SWANA Technical Division Article - What will solid waste management be like in the megaregions of the future?
What will
society look like in 40 years? How will our future affect solid waste planning
and management decisions? How will solid waste planning and management affect
our future?
Unfortunately,
there are no easy answers to those questions. However, as a society we need to
look beyond our traditional 20-year planning horizon to anticipate and
effectively plan for future events. This article discusses some of the potential
issues in the future of solid waste management.
The recent
movie WALL-E tells the story of an earth so polluted that people
were forced to leave the planet in luxury starliners and wait until it was clean
enough for their return. The cleanup job was assigned to a small robot named
WALL-E, and what was supposed to take five years ended up taking 400 years.
While I do not
expect that our society will fall into such a dire state in the next 40 years,
the management of solid waste will play an important role in the quality of life
for our future society.
Looking Back
Before looking
ahead 40 years, it is helpful to first look back. How has solid waste management
changed over the past 40 years? What were the forces driving change?
H. Lanier
Hickman Jr. wrote a book titled, American Alchemy: the History of Solid
Waste Management in the United States. In it, Hickman provides a thorough review
of the developments in solid waste management from 1940 to 2000, detailing the
history of regulation, collection and processing technology, and the development
of integrated solid waste management. I recommend this book to anyone desiring
to learn how we have evolved in our management of solid waste in the United
States.
Forty years
ago, society was changing at a rapid rate. The environmental movement was about
to take off. Traditional management of solid waste disposal at the local “dump”
would soon be replaced by technological improvements in landfill design,
waste-to-energy facilities, and recycling. The types of waste would also undergo
change, especially as plastics, computers, and other electronics became
commonplace.
While there are
many factors that have shaped solid waste management over time, three categories
emerge as some of the biggest driving forces: regulation, grassroots efforts,
and economics.
Regulation
The first
federal law regulating solid waste management in the United States, the Solid
Waste Disposal Act (SWDA) of 1965, was a broad approach that included a series
of research projects, investigations, experiments, training, demonstrations,
surveys, and studies. In the statute’s findings, Congress indicated two reasons
for the necessity of the SWDA: first, advancements in technology resulted in the
creation of vastly more amounts and types of wastes than in the past; and
second, rapid growth in the nation’s metropolitan areas had caused significant
financial, management, and technical problems associated with waste disposal
(“Solid Waste Disposal Act, 1965.” Major Acts of Congress. Brian K. Landsberg,
ed. Macmillan-Thomson Gale, 2004. eNotes.com. 2006).
Passed by
Congress in 1963, the Clean Air Act was the first federal legislation regarding
air pollution control. The Clean Air Act caused most small solid waste
incinerators to shut down in the early to mid-1970s because the cost of
pollution control upgrades would have exceeded the original cost of the
incinerators.
The Resource
Conservation and Recovery Act (RCRA) of 1976, which amended the SWDA, was the
first substantial effort by Congress to establish a regulatory structure for the
management of solid and hazardous wastes. Subtitle C of the RCRA addresses
“cradle-to-grave” requirements for hazardous waste from the point of generation
to disposal. Subtitle D of the RCRA contains less restrictive requirements for
nonhazardous solid waste. The RCRA was one of the first laws to emphasize
recycling.
Through RCRA
Subtitle D, Congress intended for the permitting and monitoring of municipal and
nonhazardous waste landfills to be a state responsibility. The impact of RCRA
Subtitle D has been to reduce the quantity but increase the size and degree of
the protection of landfills across the United States.
Regulations
continue to develop as the environmental community grapples with the extent and
nature of solid waste. Computers and pharmaceutical wastes are just some of the
wastes that are now showing up in larger quantities in the wastestream and
presenting disposal challenges.
Grassroots Efforts
Many grassroots
organizations have promoted change in the way solid wastes are managed in the
United States.
The grassroots
recycling effort was spurred on by the Mobro 4000. On March 22,
1987 a tugboat named Break of Dawn sailed out of New York Harbor
pulling Mobro 4000, a barge filled with 3,100 tons of municipal
solid waste. The barge ventured to North Carolina, Alabama, Louisiana, Texas,
Mexico, and Belize in search of a disposal site for the solid waste. However, it
failed to find such a location and returned to New York, where the waste was
finally incinerated at a facility in Brooklyn. A great deal of media attention
was paid to the Mobro 4000’s journey and the issue of solid
waste management practices.
The
Mobro 4000 had a profound impact on solid waste and recycling.
Within three years, most states passed laws requiring some kind of municipal
recycling. In the same time period, United States cities with curbside recycling
programs grew from 600 to almost 10,000
(http://wasteage.com/mag/waste_garbage_barge_recycling/).
Local and
national organizations alike have had impacts on recycling. Local groups
operating in communities across the country raised local understanding about
recycling and waste reduction opportunities. On a national level, groups that
have raised our national consciousness about recycling include the National
Recycling Coalition (NRC), the GrassRoots Recycling Network (GRRN), and the
Solid Waste Association of North America (SWANA).
