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PITTSBURGH, Pa. – Members of the Portland Cement Association
announced the latest effort by their industry to significantly
reduce emissions and provide key environmental benefits by
proposing a change in the manufacture of portland cement.
Tom Chizmadia, PCA board member and chairman of the association’s
Environment and Energy Committee, outlined PCA’s proposal
to allow for the inclusion of up to 5 percent ground limestone
in the portland cement standard designated as ASTM C 150.
Speaking to the press gathered at the Greenbuild Conference
and Exposition, Chizmadia underlined the importance of this
change, “Such reductions could add significantly to
the environmental gains already achieved by the cement industry,
and are clearly in line with the nation’s global climate
policy goal of reducing greenhouse gas emission intensities.”
Chizmadia added, “with the addition of ground limestone,
our industry can provide the same quality product as we do
under current ASTM standards.”
The proposed change would bring U.S. standards into harmony
with those used in both Europe and Canada where the addition
of limestone has been used successfully for decades. The environmental
benefits include a reduction in use of raw materials, reduced
energy consumption, and reduced greenhouse gas emissions.
Assuming 2.5 percent limestone as an estimate of the average
use of limestone in practice, the annual benefits would be:
- Reduction in raw materials use of 1.6 million tons.
- Reduction in energy use of over 11.8 trillion BTUs.
- Reduction in carbon dioxide emissions of over 2.5 million
tons.
- Reduction of cement kiln dust of over 190 thousand tons.
These reductions provide an opportunity for a positive and
significant response to the call for voluntary reductions
in greenhouse gas emissions. Carbon dioxide would be reduced
by approximately 2.6 percent per ton of product produced.
Table -
Annual Reduction in Natural Resources and Emissions
Resulting From Use of 2.5% Limestone in Portland Cement
| |
Per Million
Tons of Cement |
Per 108 Million
Tons of Cement |
| Raw Materials Reduction (net) |
|
Limestone (tons)
|
7,000 |
756,000 |
Clay (tons)
|
8,000 |
864,000 |
| Energy Reduction |
|
Fuel (million BTU)
|
110,000 |
11,880,000 |
Electricity (1000 kWh)
|
1,750 |
189,000 |
| Emissions Reduction |
|
Particulate Matter, PM10
(lbs)
|
61,240 |
7,014,000 |
SO2 (lbs)
|
145,110 |
15,672,000 |
NOx (lbs)
|
145,060 |
15,667,000 |
CO (lbs)
|
25,880 |
2,795,000 |
Total Organic Compounds (lbs)
|
3,570 |
386,000 |
CO2 (tons)
|
23,570 |
2,546,000 |
| Waste Reduction |
|
CKD (tons)
|
1,820 |
197,000 |
U.S. Cement Industry Climate Change
Program
Chizmadia reinforced the cement industry’s commitment
to environmental progress by summarizing a three-part program
to reduce carbon dioxide emissions per ton of product by 10
percent between 1990 and 2020. The cement industry’s
plan addresses three areas:
- Manufacturing Process – Reduced emissions
through increased efficiency, decreased fossil fuel use,
and greater use of alternative fuels and recycled materials.
- Product Formulation – Formulate cements
using a lower proportion of calcined materials, thereby
reducing carbon dioxide emissions per unit of product.
- Product Application – Develop and promote
concrete products that provide sustainable solutions for
the building, design and construction industry.
The industry’s goal is consistent with the Bush Administration’s
climate change initiative, termed “Climate VISION,”
to reduce greenhouse gases through voluntary industry programs.
Record of Environmental Stewardship
Highlighting past accomplishments by the cement industry,
Chizmadia noted, “Through improvements in manufacturing,
it now takes 33 percent less energy to manufacture a ton of
cement than it did in 1975. Beginning in the mid-90s, we were
one of the first industries to study the issue of climate
change.”
“We developed a carbon dioxide emissions protocol and
means by which to record emissions reductions through the
Department of Energy’s 1605 (B) Greenhouse Gas Reporting
Program. For these efforts, our industry received the EPA’s
Climate Protection Award for our partnership within the EPA’s
Climate Wise program.”
Noting the cement industry is eager to grow alongside the
sustainable building movement, Chizmadia also introduced David
Shepherd as PCA’s director of sustainable development.
In this newly created position, Shepherd will communicate
the energy-efficiency of cement-based and concrete products
by providing technical support on environmental issues and
participating in the development of sustainability standards.
Inclusion of Limestone Approval Process
In early 2003, PCA proposed a change to ASTM C150 to
allow the use of up to 5 percent ground limestone in portland
cement. To move a change through the ASTM system, a vote of
90 percent or greater is required. Late in October, this proposed
change received 94 percent approval, thereby allowing it to
move to the next level within the organization prior to adoption.
Cement Manufacturing Process
– Four Basic Steps
- Raw materials—limestone with small quantities of
clay and sand—usually come from a quarry near the
plant.
- The materials are blended in the right proportions, then
ground together.
- The materials are heated in an industrial furnace—called
a kiln—to form an intermediate product called clinker.
Kilns reach temperatures of 1450 degrees Centigrade (2640
degrees Fahrenheit).
- Once cooled, the clinker is ground with a small amount
of gypsum in the fine gray powder known as portland cement.
About the Portland Cement Association
Based in Skokie, Ill., the Portland Cement Association represents
cement companies in the United States and Canada. It conducts
market development, engineering, research, education, and
public affairs programs.
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