Environmental Attributes of Concrete
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Concrete's Contribuition to Green Building
Points
Excerpted from an article in Environmental Design and Construction,
September 2007 by William D. Palmer Jr.
Even without LCA, concrete yields green building points. The durability
alone that is one of concrete’s inherent qualities provides
an advantage in creating a sustainable structure.
But concrete’s greatest attributes, its durability and recyclability
yield fewer points under LEED® than they might. A University
of Minnesota study comparing LEED and Green Globes noted that “LEED
does not refer explicitly to life cycle assessment (LCA), although
collectively the LEED rating criteria cover practically the entire
life cycle of buildings. What is lacking are insights over possible
trade-offs between life cycle stages.” Green Globes, on the
other hand, “collectively embrace(s) the major components
of a building product system’s life cycle and features a distinct
rating criterion referring to LCA and covering the entire life cycle
of building materials.”
Without consideration of LCA, especially when looking at the entire
life of a project, concrete appears to be at a disadvantage, since
it has a relatively high initial embodied energy and environmental
impact through the manufacture of cement and the mining of aggregate.
With concrete, you are investing up front, but reaping the payout
over the entire lifetime of the structure. Insulated concrete wall
systems dramatically reduce air leakage and its thermal mass moderates
peak cooling and heating loads, helping to conserve energy and minimizing
the lifetime energy cost. And not to consider concrete’s recyclability
at the end of a structure’s life also underestimates its sustainable
contribution.
On the LEED side, a working group has submitted a report to the
USGBC board on how to incorporate LCA, which it has endorsed. Ultimately,
the approach will most likely be to treat LCA like energy and require
a whole-building analysis, although that will take some additional
time.
Even without consideration of its durability, concrete makes important
contributions to points under LEED, and Green Globes, in several
ways:
Storm water management - Minimizing and optimizing energy
use
- Reducing construction wastes
- Utilizing recycled content in both the concrete and reinforcing
steel
- Use of regionally produced materials
- Improving indoor air quality
Minimizing and Optimizing Energy Use
The insulated concrete wall systems available today integrate three
processes to save energy: High R-value from rigid insulation dramatically
reduces air infiltration with solid wall assemblies and thermal
mass, moderating daily temperature swings and reducing peak loads.
This combination results in energy saving performance not available
in traditional frame construction methods. This is demonstrated
in PCA report conducted by CTL Group, Modeling
Energy Performance of Concrete Buildings
(SN2880a).
Reducing Construction Wastes
Concrete construction, performed using modern construction equipment
such as modular forms and bracing generate very little waste. There
is always, however, some excess concrete from clearing pump hoses,
excess delivered concrete, or out-of-spec concrete. This waste concrete
can be crushed and used as fill.
Recycled Content
LEED credit MR-C4 and Green Globes credit E.2.2 encourage the use
of recycled material in a building’s construction. Using fly
ash or slag as a replacement for portland cement, however, is not
enough to reach the required amount. “In a recent example,”
says PCA Director of Sustainable Development, David Shepherd, “I
found that a fairly high 50 percent replacement of portland cement
with fly ash resulted in a recycled content value of 0.85 percent
for the total project. This is an 8.5 percent contribution to achieving
one credit, but people shouldn’t think they’re going
to get a full credit from just using supplementary cementitious
materials such as fly ash.”
Significant use of concrete in a structure should easily qualify
a project for the two points awarded by LEED for having 20 percent
of the building’s materials originate regionally. While there
are exceptions, typically all aggregate is regional, and there are
very few instances when ready-mixed concrete would be transported
more than 500 miles it would be cost prohibitive to ship it that
far even if one wanted to. While it is true that portland cement
is a worldwide commodity, the best prices are typically on portland
cement that is manufactured within 500 miles. In most of the United
States, without too much difficulty, regionally manufactured cement
can be found.
Concrete Efficiency in Colorado with Precast Concrete
 The
CH2M Hill corporate headquarters in Englewood, Colo., achieves two
separate building objectives that are not always compatible: Efficient,
cost-effective construction and optimal energy performance. When
engineering firm CH2M Hill set out to build a new three-building
campus that reflected its conservationist tradition, it chose precast
concrete wall systems to speed installation, limit construction
budgets, and create an energy-efficient thermal envelope for each
structure.
The use of precast also allowed CH2M Hill to leverage some additional
benefits of concrete construction, including the use of recycled
content and locally sourced materials. As a result of the campus’
clever design and the integration of concrete with other ecologically
safe building applications, the CH2M Hill headquarters received
LEED certification in 2004.
Precast wall panels, such as those used by CH2M Hill, arrive at
the construction site fully formed, therefore, no concrete is poured
onsite, limiting construction time, and significantly minimizing
waste. “In Denver, precast is used extensively for two reasons:
cost and schedule,” says Paul Todd, formerly of Barber Architecture,
the design firm that conceived and executed the design.
In addition to avoiding construction delays, cost overruns and construction
waste relative to other building systems, the precast concrete wall
systems at CH2M Hill’s headquarters provide the same superior
energy performance as other insulated concrete structures: high
thermal mass and low infiltration. And like all concrete wall systems,
the precast walls at CH2M Hill are durable and will help extend
the life of the building, requiring little maintenance.
The precast wall system used a concrete mix that incorporates fly
ash, a recovered byproduct of coal burning power plants.
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