较小单元提供了多包运输,以消除过多的包装。最新一代的UCS-X产品将其进一步发展,以简化的固定为特征,以加快拆卸过程,与前一代相比,用消费后的再生树脂制成的塑料零件以及粉末涂层使用量减少了62%。客户可以选择不需要的产品配件,以及带有回收泡沫包装的产品船。
优化产品包装
我们正在通过提高包装效率,最大程度地减少一次性塑料和泡沫,减少货物中不需要或多余的物品,并使用易于回收的材料来减少包装的环境足迹,并通过提高包装效率,最大程度地减少单使用塑料和泡沫,从而实现目标的环境足迹。在2021财年,我们在跨职能团队之间进行了重大合作,以确定许多新的包装解决方案和流程效率。这些变化导致节省成本,温室气体排放和减少物质废物,而不会损害产品保护。例如,我们重新设计了用于Catalyst C9600系列系列卡的常规插槽容器盒,以使用完整的重叠设计。预计该包装每年将消除多达9000磅的瓦楞纸岩,从而在2021财年运输的包装中消除了336,000磅的瓦楞纸。
To learn more about the progress we’re making to power a more inclusive future through CSR, visit our思科ESG报告中心,您可以阅读我们的2021 Cisco目的报告。