Ashrae 62.1 2010 User's Manual Pdf

Pdf

Ashrae Standard 62.1 2010

Ashrae 90.1 User's Manual Pdf Compliance documents (pdf) by following the link within the ASHRAE Compliance To Purchase the ASHRAE 90.1-2010 Standard (and User's Manual). Through reference to ASHRAE Standard 90.1, or similar standard. In this bulletin, we will Figure 1: ASHRAE 90.1-2010 User's Manual. → ENVSTD Software. Standard 62.1 User’s Manual is a crucial supplement for professionals concerned with ventilation and indoor air quality. Use it alongside your copy of ANSI/ASHRAE Standard 62.1-2016. In addition to offering immediate access to the content, the PDF download of this standard presents selected graphics in color for enhanced readability.

Ashrae 62.2 2010 Pdf

ASHRAE Standard 62.1-2010 Ventilation for Acceptable Indoor Air Quality
Presented by
Roger Hedrick, LEED AP, BEMP Chair, SSPC 62.1
ASHRAE Standard 62.1 Overview 
General comments

General requirements

Ventilation requirements

Construction and O/M requirements

Energy Efficiency Options

Possible Coming Changes

Questions
ASHRAE Standard 62.1 What’s Its History? 62-1981 Alternative Air Quality Proc.
1970
62-1973 first issued
1980
62-1999 • IAQ-Health disclaimers • Smoking disclaimers • Clarified CO2as ventilation metric
62-2001 •Prescriptive •Commissioning •O&M •Combustion air •Filtration 62.1-2007 Updated
1990
62-1989 • Removed Thermal Comfort • Ventilation Rate Proc. • IAQ Proc.
2000
2010
62.1-2004 •Commercial and High Rise Res. •Enforceable code language •ETS vent. rates not covered •Vent. Rate. Proc. Modified •Occupant and area vent. rates
1. Purpose 
1.1 Specify minimum ventilation rates and other measures intended to provide IAQ that is acceptable to human occupants and that minimizes adverse health effects

1.2 Intended for regulatory application to new buildings and additions

1.3 Guide the improvement of IAQ in existing buildings
2. Scope 
2.1 All spaces intended for human occupancy excluding low-rise residential (62.2)

2.2 Defines requirements for ventilation, air-cleaning design, commissioning, installation and O&M

2.3 Additional requirements and other standards may apply (labs, healthcare, industrial, etc.)

2.4 May be applied to both new and existing buildings, not intended to be used retroactively

2.5 Does not prescribe specific ventilation rates for smoking spaces
2. Scope 


2.6 Ventilation requirements based on chemical, physical, & biological contaminants 2.7 Consideration or control of thermal comfort is not included 2.8 In addition to ventilation, the standard contains requirements related to certain sources
2. Scope 
2.9 Acceptable IAQ may not be achieved in all buildings meeting these requirements because of: 
Diversity of sources and contaminants

Air temperature, humidity, noise, lighting, and psychological/social factors

Varied susceptibility in the occupants

Introduction of outdoor contaminants
3. Definitions 
36 Terms Defined

Two of Particular Significance 
Acceptable Indoor Air Quality

Occupiable Space
General Requirements 4. Outdoor Air Quality 

4.1 Regional Air Quality 
Must determine NAAQS attainment status www.epa.gov

Air cleaning is required in some cases in non-attainment areas
4.2 Local Air Quality 
Conduct observational site survey to identify local sources of air contaminants
General Requirements 4. Outdoor Air Quality 
4.3 Documentation 
Regional air quality compliance status

Local survey information

Conclusions regarding acceptability of outdoor air quality
General Requirements 5. Systems and Equipment 
5.1 Ventilation Air Distribution 

Must provide means to adjust the system Minimum ventilation air must be provided to each terminal unit in ceiling/floor plenum systems
General Requirements 5. Systems and Equipment 
5.2 Exhaust Duct Location 

5.3 Ventilation System Controls 

Operate exhaust ducts with harmful contaminants at negative pressure
Control to assure proper ventilation under any operating condition
5.4 Airstream Surfaces 
Use materials that have documented resistance to microbial growth and erosion
General Requirements 5. Systems and Equipment 
5.5 Outdoor Air Intakes 
Separate OA intake from outdoor contaminant sources

Must comply with default minimum separation distances in Table 5-1. Examples:    
Loading dock Dumpster Surface below intake Cooling tower exhaust
25 ft 15 ft 1 ft 25 ft

Must limit moisture penetration (using hood, proper velocity, etc.) or manage water that penetrates

