jglkjd

1
jglkjd
L . E . E . D .

• Introduction

Indoor Environmental Quality
2
jglkjd
Indoor Environmental Quality
L . E . E . D .
Introduction

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Americans spend 80-90 of their time indoors
• Quality of indoor environment has a significant
  influence on health, productivity quality of
  life
• Legionnaires Disease and Sick Building Syndrome
  increase awareness of indoor air quality for
  building owners and occupants
• Sick Building Syndrome
• 19 US EPA employees sued successfully for 1M
• Show the need for optimal indoor environmental
  strategies

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
3
jglkjd
Indoor Environmental Quality
L . E . E . D .
Introduction

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Indoor Environmental Strategies
• Reduce liability for design team
• Increase resale value of building
• Increase productivity of building occupants
• IEQ improve worker productivity by as much as 16
• IEQ Strategies
• Ventilation Effectiveness
• Control of Contaminants
• Prevention of IAQ problems usually less expensive
  than the cure

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
4
jglkjd
Indoor Environmental Quality
L . E . E . D .
Introduction

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Prevention of IAQ problems usually less expensive
  than the cure
• Sequence construction so that materials that
  absorb contaminants are installed after other
  materials
• Protect air handling systems.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
5
jglkjd
Indoor Environmental Quality
L . E . E . D .
Prerequisite 1 Minimum IAQ Performance

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Intent
• Establish minimum indoor air quality (IAQ)
  performance to prevent the development
• of indoor air quality problems in buildings,
  maintaining the health and well
• being of the occupants.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
6
jglkjd
Indoor Environmental Quality
L . E . E . D .
Prerequisite 1 Minimum IAQ Performance

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Requirements Submittals
• Meet the minimum requirements of voluntary
  consensus standard
• ASHRAE 62-1999, Ventilation for Acceptable Indoor
• Air Quality and approved Addenda.
• Letter from Mechanical Engineer Compliance with
  ASHRAE 62-1999
• Declare the ASHRAE 62-1999 procedure employed
• Technologies Strategies
• Design the HVAC system to meet the ventilation
  requirements of the reference standard.
• Identify potential IAQ problems on the site and
  locate air intakes away from contaminant sources.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
7
jglkjd
Indoor Environmental Quality
L . E . E . D .
Prerequisite 2 Environmental Tobacco Smoke (ETS)
Control

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

Intent Prevent exposure of building occupants
and systems to Environmental Tobacco Smoke (ETS).
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
8
jglkjd
Indoor Environmental Quality
L . E . E . D .
Prerequisite 2 Environmental Tobacco Smoke (ETS)
Control

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

Requirement 2.0 Zero exposure of nonsmokers to
ETS by prohibition of smoking in the building,
OR, provide a designated smoking room designed
to effectively contain, capture and remove ETS
from the building.
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
9
jglkjd
Indoor Environmental Quality
L . E . E . D .
Prerequisite 2 Environmental Tobacco Smoke (ETS)
Control

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Requirement 2.0
• At a minimum, the smoking room shall be
• directly exhausted to the outdoors with
• no recirculation of ETS-containing air to the
  nonsmoking area of the building,
• enclosed with impermeable structural deck-to-deck
  partitions and
• operated at a negative pressure compared with the
  surrounding spaces of at least 7 Pa (0.03 inches
  of water gauge).
• Performance of smoking rooms shall be verified
  using tracer gas testing methods as described in
  the ASHRAE Standard129-1997.
• Acceptable exposure in nonsmoking areas is
  defined as less than 1 of the tracer gas
  concentration in the smoking room detectable in
  the adjoining nonsmoking areas. Smoking room
  testing as described in the ASHRAE
  Standard129-1997 is required in the contract
  documents and critical smoking facility systems
  testing results must be included in the building
  commissioning plan and report or as a separate
  document.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
10
jglkjd
Indoor Environmental Quality
L . E . E . D .
Prerequisite 2 Environmental Tobacco Smoke (ETS)
Control

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

Technologies Strategies Prohibit smoking in
the building or provide separate smoking rooms
with isolated ventilation systems.
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
11
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 1 Carbon Dioxide (CO2) Monitoring 1
Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

