Download - Analyis of Dell and Walmart's Initiatives to Replace Harmful Chemicals in their Supply Chains
An Analysis of Dell and Walmart’s Initiatives to Replace Harmful
Chemicals in Supply Chains
Bruce CohenCorporate Sustainability Strategy
Professor Mathew GardnerHarvard University Extension School
December 10, 2014
A growing number of companies are moving to reduce harmful chemicals in their
products and supply chains. Dell and Walmart are among the leaders, moving well
beyond competitors both in adopting sustainable chemical polices to reduce and
eliminate harmful substances and innovating through designing new products made
entirely with safe chemicals.
This paper will examine the different approaches of Walmart and Dell in
implementing sustainable chemical programs. It will analyze their performance against a
set of industry best-practices including regulatory standards, chemical footprinting,
sustainability metrics, stakeholder engagement, and alternative assessments. The
paper first provides some context on the economic, political, and technological forces
moving companies to remove hazardous chemicals from their supply chains. The
business case for preemptive corporate regulation is considered, where companies
voluntarily adopt policies that exceed government standards in the face of broken U.S.
chemicals laws. Also discussed are technological advances in chemical-data
management, such as software platforms that enable companies to track harmful
components and ingredients in supply chains to meet chemical-specific restrictions
imposed by customers. Lastly, Dell and Walmart’s “cascading” effect is noted. Through
their sustainable chemical initiatives, these companies exert tremendous leverage on
competitors and firms in their supply chains to raise their sustainable chemical
standards.
Dell background and sustainability overview
Founded in 1984, Dell pioneered the concept of direct-retail sales of personal
computers. Founder Michael Dell would famously run ads in PC magazines, appealing
to customers looking for relatively high-quality PCs at modest prices. (Reference for
Business, 2014). Today, Dell is a $57 billion technology firm with products including
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desktop computers, network servers, enterprise workstations and servers. In 2013, Dell
was taken private in a deal valued at $25 billion.
Overall, Dell’s sustainability focus is on environmental impacts, which it expresses in
a goal: total economic value generated exceeds total value of resources used by a
factor of ten—achieved by 2020. (Dell corporate responsibility report, 2014). Dell’s
sustainability report details a large set of environmental goals sought by 2020 including:
50% reduction in GHG emissions from facilities and logistics operations; 100% of
packaging that is compostable or recyclable; 90% of waste from Dell-operated facilities
diverted from landfills.
In the area of community and social impacts, Dell has a focus on improving the
lives of disadvantaged youth globally through technology, such as installing solar-
powered classrooms in communities in Nigeria that lack electricity infrastructure, and
working with NGOs to provide computer-literacy skills training to children in the
Philippines.
Walmart Background and sustainability overview
Walmart is the world’s Number 1 retailer with $476 billion in revenues. It is also the
world’s largest employer with over 2.1 million employees. It is notable that Walmart long
has been criticized for an absence of social responsibility in some areas, particularly
discriminatory and anti-labor practices.
Like Dell, Walmart has chosen to focus its considerable sustainability resources on
environmental impacts, with major initiatives in renewable-energy generation, waste,
and product sustainability. Walmart is the largest on-site clean-energy producer in the
U.S., with 2,250 MW of installed capacity. (Walmart Global Responsibility Report,
2014); it has a goal of reaching zero waste by 2025, currently diverting from landfills
82% of waste from U.S. stores and distribution facilities.
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To help suppliers improve and measure their product sustainability, Walmart created
a Sustainability Index, developed in collaboration with The Sustainability Consortium, an
industry-widepartnership that develops sustainability standards for consumer products.
Walmart worked with 15 large suppliers—representing 30% of food and beverage sales
in North America—on a commodity optimization pilot, providing farmers with data and
tools to optimize fertilizer feeding and tilling practices in corn and soybean crop rotations
with the aim of reducing water usage and GHG emissions. (Walmart Global
Responsibility Report, 2014)
Walmart’s social responsibility initiatives are overseen by the Walmart Foundation,
which in 2013 made $1 billion in donations. One of the foundation’s focus areas is
hunger relief, where Walmart has made $250 million in grants to date and donated more
than 1 billion pounds of food. In disaster relief, Walmart in 2013 made $4 million in cash
and in-kind donations to 22 regions that suffered from natural disasters.