The NRC is a
national nonprofit advocacy group that promotes all aspects of waste reduction,
reuse, and recycling in North America. Founded in 1978, the NRC’s objective is
to eliminate waste and promote sustainable economies through advancing sound
management practices for raw materials in North America.
As one of the
NRC’s initiatives to promote recycling, the group created America Recycles Day
in 1997. America Recycles Day is held on November 15 each year and is the only
nationally recognized day dedicated to encouraging Americans to recycle and
purchase recycled products.
The GRRN
developed around the central theme of “zero waste” in the mid-1990s. According
to GRRN: “Zero waste is a design principle for the 21st century that seeks to
redesign the way resources and materials flow through society. Zero waste
requires eliminating subsidies for raw material extraction and waste disposal,
and holding producers responsible for their products and packaging ‘from cradle
to cradle.’ The goal is to promote clean production, prevent pollution, and
create communities in which all products are designed to be cycled safely back
into the economy or environment”
(www.grrn.org/zerowaste/zerowaste_faq.html).
While not truly
a grassroots organization, SWANA, which was started by a few concerned solid
waste professionals under the organizational name Government Refuse Collection
and Disposal Association, has been the leading professional association in the
solid waste management field. SWANA’s mission is “to advance the practice of
environmentally and economically sound management of municipal solid waste.”
Between training, certifications, advocacy, and conferences, SWANA has played a
significant role in the advancing integrated solid waste management in North
America. As the division director of SWANA’s Planning and Management Division, I
would be remiss in not mentioning the contributions of SWANA in shaping solid
waste management practices.
Economics
In comparison
to some of our daily expenses, such as cable television, the cost of solid waste
management is relatively low. However, there is a cost to managing solid waste.
The collection, processing, recovery, and disposal of solid waste often involve
complex and expensive systems and equipment. Economics has and will continue to
have an impact on the management of solid waste.
Unfortunately,
sometimes the best approaches to solid waste management are not the most cost
effective or feasible. Source reduction often requires changes in human
behavior. The theory of homo economicus implies that people will
behave in a manner that is in their economic interests. Unless people are
economically encouraged to reduce their waste generation, through techniques
such as volume or weight based pricing systems, waste generation will not be
measurably reduced.
There is also a
cost to recycling and not everyone believes recycling is the most appropriate
solid waste management method. On June 30, 1996, John Tierney published an
article in The New York Times titled, “Recycling is Garbage.” In
his article, Tierney challenges the underlying assumptions that we are running
out of landfill space, natural resources are being depleted and argues that
recycling is too costly and uses too many resources for the good that it
allegedly achieves. Recycling, however, remains politically popular, and
Tierney’s article had the distinction of breaking The New York
Times’s hate mail record
(www.reason.com/news/show/33320.html).
In late 2008,
the United States experienced one of the worst downturns in recycling market
pricing in history. It is unclear what impact the current market pricing will
have on current and future recycling programs, but it is sure to provide another
challenge to the success of recycling.
Looking Forward
What will
future societies look like, and how will they manage solid waste? An initiative
named America 2050 has been developed by the National Committee for America
2050—a coalition of regional planners, scholars, and policymakers—to address the
infrastructure, economic development, and environmental challenges faced by the
United States. America 2050 anticipates that in the next 40 years an additional
130 million people will populate the United States.
America 2050
projects that the following trends will continue:
- Rapid population growth and demographic change
- Global climate change
- The rise in foreign trade
-
Sprawling and inefficient land-use patterns
-
Infrastructure systems that are reaching capacity
- The emergence of megaregions
Megaregions
A major focus
of America 2050 is the emergence of megaregions. Megaregions are large networks
of cities and metropolitan areas where most of the population growth will take
place. The megaregions have similar transportation systems, environmental
features, linked economies and social networks.
What does the
emergence of megaregions mean for solid waste planning and management? What will
the influences be on solid waste management in the next 40 years?
The
consideration of energy, water, climate change, and transportation will prevail
in the development of solid waste programs and facilities. Additionally, the
forces that have shaped solid waste management in the past—regulation,
grassroots efforts, and economics—will continue to shape solid waste policies
and practices in the future.
 |
Figure 1. Emerging Megaregions |
My first
prediction is that per capita solid waste generation rates will remain constant
in the future. We have seen constant per capita solid waste generation rates for
the past 20 years, and this trend is likely to continue. Regulations and
economics are the biggest factors affecting waste generation. Legislators could
implement regulatory or economic policies to encourage or mandate waste
reduction, but such actions are politically unpopular and, therefore, unlikely.
Economic recessions also result in lower per capita solid waste generation, as
we saw in 2008. Despite such temporary fluctuations, however, there will be
significant quantities of solid waste generated within the megaregions shown in
Figure 1, all of them requiring management.