Intent Provide capacity for indoor air quality
(IAQ) monitoring to sustain long-term
occupant health and comfort.
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
12
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 1 Carbon Dioxide (CO2) Monitoring 1
Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Requirement (LEED 2.0)
• Install a permanent carbon dioxide (CO 2 )
  monitoring system that provides feedback on space
  ventilation performance in a form that affords
  operational adjustments
• AND
• Specify initial operational set point parameters
  that maintain indoor carbon dioxide levels no
  higher than outdoor levels by more than 530 parts
  per million at any time.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
13
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 1 Carbon Dioxide (CO2) Monitoring 1
Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Requirement (LEED 2.1)
• Install a permanent carbon dioxide (CO2)
  monitoring system that provides feedback on space
  ventilation performance in a form that affords
  operational adjustments.
• Refer to the CO2 differential for all types of
  occupancy in accordance with ASHRAE 62-2001,
  Appendix C.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
14
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 1 Carbon Dioxide (CO2) Monitoring 1
Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Submittals
• Provide drawings, specifications and cut sheets
  highlighting the installed carbon dioxide
  monitoring system.
• Narrative
• Initial operation set point parameters
• Sequence of operation and control of building
  ventilation systems (if applicable)

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
15
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 1 Carbon Dioxide (CO2) Monitoring 1
Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

Referenced Standard There is no standard
referenced for this credit.
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
16
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 1 Carbon Dioxide (CO2) Monitoring 1
Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

Case Study Brengel Technology Center Milwaukee,Wis
consin LEED Certified Pilot Project that
showcases advanced building controls technologies
to maximize energy efficiency and indoor
environmental quality. To improve occupant
comfort and increase productivity, the HVAC
system in the building includes an integrated
comfort component to measure carbon dioxide
concentrations in occupied spaces in parts per
million (ppm). The monitoring system
also measures temperature, humidity, outdoor
airflow, carbon monoxide, and total volatile
organic compounds (TVOCs).
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
17
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 2 Increase Ventilation Effectiveness
1 Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

Intent Provide for the effective delivery and
mixing of fresh air to support the health,
safety, and comfort of building occupants.
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
18
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 2 Increase Ventilation Effectiveness
1 Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

Requirement For mechanically ventilated
buildings, design ventilation systems that result
in an air change effectiveness (E) greater than
or equal to 0.9 as determined by ASHRAE 129-1997.
For naturally ventilated spaces demonstrate a
distribution and laminar flow pattern that
involves not less than 90 of the room or zone
area in the direction of air flow for at least
95 of hours of occupancy.
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
19
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 2 Increase Ventilation Effectiveness
1 Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Submittals
• For mechanically ventilated buildings, test
  results showing an air change effectiveness (E)
  greater than or equal to 0.9 as determined by
  ASHRAE 129-1997.
• If E is less than 0.9, provide documented
  corrected design ventilation rate (CDVR) used in
  design.
• OR

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
20
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 2 Increase Ventilation Effectiveness
1 Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

• Submittals
• For mechanically ventilated buildings, provide
  narrative that describes compliance with ASHRAE
  Fundamentals Chapter 31, Space Air Diffusion
• For naturally ventilated spaces, provide air flow
  simulation patterns showing that at least 90 of
  area involved in the direction of air flow for at
  least 95 of hours occupied.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
21
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 2 Increase Ventilation Effectiveness
1 Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

Referenced Standards ASHRAE 129-1997 Measuring
Air-Change Effectiveness 800-527-4723
www.ashrae.org
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
22
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 2 Increase Ventilation Effectiveness
1 Point

• Introduction
• Prerequisites
• Minimum IAQ Performance
• Environmental Tobacco Smoke (ETS) Control
• Credits
• Carbon Dioxide (CO2) Monitoring
• Increase Ventilation Effectiveness
• Conclusion

PNC Firstside Center Pittsburgh, Pennsylvania CO
2 Monitoring CO 2 sensors located in the return
air duct Increase Ventilation Effectiveness
Complies with ASHRAE Fundamentals Chapter 31
through use of diffusers in both the under floor
and overhead air distribution systems and full
capacity economizers
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
23
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Credit 3 IAQ Management Plan Prevent indoor
air quality problems resulting from the
construction/renovation process, to sustain
long-term installer and occupant health and
comfort.
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
2
24
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .

• Credit 3.1 IAQ Management Plan
• Stage Construction
• Meet or exceed the minimum requirements of
• Sheet Metal and Air Conditioning National
  Contractors
• Association (SMACNA) IAQ Guideline for
  Occupied
• Building under Construction, 1995
• Protect stored on-site or installed absorptive
• materials from moisture damage
• Replace all filtration media immediately
• prior to occupancy. Filtration media shall have
  a
• minimum efficiency reporting Value (MERV) of
• 13 as determined by ASHRAE 52.2-1999

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
25
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 3.1 IAQ Management Plan Stage
Construction A copy of the Construction
IAQ Management Plan highlighting the five
requirements of SMACNA IAQ guidelines
Photographs of construction IAQ management
measures such as protection of ducts and
onsite stored or installed absorptive
materials. Provide cut sheets of filtration
media used during Construction and installed
immediately prior to occupancy with MERV
values highlighted.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
26
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 3.1 IAQ Management Plan Stage
Construction Sheet Metal and Air Conditioning
National Contractors Association
(SMACNA) IAQ Guideline for Occupied
Buildings under Construction, 1995
www.smacna.org American Society of heating,
refrigerating and air conditioning engineers-
ASHRAE 52.2-1999 www.ashrae.org