Business Case for Sustainable Chemicals
When it comes to the business case for sustainable chemicals in supply chains, one
first must understand the context of U.S. toxic chemical regulations. In the U.S.
hundreds of chemicals used in everyday household products from cosmetics and soap
to cleaning products have never been tested for toxicity to humans due to lax chemical
laws. (Greiner, 2012).
However, the European Union has banned many of these same chemicals, having
determined their exposure poses significant carcinogenic, mutagenic, and reproductive
toxic risk. Banned chemical include phthalates, found in shampoo, deodorant, and
fragrances and known to cause birth defects in male reproductive organs; polyvinyl
chloride (PVC), a component in electronic wires and cables that when burned produces
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carcinogenic and reproductive toxins. (U.S. Centers for Disease Control and Prevention,
2009).
As a result, numerous U.S. companies have decided to go beyond regulatory
compliance and proactively ban or restrict use of harmful chemicals in their products.
There exists a fairly extensive literature on the business case for companies
preemptively adopting stronger environmental standards. (Scruggs, 2013; Fiorino and
Bhan, 2012; Russo, 1997). Key drivers for implementing sustainable chemical policies
include:
Differentiating product to create competitive advantage
Preempting competition by innovating safe chemical solutions that may later be
required by law
Managing market position by pushing competitors to adopt similar policies
Reducing liability and reputational risks
Reducing costs by implementing standards among suppliers that increase
process efficiencies
Spurring product innovation through designing safer products
Desire to raise the standard of ethical corporate behavior
As for Walmart, a company that from its very founding has relentlessly focused
on reducing costs, clearlyone motivation in implementing a green chemicals policy is to
create a platform to further drive down costs. By creating a sustainable chemical
standard among its 100,000 suppliers, Walmart is able to wield its immense market
position to reduce costs and improve efficiencies.
There is a growing regulatory policy literature on the concept of “private market
regulation”—companies exerting market leverage to manage supply chains, in effect,
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forcing suppliers to adopt more uniform and higher standards of sourcing. (Fiorino and
Bhan, 2012)
This can be seen, for instance, at Patagonia, the outdoor apparel company, which
earlier this year began requiring suppliers to certify through chain of custody
documentation that down was not sourced from so-called “live plucked geese.”
In the case of Dell, sustainability has long been reflected in its core values and
operations. Dell was among the first U.S. electronics makers to publicly adopt a
chemicals policy restricting use of harmful chemicals in 2005. In addition, Dell was one
of the early computer manufacturers to eliminate toxic bromated flame retardants in
desktops, notebooks, and computer chassis parts in 2006. (Greiner, 2006)
Environmental and Social Responsibility
In the corporate world, there are numerous examples of companies preempting
environmental regulation to address social concerns. Blackburn cites examples such as
in the 1980s, drug maker Baxter International’s voluntary removal of hazardous
underground petroleum tanks and Toyota’s early initiatives to develop electric vehicles--
well in advance of higher emissions and mileage requirements in the U.S. (Blackburn,
2007)
Besides internal corporatefactors driving the adoption of sustainable chemical
practices, another critical factor is external social pressure. Calls for greater chemical
safety in consumer products are beginning to catch up to trends in other products.
(Greiner, 2006) In the fast food industry, concerns over rising obesity in America have
led to calls for regulation on the sale of unhealthy food like soda. And in the retail sector,
Walmart, notably, has seen concerns about the expansion of so-called big box retail
stores and the impact of job losses at local businesses constrain its expansion plans.
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What is more, as consumers have access to ever-greater information and data on
how toxic chemicals can accumulate and become concentrated in the food chain to
levels that are toxic to humans and the environment, companies will see more insistent
public calls to remove these substances.
Companies like Dell and Walmart, being responsive to intense social concerns about
the risks of toxic chemicals, essentially have adapted their core values to follow a higher
standard of behavior. As McKinsey consultant Ian Davis points out, such social issues
are not so much tangential to companies, but fundamental. (Davis, 2005). Davis argues
that farsighted companies keenly understand the implied social contract that lies
between businesses and society, similar to Rousseau’s classic social contract that
holds that political leaders must serve the public good, lest their own legitimacy be
threatened. Likewise, for companies there is a recognition that in return for their ability
to function, so-called “license to operate,” they are subject to rules and constraints.
Davis notes some companies manage such contracts by voluntarily adopting higher
standards of corporate behavior that may exceed regulatory mandates.