My second
prediction is that solid waste will be an international commodity that will
trade, in part, on price. A global trade will develop in the processing and
disposal of unsorted solid waste, much like there currently exists for
recyclables. As technologies improve for the processing of waste as energy or
raw materials, there will be a greater public acceptance and ability for one
country (or megaregion) to dispose of its wastes in another country (or
megaregion).
Legitimate
concerns will be raised over the environmental justice of such actions. However,
as energy and raw material demands continue to increase globally, materials will
move from where they are less valued to where they are more valued. It is an
interesting thought that solid waste will be valued enough to be traded on a
commodity exchange (think MSW futures alongside pork belly futures).
My third
prediction is that solid waste systems will be developed that address some of
the pressing issues within the megaregions: energy, water, climate change, and
transportation. While some megaregions may choose to export their wastes, others
will develop the facilities to recover the energy and resource value of the
wastes.
Energy
Because
megaregions will require significant sources of energy, solid waste systems of
the future will seek to maximize the energy recovery. These systems will likely
include such technologies as mass-burn waste-to-energy, refuse-derived fuel, and
anaerobic digestion.
Landfills will
continue to be part of the solid waste disposal systems, but the percentage of
waste landfilled will decrease. All commercial landfills will maximize energy
production capabilities through methane recovery and will likely collocate with
other energy-producing systems, such as solar or wind power.
New
technologies will become commercially viable. Technologies that maximize energy
recovery, such as gasification and pyrolysis, will be given high priority. Waste
stabilization technologies that do not recover the energy value of solid
waste—such as aerobic composting or autoclaving—will likely have a smaller role
in future solid waste management.
Economics will
likely dictate the size of future energy-recovery systems. Smaller-scale
waste-to-energy facilities will develop where energy demands and transportation
costs are high. However, megaregions in general will likely see megasized
facilities that take advantage of economies of scale.
Water
Water quality
and supply will be critical to the functioning and environmental health of
megaregions. Solid waste systems of the future will have a high emphasis on
water conservation and quality. Solid waste complexes will feature
LEED-certified green buildings, best management practices for stormwater, and
onsite treatment and utilization of leachate.
Climate Change
Climate change
is already a concern with larger metropolitan areas. Future megaregions will
continue to be concerned about climate impacts and will plan to minimize their
carbon footprints.
In late 2008
and early 2009, Daniel Kammen, a professor at the University of California at
Berkeley, in association with the Science Channel, ran a series of television
shows titled, Ecopolis. Through the series, Kammen investigated
the challenges of future megacities, including food production, water, energy,
waste management, and transportation.
In the episode
about waste management, titled, “A World of Trash,” Kammen explores four
possible technologies to apply to the waste disposal needs of the future:
traditional waste-to-energy and building an island with the ash, plasma arc
gasification, sewage heating systems, and the production of biochar fertilizer
from source-separated organic waste. In Kammen’s technology evaluation, his
primary evaluation criteria was the technology’s carbon-emission
contribution.
The megaregions
will likely evaluate solid waste systems on their carbon or climate change
impacts. Systems will be selected based on emissions reductions, such as
managing less waste in landfills, and offsetting such other energy sources as
coal. As new solid waste management technologies become economically viable,
options for minimizing climate change should improve.
Transportation
Collecting and
transporting solid waste and recyclables efficiently and cost effectively will
be a significant challenge within the megaregions. Such alternative fuels as
biofuels from waste and such advanced engine technologies as fuel/electric
hybrids will gain in prominence. Collection and transportation systems will be
measured against a variety of metrics, including cost, energy consumption, and
carbon footprint.
Alternative
collection and transportation systems, such as pneumatic transportation of solid
waste, will begin to gain in popularity. Pneumatic collection systems, which
utilize a suction method to transport municipal solid waste, will be effective
for office buildings or housing complexes in which a public utility conduit has
been provided during development. Roosevelt Island in New York City and Disney
World in Florida currently utilize this type of waste collection system.
Shaping the Future
The factors
that will shape the future of solid waste management are likely to be the same
as those that have shaped the past: regulation, grassroots efforts, and
economics.
Solid waste
management in the future will require new regulations, especially for
international trade in waste and for new wastes, such as e-waste and chemical
wastes or compounds.
In order to
effect waste reduction, and in keeping with the theory of homo economicus,
regulations will be necessary that promote waste reduction through economic
incentives.
Grassroots
efforts will continue to be necessary, especially when it comes to waste
reduction, achieving zero waste, or addressing such issues as environmental
justice in the siting of future facilities.
As the current
economic situation within the United States demonstrates, economics will play a
significant role in providing for the solid waste systems of the future. The
best systems in the world are no good if we cannot afford them.
As
we plan for the long-term future of solid waste management, let us aim for
sustainable, energy-producing, climate-change-positive, water-balanced, and
transportation-friendly systems. In the spirit of the Iroquois, we should
consider the impact our future solid waste management decisions will have on the
seventh generation to inherit our actions.
The author
would like to acknowledge Dr. Annmarie Carlton for her time and input in the
development of this article.