Green chemistry seeks to minimize pollution and hazardous waste by designing chemical products and processes. It encourages safer product design, renewable feedstocks, and prevention of waste over treatment. The 12 principles of green chemistry provide a framework for minimizing risk through safer chemicals, renewable resources, energy efficiency, and design for degradation. Examples show how green chemistry has helped reduce pollution from dry cleaning, lead, and firefighting foams.
2. Green chemistry, also called sustainable
chemistry, is a philosophy of chemical research
and engineering that encourages the design of
products and processes that minimize the use and
generation of hazardous substances.
Green chemistry seeks to reduce and prevent
pollution at its source.
The term green chemistry was coined by Paul
Anastas in 1991.
3. Preventing pollution before it happens rather than
cleaning up the mess later.
Saving companies money by using less energy and
fewer/safer chemicals, thus reducing the costs of
pollution control and waste disposal.
Risk, in its most fundamental terms, is the
product of hazard and exposure:
Risk = Hazard X Exposure
4.
5. The Cuyahoga River in Ohio became so polluted
with chemicals it caught fire.
A plant accident in Bhopal, India, released methyl
isocyanate. Nearly 4000 people died.
An accidental release of chemicals, including
dioxin, in Seveso, Italy, in 1976 resulted in death
of farm animals and long-term health problems
for many local residents.
6.
7. Environmental disasters became important
rallying points for environmental issues
Cuyahoga River- 1972 Clean Water Act
Love Canal- 1980 Comprehensive
Environmental Response, Compensation &
Liability Act, better known as Superfund.
Emergency Planning & Community Right-to-
Know Act, requires that industries report
toxic releases.
8. MANY COUNTRIES HAVE ALREADY
ENACTED LAWS AND SIGNED
INTERNATIONAL TREATIES TO REDUCE
POLLUTION LEVELS, INCLUDING:
i. Montreal Protocol to Protect the Ozone
Layer
ii. Global Treaty on Persistent Organic
Pollutants
iii. Rio Declaration on Environment and
Development
9. Industries in the US spend over $100 billion/year
on waste treatment, control, and disposal.
1996 Dupont spent $ 1 billion for environmental
compliance (research budget $ 1 billion; chemical
sales of $18 billion)
10. Paul Anastas, then of the united states
Environmental Protection Agency, and John C.
Warner developed 12 principles of green chemistry,
which help to explain what the definition means in
practice. The principles cover such concepts as:
i. the design of processes to maximize the amount
of raw material that ends up in the product;
ii. the use of safe, environment-benign substances,
including solvents, whenever possible;
iii. the design of energy efficient processes;
iv. the best form of waste disposal: not to create it
in the first place.
11. The 12 principles are:
It is better to prevent waste than to treat or clean up waste after it
is formed.
Synthetic methods should be designed to maximize the incorporation
of all materials used in the process into the final product.
Wherever practicable, synthetic methodologies should be designed to
use and generate substances that possess little or no toxicity to
human health and the environment.
Chemical products should be designed to preserve efficacy of
function while reducing toxicity.
The use of auxiliary substances (e.g. solvents, separation agents, etc.)
should be made unnecessary wherever possible and innocuous when
used.
Energy requirements should be recognized for their environmental
and economic impacts and should be minimized. Synthetic methods
should be conducted at ambient temperature and pressure.
12. A raw material or feedstock should be renewable rather
than depleting wherever technically and economically
practicable.
Reduce derivatives - Unnecessary derivatization (blocking
group, protection/ deprotection, temporary modification)
should be avoided whenever possible.
Catalytic reagents (as selective as possible) are superior to
stoichiometric reagents.
Chemical products should be designed so that at the end of
their function they do not persist in the environment and
break down into innocuous degradation products.
Analytical methodologies need to be further developed to
allow for real-time, in-process monitoring and control prior
to the formation of hazardous substances.
Substances and the form of a substance used in a chemical
process should be chosen to minimize potential for
chemical accidents, including releases, explosions, and
fires.
13. “ Chemistry has an important role to play in
achieving a sustainable civilization on earth.”
