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Leed Goals And Strategies 2.3.09
1. National Center for Community Renewal (NCCR)
Preliminary Goals and Strategies for
Leadership in Energy & Environmental Design (LEED)
Green Building Rating System for New Construction & Major Renovations
(LEED-NC) Version 2.2
This document describes initial thoughts for achieving scores in each of the
various criteria used for ranking the NCCR project in the Green Building Rating
System. As the design team, academic institutional partners, construction
industry / products partners, public utility partners, granting Foundation and
governmental support partners are assembled these initial thoughts will be
modified or changed into final goals and strategies to guide the building design,
construction and operations. The goal for NCCR is to achieve as high a ranking
as reasonably possible for this project. Some possible technologies that can be
incorporated will provide an initial savings or an operational savings that can
make the project more economically feasible. Other technologies may not be
easily justifiable in terms of economic feasibility. If this project can become a
demonstration to advance technologies that show potential for commercial
viability and funding can be secured, then this project will incorporate these
concepts to advance the science of green building and sustainable design.
The LEED categories and preliminary point targets include:
Sustainable Sites – 11 to 14 points
Water Efficiency – 3 to 5 points
Energy & Atmosphere – 8 to 14 points
Materials & Resources – 7 to 10 points
Indoor Environmental Quality – 13 to 15 points
Innovation & Design Process – 2 to 5 points
The scoring levels are:
Certified – 26 to 32 points
Silver – 33 to 38 points
Gold – 39 to 51 points
Platinum – 52 or more points
Based on the following initial project statements and goals for each of the criteria
the likely score could range between 44 (Gold) and 63 (Platinum).
Sustainable Sites (14 possible points – 11 to 14 points likely for NCCR)
Erosion and Sedimentation Control – required criteria (no points)
Erosion Control and Sedimentation plans are required by the City of
Shreveport for all construction projects. Buildings adjacent to the existing
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2. high rise that may be removed will require a plan to keep soil on site an out
of the city storm sewer and street. This will likely be some sort of silt
fencing.
Site Selection – (1 point)
The NCCR project should receive 1 point in this category as the project
site is in an existing central business district, renews a high-rise building
that results in minimizing the footprint and the potential for sharing parking
with neighboring buildings.
Development Density – (1 point)
NCCR is at the center of an urban metropolitan area that has seen little
commercially viable new development or renovations in over 10 years. It is
a catalyst project that will result in additional investment in this urban core.
The development intensity of this 200,000 s.f. project is approximately
280,000 s.f. per acre
Brownfield Development – (1 point)
The site for the NCCR includes a high-rise building that has been vacant
for almost 20 years largely due to extensive asbestos contamination.
Developing this property reduces pressure on developing Greenfield sites.
A remediation / abatement plan has been developed for the high rise and
grant funding obtained for removal.
Demolition and removal of materials should incorporate a plan for
recycling construction materials such as gypsum, wire, doors, steel frames,
aluminum and other products that can be sold or given to companies that
use waste materials in manufacture of new products. This procedure will
extend the life of waste material landfills, will reduce the extraction of
natural resources used for new materials and reduce the energy required
in the manufacture of new products.
Alternative Transportation: Public transportation access – (1 point)
The site is located on the main street and on a city bus transit route as
well as a downtown shuttle route. The main city bus transit transfer facility
is approximately 1 block from the site. The privately run intra city bus
station is 2 blocks from the site.
NCCR will work with the local transit authority / operator to offer incentives
to employees that utilize public transit.
Many of the users of this building will arrive and depart by use of bus, taxi
and airport shuttle.
SBCR operates a shuttle for transporting trainees and conference
attendees during their stay.
Alternative Transportation: bicycle storage and changing rooms – (1 point)
Bicycle storage and shower / changing facilities to accommodate 5% of
building occupants will be incorporated into the building design as a means
of reducing pollution and development impacts from automobiles.
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3. Alternative Transportation: alternative fuel vehicles– (1 point)
The public bus transit system is incorporating hybrid-fueled buses into its
fleet and will add more hybrid vehicles as funding is secured. The hybrid
buses can be used on routes that are used to service the NCCR.
Employees will be encouraged to live in and around downtown that will
allow walking to work or bicycling.
Future NCCR shuttle purchases will include alternative fuel vehicles for
transporting conference and trainee attendees that will exceed the goal of
3% of building users utilizing alternative fuel vehicles.
Alternative Transportation: Parking Capacity – (1 point)
Zoning in the Shreveport Central Business District does not require that
new or renovated buildings provide parking as a means of encouraging use
of public transportation and shared parking facilities. If parking is provided
it must meet the city parking requirements for the building use or
demonstrate through a parking demand calculation the actual usage. Most
users will arrive to the facility by public transport from the regional airport.
