Green Reverse Logistics in the Electronics Industry10
The path to a greener supply chain is often paved with forward-looking ideas focused on environmentally friendly manufac-turing, transportation, and distribution processes. For some companies, however, the key to jump-starting supply chain sustainability can be found in reverse. By embracing reverse logistics strategies—including returns management, product repair and refurbishment, recycling of goods and materials, and proper disposal of materials from unwanted goods—companies can move the sustainability while also cutting costs and reaping products with a longer shelf life.
One business sector that is championing these activities— and seeing the bottom-line benefits—is the electronics indus-try, largely because of the skyrocketing growth in high -tech gadgets. Thanks to ever-changing technology, top sellers such as digital cameras, cell phones, video game systems, computers, televisions, and other electronic devices become obsolete in a few short years—leaving electronics manufacturers to deal with mountains of unwanted product.
Recycling
For electronics manufacturers, recycling unwanted com-ponents is one key aspect of green reverse logistics. In 2007, Samsung, a global leader in the electronics industry, began its Recycling Direct program—partnering with take-back and recycling companies that do not incinerate, send materi-als to solid waste landfills, or export toxic waste to developing countries—and has since recycled 14 million pounds of waste from its consumer goods and IT products. The company has established drop-off locations across all 50 states in more than 200 fixed locations, where consumers can take unwanted elec-tronics (both Samsung and non-Samsung brands) . “Our goal is to make it convenient for Samsung customers to recycle old TVs, phones, camcorders, printers, notebook computers, and other electronics at no charge,” explains David Steel, senior vice president of marketing for Samsung North America.
The company has also teamed up with the U.S. Postal Service and third-party logistics company Newgistics to op-erate the Samsung Take Back & Recycling program, which enables consumers to recycle used printer cartridges. Using a prepaid Smart Label, customers can return old printer car-tridges to Samsung by simply dropping them in any mailbox. Through this program, Samsung ensures that empty cartridges are safely reprocessed into their major usable component mate-rials (including plastics, metals, and packaging materials), and then it makes those reprocessed materials available for reuse in new manufacturing for a range of products.
Refurbishing
When a consumer returns an electronics product because it is outdated or not functioning properly, they don’t likely give much thought to what happens next. But what happens next is at the heart of business for companies such as ATC Logistics and Elec-tronics (ATCLE), which performs asset recovery, repair, and refurbishing services. Brian Morris, director of engineering for this Texas-based 3PL, gave a detailed explanation of the process involved in giving a returned product a new life:
When we receive returns from customers, we do a test in-spection to find out how many faults the product has. If there is nothing wrong with it, we can repackage it for sale. If it’s a faulty product, we identify the failure and determine what it takes to repair or refurbish that product.
The next step is to weigh the economics of the repair: Given the cost of fixing a product, does it make sense to repair it? This goes back to the cost/benefit of conducting the testing and refurbishment processes. There must be an acceptable ratio to be profitable. The range is typically 70 to 80 percent of the product’s original cost.
If a product is deemed worth fixing, we put it through our repair and refurbishment operation, and it emerges like new. If the product cannot be repaired, we look at its individual components. If the plastic housing is still in good shape, for instance, the plastic can be reclaimed and used to refurbish another product. Batteries are another key component. Most batteries are not exposed, so if they still hold a charge prop-erly and are in good shape cosmetically, they are often put through reconditioning. After reconditioning, we use them as replacement batteries or sell them to other refurbishing op-erations. We also find uses for components such as keyboards and USB cables.
Products with components that don’t make the grade are sorted into containers and sent to a recycling house. Recy-clers crush and grind plastic components and send them to an injection mold facility, where that plastic is put back into production for new plastics manufacture. Circuit boards can be crushed and smelted, and the precious metals—such as titanium, copper, and small traces of gold—are removed and sold to another circuit board manufacturer or even a jewelry house.
We are working to help manufacturers utilize refurbished and reclaimed parts so they can cut down on purchasing new parts. This helps them reduce costs, and it allows us to keep waste from piling up in landfills.
Questions
1. Consider the examples of recycling and refurbishing de-scribed in the case. Who are the various stakeholders who benefit from these efforts? How do efforts to build sus-tainable supply chains differ from simple good business practice?
2. Would Samsung have put in place the Take Back & Re-cycling program in a business environment that did not emphasize sustainability? Why or why not? What about ATCLE’s refurbishing services?
3. In your opinion, will sustainability become another core measure of operations and supply chain performance, in addition to cost, quality, delivery, and quality? Why or why not?