— Dr. Terry Collins, Professor of Chemistry
Carnegie Mellon University
14. Technologies used for production of needed goods
are not harmful to the environment or to human
health.
Renewable resources (such as plant-based
substances or solar energy) are used rather than
those, like fossil fuels, that will eventually run
out.
Manufacturing processes are either designed so
as not to produce waste products,
– OR –
Waste products are recycled or biodegradable.
15. WHILE WE HAVE MADE SOME PROGRESS IN
ACHIEVING THESE GOALS, WE STILL
HAVE A LONG WAY TO GO…
Mountains of solid waste are piling up—
particularly in industrialized nations.
Air and water pollution continue to be
problems in many places.
BUT HOW CAN CHEMISTRY HELP US TO
ACHIEVE A SUSTAINABLE
CIVILIZATION?
16. The chemical industry produces many
products that improve our lives and upon which
we depend.
Antibiotics and other medicines
Fertilizers, pesticides
Plastics
Nylon, rayon, polyester, and
other synthetic materials
Gasoline and other fuels
Water purification
17. “Most of the environmental problems of
past centuries and decades, such as the biological
contamination of drinking water, were solved only
when the methods of science in general—and
chemistry in particular—were applied to them.
The phenomenal rise in human life expectancy and
in the material quality of life that has come about
in recent decades is due in no small measure to
chemicals and chemistry.”
— Colin Baird, Environmental Chemistry.
18. • This was the U.S. environmental law
stating that the first choice for
preventing pollution is to design
industrial processes that do not lead to
waste production.
• This is the approach of green chemistry.
19. Making chemical products that do not
harm either our health or the
environment,[harmless chemicals]
Using industrial processes that reduce
or eliminate hazardous chemicals, and
Designing more efficient processes that
minimize the production of waste
materials.
20. New syntheses of Ibuprofen and Zoloft.
Integrated circuit production.
Removing Arsenic and Chromate from
pressure treated wood.
Many new pesticides.
New oxidants for bleaching paper and
disinfecting water.
Getting the lead out of automobile paints.
Recyclable carpeting.
Replacing VOCs and chlorinated solvents.
Biodegradable polymers from renewable
resources
21. Safer dry cleaning
Initially gasoline and kerosene were used
Chlorinated solvents are now used, such as
perc
Supercritical/liquid carbon dioxide (CO2)
Perchloroethylene (“perc”) is the
solvent most widely used in dry
cleaning clothing.
Perc is suspected of causing cancer and
its disposal can contaminate ground
water.
22. Liquid CO2 can be used as a safer solvent if a
wetting agent is used with it to dissolve
grease.
This method is now being used commercially
by some dry cleaners
LEAD POLLUTION HAS BEEN DECREASED BY…
Replacing lead in paint with safe
alternatives, and
Replacing tetraethyl lead with less
toxic additives (e.g., “lead-free”
gasoline).
23. CHEMICAL FOAMS TO FIGHT FIRES
Millions of tons of chemical fire-fighting foams
used worldwide have discharged toxic substances
into the environment, contaminating water
supplies and depleting the ozone layer.
A new foam called Pyrocool FEF has now been
invented to put out fires effectively without
producing the toxic substances found in other
fire-fighting materials.
24. The future of clean abundant energy
depends on our ability to lower the costs of
chemical reactions in energy conversions
involving light, hydrogen, carbon, and oxygen.
These are the foundations of most energy
systems, and basis for developing ‘green
chemistry’ that avoid harmful by products.
25. This approach will be particularly important as we
strive to understand the fundamentals of
sustainability. While many of the current approaches
seek to address important elements of sustainability,
e.g., energy, or water, or food, it is important to
recognize that all of these elements of sustainability
are inextricably linked.
26. DEFINITION
Green Chemistry is the utilization of a set of principles that
reduces or eliminates
the use or generation of hazardous substances in the design,
manufacture and
application of chemical products .
GREEN CHEMISTRY IS ABOUT
Waste Minimisation at Source
Use of Catalysts in place of Reagents
Using Non-Toxic Reagents
Use of Renewable Resources
Improved Atom Efficiency
Use of Solvent Free or Recyclable Environmentally Benign Solvent
systems