Demand calculations will show significantly less parking need than other
downtown office buildings and hotels.
Planned parking will expand the existing adjoining parking structure
upward 2 to 3 levels. The existing parking structure is designed for vertical
expansion.
Reduced Site Disturbance: Protect or restore open space – (1 point if the
equivalency description is accepted as described below)
This project will restore the urban fabric open space by re-establishing the
pedestrian oriented streetscape and providing a safe walking environment
with landscaping and amenities including storefront shops and outdoor
gathering places that encourage pedestrian activity. This will include the
elimination of a surface parking lot and replacement with a building that
adds to the urban context.
The redevelopment of this site protects natural land areas, farmland and
biodiversity of the region.
Reduced Site Disturbance: Development Footprint – (1point if the equivalency
description is accepted as described below)
The building complex will provide outdoor gathering places / plazas that
are in excess of city requirements. Landscaping, outdoors seating and
dining and public art will add to the urban environment. This regenerative
project will encourage additional investment in the downtown and
surrounding neighborhoods thereby conserving the natural environment
and slowing Greenfield development.
Stormwater Management: Rate and quantity - (1 point)
The NCCR will reduce runoff by increasing the permeable site area by
25% by the use of permeable paving surfaces and / or landscaped roof
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4. areas. The current site is 100% impermeable surfaces. Additionally
stormwater will be retained on site by use of a cistern and reused for
landscape irrigation. The size of this tank will likely be between 600 and
1000 cubic feet to result in a runoff reduction of greater than 50%.
Consideration will be given to increasing this capacity and using this water
for urinal and water closet flushing.
Stormwater Management: Treatment - (1 point if utilized)
The design team will evaluate natural and mechanical system for filtering
and treating runoff water to increase its utilization for onsite use such as in
toilets, for plaza feature fountains, janitor sinks. This system could possibly
incorporate treatment of gray water for these uses.
Heat Island Effect: Non roof - (1 point)
The building uses a minimum footprint at a development density
equivalent to 280,000 s.f. per acre.
A minimum of 30% of the non-roof impervious surfaces will be light
colored materials.
Shade trees will be a part of plaza and roof garden areas
A minimum of 50% of the parking added will be covered with additional
floors of structured parking.
Open grid pavement will be incorporated into street level plazas to reduce
the area of hard pavement.
Heat Island Effect: Roof - (1 point)
ENERGY STAR® www.energystar.gov compliant roofing that meets
reflectivity and emissivity requirements will cover at least 75% of roof area
for the NCCR. Vegetated roof areas may be considered if above street
landscape areas are included for building residents.
Light Pollution Reduction - (1 point)
Site lighting will be designed to minimize off site lighting and night sky
pollution. Lighting levels will be below the IESNA recommendations for
exterior environments. Artistic exterior lighting of the building and any
signage will provide full cutoff per ISENA. Exterior lighting may include LED
programmable lighting.
Lighting will be modeled using computer software that will illustrate the
nighttime appearance of lighting in a rendering.
Water Efficiency (5 possible points – 3 to 5 points likely for NCCR)
Water Efficient Landscaping: Reduce by 50% - (1 point)
Landscape irrigation will be reduced in excess of 50% by using captured
rainwater and / or treated greywater and no potable water.
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5. Selected landscaping will be indigenous to the region.
Water Efficient Landscaping: No potable use or no irrigation - (1 point in
addition to W.E.)
Landscape irrigation will use captured rainwater and / or treated greywater
and no potable water.
Innovative Wastewater Technologies – (1 point)
Wastewater generation will be reduced by at least 50% by specifying high
efficiency fixtures (some toilets will reduce usage by by 300% per flush).
Reuse and treatment of greywater should be evaluated and discussed
with the city for any bonus or incentive that might be offered.
Water Use Reduction: 20% reduction – (1 point)
NCCR will establish a goal to reduce water use by at least 30%. The
potable and non-potable uses will be calculated to measure the actual
amount of the reduction.
High efficiency fixtures, occupancy sensors, reuse of stormwater and
greywater for non-potable uses (toilet flushing, mechanical systems and
custodial uses) will be incorporated to meet the goal.
Water Use Reduction: 30% reduction – (1 point in addition to 20% reduction)
NCCR will establish a goal to reduce water use by at least 30%. The
potable and non-potable uses will be calculated to measure the actual
amount of the reduction.
High efficiency fixtures, occupancy sensors, reuse of stormwater and
greywater for non-potable uses (toilet flushing, mechanical systems and
custodial uses) will be incorporated to meet the goal.