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
27
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 3.2 IAQ Management Plan Stage After
Construction/ Before Occupancy Prevent indoor
air quality problems resulting from the
construction/renovation process in order to
help sustain the comfort and well-being of
construction workers and building occupants.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
28
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 3.2 IAQ Management Plan Stage After
Construction/ Before Occupancy Conduct a minimum
two-week building flush-out with new filtration
media at 100 outside air after construction
ends and prior to occupancy, OR Conduct
a baseline indoor air quality
testing procedure consistent with current EPA
Protocol for Environmental Requirements,
Baseline IAQ and Materials, for the Research
Triangle Park Campus, Section 01445.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
29
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 3.2 IAQ Management Plan Stage After
Construction/ Before Occupancy Provide a letter
from the architect or engineer describing
building flush-out procedures including
actual dates of building flush-out. OR Provide
specifications and documentation demonstrating
conformance with IAQ testing procedures and
requirements as described in the referenced
standard.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
30
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 3.2 IAQ Management Plan Stage After
Construction/ Before Occupancy EPA Protocol for
Environmental Requirements, Baseline IAQ and
Materials, for the Research Triangle Park
Campus, Section 01445. www.epa.gov/rtp/new-bldg/
environmental/s_01445.htm

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
31
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 3 IAQ Management Plan Case Study

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

The Greater Pittsburgh Community Food Bank,
Pennsylvania LEED certified Silver Project
Points
2
32
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 3 IAQ Management Plan Version 2.1
Changes 3.1 If air handlers must be used during
construction, filtration media with a Minimum
efficiency reporting Value (MERV) of 8 must be
used at each return air Grill. LEED Letter
Template 5 Design Approach 18 Photograph (
earlier No mention on number of photographs)

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
2
33
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4 Low Emitting Materials Reduce the
quantity of indoor air contaminants that are
odorous or potentially irritating to provide
installer and occupant health and comfort. The
credit does not apply to exterior paints and
materials that are not exposed to interior
spaces. Apply for an Innovation Credit if
applicable to your project ( i.e.. exterior
paints )

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
4
34
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.1 Low Emitting Materials Materials
Adhesives Sealants Adhesives must meet or
exceed the VOC limits of South Coast Air
Quality Management District Rule 1168 by,
All sealants used as a filler must meet
or exceed Bay Area Air Quality Management
District Reg. 8, Rule 51.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
35
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.1 Low Emitting Materials Materials
Adhesives Sealants Provide a cut sheet
and a Material Safety Data Sheet (MSDS) for
each adhesive used in the building highlighting
VOC limits. Provide a cut sheet and a
Material Safety Data Sheet (MSDS) for each
sealant used in the building highlighting VOC
limits.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
36
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.1 Low Emitting Materials Materials
Adhesives Sealants South Coast Rule 1168 by
the South Coast Air Quality Management District,
www.aqmd.gov a governmental organization in
Southern California with the mission to maintain
healthful air quality for its residents. The
organization established source specific
Standard to reduce air quality impacts.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Units mg/m2/hr
Points
1
37
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.1 Low Emitting Materials Materials
Adhesives Sealants Bay Area Air Quality
Management District www.baaqmd.gov This
California regulatory agency develops and
enforces air pollution regulations in its
seven-county jurisdiction.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
38
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.2 Low Emitting Materials Materials
Paints and Coatings Paints and coatings must
meet or exceed the VOC and chemical component
limits of Green Seal requirements.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
39
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.2 Low Emitting Materials Materials
Paints and Coatings Provide a cut sheet and
a Material Safety Data Sheet (MSDS) for
each paint or coating used in the building
highlighting VOC limits and chemical component
limits.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
40
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.2 Low Emitting Materials Materials
Paints and Coatings Green Seal is a nonprofit
organization that promotes the manufacture and
sale of environmentally responsible consumer
products.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

g/L Gram/ Liter
Points
1
41
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.3 Low Emitting Materials Materials
Carpets Carpet systems must meet or exceed the
Carpet and Rug Institute Green Label Indoor Air
Quality Test Program.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
42
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.3 Low Emitting Materials Materials
Carpets Provide a cut sheet for each carpet
product used in the building highlighting VOC
limits.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
43
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.3 Low Emitting Materials Materials
Carpets The Carpet and Rug Institute is a trade
organization representing the carpet and rug
industry. The organization established the Green
Label Testing Program Limits to identify
low-emitting carpet products for consumers