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Fig. 1 Dell Supply Chain
As large multinational firms, Walmart and Dell operate on a global footprint. Dell
manufactures most products it sells, with six manufacturing facilities in Austin, TX;
Nashville, TN Ireland, Malaysia; and, China. As a manufacturer, Dell, of course, has a
far more complex supply chain than Walmart. Working with 130 suppliers, Dell
coordinates a global production network combining in-house final assembly with
reliance on outside suppliers and design and contract manufacturers. (Kraemer, 2000).
In terms of its sustainability footprint, Walmart operates on a global scale,
operating 11,156 stores in 27 countries, with 100,000 suppliers and 158 distribution
centers.
Component Suppliers
LogisticsCompanies System
Integrators
Third-Party Hardware
and Software Suppliers
Repair and Support Vendors
DELL
Customer
Distributors
OEMs
Source: Kraemer, 2000
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Fig. 4 Walmart Supply Chain
Source: Walmart
In implementing a sustainable chemical program, a company must first adopt a
chemicals policy, which provides the guiding framework. At the heart of a chemicals
policy is selecting a recognized regulatory standard for determining a chemical’s
harmfulness. Both Dell and Walmart have adopted the standard used by the European
Union, known as the “precautionary principal.” In essence, the principal says that if
sound scientific evidence exists that a chemical poses significant health and
environmental risks, it should be avoided—even in the absence of definitive proof of
harm. The European Union has defined significant risk as chemicals with the following
characteristics: mutagenic, carcinogenic, or reproductive toxic. Further, the EU has
defined risk as chemicals that are persistent or bioaccumulative.
Why is the regulatory standard so critical? Thereis a growing bodyof scientific
evidence that many widely used household chemicals last for decades, travel long
distances from where they originate, and concentrate in toxicity as they migrate up the
food chain (Greiner, 2006).
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Thanks to advances in biomonitoring, research has shown that scores of toxic
substances are present in humans, from blood and breast milk to urine. The U.S.
Centers for Disuse Control has detected 212 chemicals in the blood and urine of
thousands of people tested from 1999-2004, the most extensive survey of toxic
chemicals in the body published by the federal government. (CDC, 2009) A large
number of such chemicals are toxic to the brain and nervous system, cause birth
defects or abnormal development, or cause cancer in humans. (Environmental Working
Group, 2014).
Scientists refer to this contamination by chemicals found in blood, urine, and breast
milk as a person’s body burden. As persistent chemicals remain in the body for long
periods of time, perhaps years or decades, chemicals build up in human tissue.
Chemicals that are persistent and bioaccumulative, but also toxic, are the most
damaging, such as perfluorooctane, commonly found in polishes, paints, varnishes.
(Greiner, 2006)Figure 3 shows a summary of health effects of some common toxic
chemicals.
Health Effects of Common Toxic ChemicalsFig. 3
Chemical Source Health EffectCarbon black Reinforcing agent in rubber products such
as tires and pigment in printingPossible carcinogen and mutagen (cause genetic damage)
Phthalates Soft vinyl, cosmetics Shown to cause birth defects in male reproductive organs
Mercury, Arsenic, Cadmium Mercury: canned tunaArsenic: treated lumberCadmium: household bake ware
Shown to cause developmental delays and cancer at levels found in environment
Perflourooctane Carpet protectors, plastic food wrapping Linked to cancer and birth defects
Source: Greiner, 2006
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Corporate Regulatory Compliance
In selecting a toxic chemicals standard, Dell earns high marks for adopting REACH
(Registration Authorization and Restriction of Chemicals). Administered by the
European Union, REACH is a widely recognized as the strictest and most wide ranging
chemical regulatory regime in the world. (Fiorino and Bhan, 2012)
In short, REACH operates through promulgating chemical lists. The Substance of
High Concern List bans chemicals that have one or more of such characteristics:
carcinogenic, mutagenic, toxic reproductive, or persistent, bioaccumulative, toxic. The
Authorization List bans a chemical unless authorization has been granted for a specific
use. The Candidate List is the first step in the process of a chemical being placed on the
Authorization List. However, if the chemical is used in concentrations above 0.1%, the
company must first obtain authorization.
Dell follows best practices in maintaining a banned and restricted chemicals list
based on REACH. Suppliers are contractually prohibited from using substances on the
banned list. Restricted chemicals generally may be used in concentrations under a
threshold limit.