The baseline condition for fixtures is the Energy Policy Act of 1992
Energy and Atmosphere (17 possible points – 8 to 14 points likely for
NCCR)
Minimum Energy Performance (Required)
Comply with the Louisiana Energy Code
CFC Reduction in HVAC&R Equipment (Required)
Reduce ozone depletion by not specifying any equipment that uses CFC
refrigerants
Optimize Energy Performance (1-10 points)
10.5% reduction is 1 point and 3.5% increments up to 10 points for a 42%
reduction when compared to an energy cost model that uses ASHRAE /
IESNA standard 90.1 – 2004.
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6. Regulated energy systems include HVAC, hot water and lighting
Innovation credits could apply for architectural systems or devices that
reduce energy consumption. These could include shading devices,
orientation, thermal chimneys, daylighting and others.
Renewable Energy: 2.5% (1 point)
Assess the use of non-polluting renewable energy potential including
solar, wind, geothermal, low impact hydro, biomass or biomass to provide
power for the building.
Take advantage of net metering with local utilities if on site renewable
sources are used.
Renewable Energy: 7.5% (1 point in addition to 2.5%)
Same as above
Renewable Energy: 12.5% (1 point in addition to 2.5% + 7.5%)
Same as above
Additional Commissioning (1 point)
Verify that the building functions as designed by hiring an independent
commissioning agent in addition to the design team to check design and
construction and additional instruction for the owner operation.
Ozone Protection (1 point)
Enhanced refrigerant management
Do not use HCFC’s or Halons in building refrigeration or fire suppression
systems
Measurement and Verification (1 point)
Install equipment to measure energy and water performance and a plan to
measure savings against predictions.
Green Power (1 point)
Provide 35% of buildings electricity from renewable resources (green
power contract with a local utility) in at least a 2 year renewable contract as
defined by Center for Resource Solutions (CRS) http://www.green-e.org/
Materials and Resources (13 possible points – 7 to 10 points likely for
NCCR)
Storage and Collection of Recyclables (Required)
The building design will include a collection area(s) dedicated to the
separation, collection and storage of materials for recycling including at a
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7. minimum paper, cardboard, plastics, glass and metals. Waste recycling
chutes will be considered in the renovated high rise.
Identify local waste handlers and recyclers to handle waste materials for
recycling. Instruct building occupants in procedures.
Building Reuse: Maintain 75% of existing walls, floors and roof - (1 point)
The 75% of structure and shell requirement does not include aluminum
window wall.
The shell structures will be approximately 80% reused. All systems of the
building including the curtainwall system will be replaced to renew the
building.
Building Reuse: Maintain 100% of existing walls, floors and roof - (1 point in
addition to 75%)
Obtaining this 1 point is not anticipated.
Building Reuse: Maintain 100% of the shell / structure and 50% of non-shell /
non-structure - (1 point)
Obtaining this 1 point is not anticipated.
Construction Waste Management: Divert 50% from landfill (1 point)
Recycle materials removed during building demolition. These potentials
could include aluminum, glass, gypsum board, steel studs and conduit,
wood, doors, steel frames, wiring, carpet and others.
Construction Waste Management: Divert 75% from landfill (1 point in addition
to 50%)
Recycle materials removed during building demolition. These potentials
could include aluminum, glass, gypsum board, steel studs and conduit,
wood, doors, steel frames, wiring, carpet and others.
Resource Reuse: 5% (1 point)
Incorporate salvaged materials. Reuse of salvaged materials is not
anticipated unless furnishings are purchased as refurbished.
Resource Reuse: 10% (1 point in addition to 5%)
Incorporate salvaged materials. Reuse of salvaged materials is not
anticipated unless furnishings are purchased as refurbished.
Recycled Content: 5% (post-consumer + ½ post-industrial) (1 point)
Specify materials that utilize recycled content such as aluminum, gypsum
board, wheat board cabinetry and others
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8. Recycled Content: 10% (post-consumer + ½ post-industrial) (1 point in addition
to 5%)
Specify materials that utilize recycled content such as aluminum, gypsum
board, wheat board cabinetry and others
Regional Materials: 20% manufactured regionally (1 point)
Use materials that are manufactured in the region to reduce environmental
impacts from transportation. Materials manufacture location will be criteria
in selecting materials for building construction.
Regional Materials: 50% manufactured regionally (1 point in addition to 20%)
Use materials that are manufactured in the region to reduce environmental
impacts from transportation. Materials manufacture location will be criteria
in selecting materials for building construction.