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

g/L Gram/ Liter
Points
1
44
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.4 Low Emitting Materials Materials
Composite Wood Composite wood and agrifiber
products must contain no added
urea-formaldehyde resins.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
45
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4.4 Low Emitting Materials Materials
Composite Wood Provide a cut sheet for each
composite wood or agrifiber product used in the
building highlighting urea formaldehyde resin
limits.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
46
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 4. Low Emitting Materials Case Study

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

The Carkeek Park Environmental Learning Center,
Seattle, W LEED Gold Project
Points
4
47
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 5. Indoor Chemical and Pollution Source

Control Avoid exposure of building
occupants to potentially hazardous chemicals
that adversely impact air quality.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
48
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 5. Indoor Chemical and Pollution Source

Control Design to minimize
cross-contamination of regularly occupied
occupancy areas Employ permanent entry way
systems (grills, grates, etc.) to capture dirt,
particulates, etc. Provide areas with structural
deck to deck partitions with separate outside
exhausting, no air recirculation and negative
pressure where chemical use occurs Provide
drains plumbed for appropriate disposal of
liquid waste in spaces where water and
chemical concentrate mixing occurs.

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
49
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 5. Indoor Chemical and Pollution Source

Control Provide drawings and cut sheets
highlighting entry Way systems, including
locations of entry ways in the
building. Provide a narrative and drawings
highlighting the deck-to-deck physical
separation and independent ventilation system of
chemical use areas and copy rooms. Provide a
narrative and drawings highlighting the plumbing
system employed in chemical mixing areas. No
Reference Standards

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
50
jglkjd
Indoor Environmental Quality - IEQ
L . E . E . D .
Credit 5. Indoor Chemical and Pollution Source

Control Case Study

• Introduction
• Credits
• Management Plan
  (Construction)
• Management Plan (After Construction/
  Before Occupancy)
• Low - Emitting Materials ( Adhesives
  Sealants)
• Low - Emitting Materials ( Paints Coatings)
• Low Emitting Materials (Carpets)
• Low Emitting Materials (Composite Wood)
  
• Indoor Chemical and Pollution Source Control
• Conclusion

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

The David L. Lawrence Convention
Center Pittsburg, PA LEED Gold Project
Points
1
51
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Provide a high level of individual occupant
  control
• Individual occupant control of
• Thermal systems
• Ventilation systems
• Lighting systems
• To support optimum health, productivity, and
  comfort conditions

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
2
52
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Credit 6.1
• Provide a minimum of one operable window and one
  lighting control zone per 200 SF for all occupied
  areas within 15 feet of the perimeter wall.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
53
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Credit 6.1 (LEED 2.0)
• Provide drawings and cut sheets highlighting
  operable windows and lighting controls for
  perimeter areas of the building.
• Include calculations summarizing the total
  perimeter occupied area and number of operable
  windows and lighting controls.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
54
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Credit 6.1 (LEED 2.1)
• Provide the LEED Letter Template, signed by the
  architect or responsible party, demonstrating and
  declaring that for regularly occupied perimeter
  areas of the building a minimum of one operable
  window and one lighting control zone are provided
  per 200 square feet on average.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
55
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Credit 6.1
• There is no standard referenced for this credit.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
56
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Credit 6.2
• Provide controls for each individual for airflow,
  temperature, and lighting for 50 of the
  non-perimeter, regularly occupied areas.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
57
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Credit 6.2 (LEED2.0)
• Provide drawings and cut sheets highlighting
  airflow, temperature, and lighting controls.
• Include calculations summarizing the total
  non-perimeter occupied area, number of occupants,
  and number of airflow, temperature, and lighting
  controls.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
58
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Credit 6.2 (LEED2.1)
• Provide the LEED Letter Template, signed by the
  architect or responsible party, demonstrating and
  declaring that controls for individual airflow,
  temperature and lighting are provided for at
  least 50 of the occupants in non-perimeter,
  regularly occupied areas.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
59
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Credit 6.2
• There is no standard referenced for this credit.

Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
1
60
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

Donald Bren School of Environmental Science and
Management Santa Barbara, California
Sections

• Intent
• Requirements
• Submittals
• Referenced Standard
• Case Studies

Points
2
61
jglkjd
Indoor Environmental Quality
L . E . E . D .
Credit 6 Controllability of Systems

• Introduction
• Credits
• Controllability of Systems
• Thermal Comfort
• Daylight Views
• Conclusion

• Donald Bren School of Environmental Science
• and Management
• Santa Barbara, California
• A LEED Gold Pilot Project housing campus
  facilities including research laboratories,
  teaching laboratories, and offices.
• The ventilation system incorporates operable
  wind