Another important aspect of a chemicals policy is chemical footprinting,
systematically collecting and documenting chemical ingredients of all products, materials
and feedstocksthroughout the supply chain. Dell tracks chemical ingredients by requiring
suppliers to submit a declaration of conformity for every part, detailing material and
chemical content.
Sustainability Transparency and Metrics
One criticism of Dell is their use of a declaration of conformity-- a negative disclosure
where suppliers are merely certifying the component contains no substances on the
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restricted list. By contrast, a materials declaration, which is a positive disclosure and
higher standard, requires suppliers to detail every chemical ingredient in a component.
Though overall, Dell should be commended for its efforts to restrict some of the most
toxic substances. These include elimination of mercury in all new laptop displays with
LEDs in 2010. Dell has eliminated arsenic, commonly used in the manufacturing of
display glass, instead using arsenic-free glass in displays. The firm has made significant
strides in eliminating bromated flame retardants (BFR), which when burned produces
highly toxic pollutants. This stemmed from pressure Dell was getting from hospital,
banks, and government agencies worldwide requiring computers to be free of BFR. Also,
Dell has eliminated four classes of phthalates from all products since 2010, ahead of
likely REACH restrictions.
Walmart, which is in the beginning stages of implementing sustainable
chemicals, announced in 2014 a chemicals policy most notable for its lack of
transparency. All suppliers will be required to provide full ingredient disclosure online by
2015. Suppliers will report ingredients via an online chemical screening tool called
GreenWERKS.
In identifying harmful chemicals, Walmart has made a decision to initially target a set
of ten confidential “high-priority chemicals.” This is a restricted list, not publicly
disclosed, of chemicals that Walmart will communicate to it suppliers via GreenWERKS.
When a supplier enters a product’s ingredients in the database, they will be informed if it
contains any priority chemicals. Suppliers will be required to publicly disclose online all
priority chemicals by January 2018. (Walmart Implementation Guide for Policy on
Sustainable Chemistry in Consumables, 2014)
Walmart’s defense of the confidentiality of its chemicals list is the need to protect
confidential supplier trade information. This rationale is weak and secrecy should not
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trump the need for public disclosure. Confidentiality concerns could be addressed by
allowing suppliers, who can substantiate a need for confidentiality, to provide a functional
description of the chemical name. That way, Walmart could require suppliers to disclose
chemical ingredients as they’re identified by GreenWERKS, rather than delay disclosure
until 2018.
Overall, in the rollout of its chemicals policy, one gets the sense that Walmart is
obsessed with secrecy around restricted lists and their disclosure. I believe this works to
undermine trust by the public and weakens credibility.
Corporate Sustainability Management Systems
In utilizing tools like GreenWERKS, Walmart is at the forefront of supply-chain
chemical-data management, enabling it to manage such critical tasks as ingredients
disclosure and calculations and chemical-specific regulatory requirements.
The Sustainability Consortium, a collaboration of consumer product companies,
of which Walmart is a member, is developing Sustainability Measurement and Reporting
Systems (SMRS) to enable the measurement and reporting of sustainability related
information associated with consumer packaged goods. The system will include
reporting on human health, climate change, resource depletion, ecosystem quality, and
social impacts. Life cycle assessment provides the basic framework for the SMRS.
(Walmart Global Responsibility Report, 2014)
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Sustainability Metrics and Reporting
Fig. 4 Walmart Benchmarks for Evaluating Supplier Performance
Policy Element MetricsReduce volume of priority chemicals Weight volume of Walmart Priority Chemicals in
aggregate
Restrict and eliminate priority chemicals Number of UPCs with Walmart Priority Chemical(s)
Sales volume of UPCs with Walmart Priority Chemical(s)
Number of suppliers with Walmart Priority Chemical(s)
Use informed substitution GreenWERCS
Number of products formulated exclusively with DfE-approved ingredients
Source: Walmart
Walmart’s overall approach with suppliers in implementing its chemical policy is
not prescriptive. Instead, it give suppliers an expansive list of resources and tools and
states how they’ll be evaluated and a list of metrics, as noted in Figure 4. Walmart then
issues a scorecard summarizing performance. (Walmart Implementation Guide ,2014).
Walmart buyers will take into account the scorecard performance in making
procurement decisions.