Rapidly Renewable Materials (1 point)
Establish a project goal for rapidly renewable materials and identify
materials and suppliers that can achieve this goal. Consider materials such
as bamboo flooring, wool carpets, straw board, cotton batt insulation,
linoleum flooring, poplar OSB, sunflower seed board, wheatgrass cabinetry
and others. During construction, ensure that the specified rapidly
renewable materials are installed.
Certified Wood (1 point)
Establish a project goal for FSC-certified wood products and identify
suppliers that can achieve this goal. During construction, ensure that the
FSC-certified wood products are installed and quantify the total percentage
of FSC certified wood products installed.
Indoor Environmental Quality (15 possible points – 13 to 15 points
likely for NCCR)
Minimum IAQ Performance (required)
Design HVAC system to meet minimum ventilation requirements and
identify potential IAQ problem sources.
Environmental Tobacco Smoke (ETS) Control (required)
NCCR will be a smoke free building
Carbon Dioxide (CO₂) Monitoring (1 point)
The HVAC system will be designed with carbon dioxide monitoring that is
integrated with the building energy management and automation system.
Ventilation Effectiveness (1 point)
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9. Design the HVAC system and building envelope to optimize air change
effectiveness. Air change effectiveness can be optimized using a variety of
ventilation strategies including displacement ventilation, low-velocity
ventilation, plug-flow ventilation such as under floor or near floor delivery,
and operable windows. Test the air change effectiveness of the building
after construction.
Construction IAQ Management Plan: During Construction (1 point)
Adopt an IAQ management plan to protect the HVAC system during
construction, control pollutant sources and interrupt contamination
pathways. Sequence the installation of materials to avoid contamination of
absorptive materials such as insulation, carpeting, ceiling tile and gypsum
wallboard.
Construction IAQ Management Plan: Before occupancy (1 point)
Prior to occupancy, perform a two-week building flush-out or test the
contaminant levels in the building.
Low-Emitting Materials: Adhesives and sealants (1 point)
Specify Low-VOC materials in construction documents. Ensure that VOC
limits are clearly stated in each section where adhesives and sealants are
addressed.
Low-Emitting Materials: Paints and coatings (1 point)
Specify Low-VOC paints and coatings in construction documents. Ensure
that VOC limits are clearly stated in each section where paints are
addressed.
Low-Emitting Materials: Carpets (1 point)
Specify Low-VOC carpet products and systems in construction
documents. Ensure that VOC limits are clearly stated where carpet
systems are addressed.
Low-Emitting Materials: Composite woods (1 point)
Specify wood and agrifiber products that contain no added urea-
formaldehyde resins.
Indoor Chemical and Pollutant Source Control (1 point)
Design separate exhaust and plumbing systems for rooms with
contaminants to achieve physical isolation from the rest of the building.
Install permanent architectural entryway systems such as grills or grates to
prevent occupant borne contaminants from entering the building.
Controllability of Systems: Perimeter spaces (1 point)
Design the building with occupant controls for airflow, temperature and
lighting. Strategies to consider include lighting controls, task lighting and
operable windows.
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10. Controllability of Systems: Non-perimeter spaces (1 point)
Design the building with occupant controls for airflow, temperature and
lighting. Strategies to consider include task lighting and under floor HVAC
systems with individual diffusers.
Thermal Comfort: Compliance with ASHRAE 55-1992 (1 point)
Establish temperature and humidity comfort ranges and design the
building envelope and HVAC system to maintain these comfort ranges.
Thermal Comfort: Permanent monitoring system (1 point)
Establish temperature and humidity comfort ranges and design the
building envelope and HVAC system to maintain these comfort ranges.
Install and maintain a temperature and humidity monitoring system in the
building to automatically adjust building conditions as appropriate.
Daylight and Views: Daylight 75% of spaces (1 point)
Design the building to maximize interior daylighting. Strategies to consider
include building orientation, shallow floor plates, increased building
perimeter, exterior and interior permanent shading devices, high
performance glazing and photo-integrated light sensors. Predict daylighting
via calculations or model daylighting strategies with a physical or computer
model to assess footcandle levels and daylight factors achieved.
Daylight and Views: Daylight 90% of spaces (1 point)
Design the building to provide daylight views from regularly occupied
spaces.
Innovation & Design Process (5 possible points – 2 to 5 points likely
for NCCR)
Innovation in Design (1 to 4 point)
Substantially exceed a LEED performance credit such as energy
performance or water efficiency. Apply strategies or measures that are not
covered by LEED such as acoustic performance, education of occupants,
community development or lifecycle analysis of material choices.
LEED Accredited Professional (1 point)
At least one member of the design team successfully completes the LEED
accredited exam.
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