As for Dell, there is little public information detailing its performance metrics in
evaluating suppliers. Dell does perform quarterly random audits of suppliers. Selected
materials are submitted to a third-party lab to test for the presence of restricted
materials. Dell will not release a part to production unless it has a declaration of
conformity document from the supplier. From time to time, Dell may request from a
supplier technical documentation to verify the declaration of conformity, such as internal
design controls or analytical test data. (Dell Chemical Use Policy, 2013)
Stakeholder Engagement and Alternative Assessment
One area where some of the most promising work on sustainable chemicals is
occurring through collaboration with stakeholders is the field of alternative-chemicals
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assessment—evaluating and comparing properties of chemicals and identifying safer
and preferable alternatives. Alternative-chemical assessment is based on the principal
of substitution: a chemical should be substituted when a safer alternative is available.
However, there are challenges to implementing substitution. Replacing a harmful
chemical and developing an alternative can be costly and resource intensive. And most
companies are reluctant to take the risk if they’re unsure of a market for the new
product. (Chemsec, 2014)
Dell and Walmart are both involved in Design for the Environment (DfE), a
pioneering collaboration between the U.S. Environmental Protection Agency,
businesses, research organizations, and public interest groups, aimed at lowering
barriers to substituting harmful chemicals and promoting green chemistry innovation. In
January 2014, Walmart began using DfE’s green labeling for private-label cleaning
products and plans to expand to other categories as the program grows. (Walmart
Implementation Guide for Policy on Sustainable Chemistry in Consumables, 2014)
Brand manufacturers apply for the DfE label by submitting products to DfE for
review. Each product is evaluated against a set of health and environmental criteria--for
example, if an ingredient is associated with causing cancer or reproductive harm. In
addition, the product must meet performance standards and contain environmentally
sustainable packaging. All product ingredients must be disclosed on the package itself
or the manufacturer’s website.(Design for Environment, 2014).
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Fig 5. Design for Environment Application Process
DfE’s methodology involves using existing primary data and predictive modeling
todetermine human health and environmental hazards of each chemical under
evaluation. Life cycle analysis is used to consider chemical hazards throughout the
manufacturing process, product use, and disposal. This includes a comprehensive
consideration of potential worker, consumer, and environmental exposure pathways.
Data sources include publicly available empirical data, data received by EPA as
confidential business information, and confidential experimental data supplied by
chemical manufacturers. (Design for Environment, 2014)
Dell is actively involved in the DfE flame retardant and printed-circuit board project.
The project stemmed from concerns that flame retardants historically used in printed
circuit board manufacturing were found to be highly toxic. Collaborating with DfE, the
electronics industry launched the project in 2006 to study the environmental and human
health impacts of new materials that can be used to meet the fire safety requirements
for circuit boards.
Source: Walmart
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DfE is one of many chemical alternative-assessment programs in the market.
Another is GreenScreen, developed by Clean Production Action, a Boston-based
nonprofit organization that works with companies on sustainable chemical initiatives.
GreenScreen’s free tool screens and ranks chemicals and materials for environmental
and health risks. It asks users to take into consideration chemical breakdown of
products when evaluating chemicals against four benchmarks. Once a safer alternative
is identified, a plan for implementation is developed, particularly if the substitution
affects production processes or work practices.
Another area seeing progress is the development of chemical-data management
standards that enable companies to communicate chemical ingredient data up and
down the supply chain. For example, the Greener Chemicals and Processes
Information Standard provides chemical companies with a standardized format to define
and report a chemical’s risk profile and impacts. It was developed by the National
Science Foundation and the American Chemical Society through involvement of a multi-
stakeholder group of manufacturers, suppliers, regulatory agencies, customers, and
academics.
The standard includes data on:
Chemical characteristics
Human health effects
Ecological effects
Physical safety properties
Chemical processes
Chemical efficiency and waste prevention
Water
Energy
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Biobased carbon content
Process safety
Social responsibility
Yet another field of sustainable chemicals on the technology forefront is green
chemistry. Green Chemistry and Commerce Council — a consortium of companies
including such firms as Timberland and Seventh Generation— that seeks to advance
sustainable chemicals, is currently leading an initiative to bring green chemicals into the
mainstream.
What exactly is green chemistry? It is the design, manufacture, and application of
chemical products without hazardous substances. With toxic chemicals absent from
materials, processes, and products, new markets can develop and costs associated
with toxic chemical handling like transportation, disposal and compliance reduced. The
idea is that by bringing green chemistry into the mainstream economy by making it a
standard practice, eventually all chemistry, by default, will be green chemistry (Becker
and Perlmutter, 2014). Green chemistry design criteria are embedded in product design
guidelines and at each stage of product development, so products are designed to be
green from their conception.
For example, Segetis, a small chemical producer, makes a cleaning solvent sold by
Seventh Generation made from waste wood trimmings and corn stalks. Yet despite the
launch of some high-profile products, historically green chemistry has attracted little
attention in chemicals research and product design. Among the reasons are lack of
government support and investment and few academic programs focused on research
and teaching. And because green chemistry lacks the status of, say, clean energy, it is
less likely to garner private investment.
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Evaluations and Conclusions
Overall, it is clear that Dell and Walmart are high-profile leaders in environmental
sustainability. Both companies have channeled their zeal and commitment to
environmental stewardship to theirwork on sustainable chemistry. As well, both
companies have recognized that sustainable chemical strategies are smart business
strategies — a means of differentiating brands and products for competitive advantage,
lowering costs through standardizing supply chains processes, and enhancing customer
loyalty by raising the standard of ethical corporate behavior.
Where the companies differ is that Dell has a long track record integrating
sustainable chemicals into supply-chain management and successfully mainstreaming
the precautionary principal in its operations. Walmart, of course, is just starting out on a
sustainable chemical policy, so in many respects, the jury is still out. Nevertheless, it
has begun by adopting many best practices, most importantly, formally adopting the
precautionary principle as the foundation of its chemical policy.
Where Walmart particularly stands out is its embrace of sustainability-management
system tools like GreenWERKS and the Sustainability Index to identify, track, and report
harmful chemicals in its supply chain. Walmart’s use of these best-in-class tools could
have a cascading effect on the market, pushing suppliers to adopt similar SCMS tools,
thus having the benefit of facilitating transfer of chemical data along the supply chain.
Another area where Walmart has done well is communicating with suppliers about
implementing its sustainable chemical program throughan internal online platform called
Sustainability Hub. In its chemical policy implementation guide published on the hub,
the company provides very clear instructions to suppliers on subjects from program
goals and timelines to technical assistance resources. Another strong point: Walmart’s
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decision to give suppliers wide of flexibility towards implementing the program, but
holding them accountable through clear metrics by which they will be measured.
In Dell’s case, there was relatively little public information describing tools and
systems for communicating with and tracking supplier performance. However, Dell
could strengthen its system for tracking supplier compliance with restricted chemical
lists by utilizing material disclosure—a far higher standard--rather than declaration of
conformity.
In the area of stakeholder engagement, both companies have done outstanding
work, particularly collaborating with other companies, government agencies, and NGOs
on such critical issues as alternative assessment and green chemistry. Here, Dell has
continued its pioneering work to eliminate the most egregious toxic chemicals from
computer parts, most notably polychloride vinyl (PVC) and bromated flame retardant.
Since 2001, Dell has been involved in the High-Density Package User Group, with Dell
leading a project in 2008 to move the electronics industry to remove halogen from
computer parts. Walmart has aggressively pursued alternative assessments, working
with such organizations as DfE to have all private -label cleaning products DfE certified.
Walmart’s chief criticism is the lack of transparency in the rollout of its restricted
chemicals list. It is striking that Walmart has refused to name chemicals on its restricted
lists—both “priority chemicals” and "high-priority chemicals.” As noted earlier, Walmart’s
claim of supplier confidentiality does not stand up to scrutiny. Because a high level of
transparency is so critical to a credible sustainability program, especially a new one, I
believe this could tarnish Walmart’s sustainable chemicals initiative as it gets off the
ground, despite the good work in other aspects of the program.
In the end, many challenges remain for companies to remove harmful chemicals
from their supply chains. And a number of those challenges are a function of the
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market’s current lack of chemical-tracking infrastructure. As ChemSec, a sustainable
chemicals NGO, points out, “the companies closest to consumers are those most under
most pressure to screen products for toxic substances and replace them when possible.
However due to lack of resources, these are often the companies in the least favorable
position to actually do so. The chemical using companies often receive inadequate, if
any, information on the products they receive from up the supply-chain.” In addition,
smaller companies often lack the technical know-how on chemical tracking,making the
handling of hazardous substances, or even the information on these a complex
business.” (ChemSec, 2014).
Nevertheless, the fact that companies like Walmart and Dell are on the forefront
of sustainable chemistry is crucially important. Their immense size and breadth
ofoperations confer tremendous leverage in working to remove harmful chemicals in the
retail and computer sectors, as well as influencing supply chain trends in other
industries.
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