Prevent moisture intrusion into equipment mounted outdoors

Must use bird screens and prevent bird nesting
General Requirements 5. Systems and Equipment 
5.6 Local Capture of Contaminants 

Discharge air from non-combustion equipment that captures contaminants shall be exhausted to the outdoors
5.7 Combustion Air 

Follow manufacturer’s instructions to provide sufficient combustion air and exhaust air for indoor fuel-fired appliances Products of combustion from vented appliances shall be vented directly outdoors
General Requirements 5. Systems and Equipment 
5.8 Particulate Matter Removal 
Use a filter rated at MERV 6 (or greater) upstream of cooling coils and other wet-surface devices in supply stream
General Requirements 5. Systems and Equipment 
5.9 Dehumidification Systems 
Must be able to limit indoor RH to 65% or less at design dew point condition 

Exception to RH limit - where occupancy requirements or processes dictate higher RH conditions
Intake airflow must be greater than relief/exhaust during cooling (to minimize moist air infiltration)
General Requirements 5.9 Dehumidification Systems 65% RH limit
62°F DP
General Requirements 5. Systems and Equipment 
5.10 Drain Pans   


Assure drainage without flooding or carryover Slope: 0.125” (1/8”) per foot toward outlet Drain: located at lowest point, with sufficient diameter prevent overflow Drain seal: Shall include P-trap or other seal for negatively pressurized drain pans to prevent ingestion of air while allowing complete drainage (fan on or off) Pan size: length at least 1/2 coil height or as necessary to limit carryover
General Requirements 5. Systems and Equipment 
5.11 Finned Tube Coils and Heat Exchangers 

Provide drain pan beneath all dehumidifying cooling coil assemblies and all condensate producing heat exchangers Select to limit coil pressure drop to 0.75 [email protected] 500 fpm face velocity 
Exception- higher pressure drop can be accommodated by providing access on both sides and providing clear and complete instructions for maintenance
General Requirements 5. Systems and Equipment 
5.12 Humidifiers and Water Spray Systems 

Use potable water (or better) No downstream devices within absorption distance 
Exception- devices or obstructions provided with appropriate drain pan
General Requirements 5. Systems and Equipment 
5.13 Access for Inspection, Cleaning and Maintenance. 

Install equipment with sufficient working space for access and maintenance Provide access doors, panels or other means to allow convenient and unobstructed access for maintenance of the HVAC system
General Requirements 5. Systems and Equipment 
5.14 Building Envelope and Interior Surfaces 
Weather barrier to prevent water penetration into envelope

Vapor retarder or other means to prevent condensation on cold surfaces within envelope

Seal all exterior seams, joints, penetrations to limit infiltration

Insulate pipes and ducts expected to have surface temperature below surrounding dew point
General Requirements 5. Systems and Equipment 
5.15 Buildings with Attached Parking Garages. 
Limit infiltration of vehicular exhaust: 


Maintain garage pressure at or below adjacent occupied space Or, use a vestibule Or, otherwise design to minimize air migration from garage to occupied space
General Requirements 5. Systems and Equipment 
5.16 Air Classification and Recirculation. 
Designate expected air quality classification for all return transfer or exhaust air (refer to table 5.2, 6.1 and 6.4 for examples of air classes) 
Class 1: Low contaminant concentration

Class 2: Moderate concentration

Class 3: Significant concentration

Class 4: Highly objectionable or potentially harmful concentration
General Requirements 5. Systems and Equipment 
Recirculation limitations 

Class 1 to anywhere Class 2 to self, similar Class 2 or Class 3 or Class 4

Class 3 to self

Class 4 to outdoors
General Requirements 5. Systems and Equipment 
Re-designation of air class 


Air Cleaning- may allow re-designation of the air to a cleaner classification. Transfer- a mixture of air with different classes shall be re-designated with the highest class of classification among the air classes mixed. Energy Recover- energy recovery from class 2 (exhaust) airstreams must have no more than 10% leakage into a class 1 airstream.
General Requirements 5. Systems and Equipment 
5.17 Requirements for buildings containing ETS areas and ETS-Free areas. 
Note - Does not purport to achieve acceptable IAQ in ETS areas.

Spaces must be classified as ETS or ETSFree

ETS-Free areas shall be at a positive pressure in relation to ETS areas
General Requirements 5. Systems and Equipment 
5.17 (continued) 


ETS-Free areas must be kept separate by means of solid walls, floors, ceilings and doors with automatic closers. Recirculation or transfer from ETS to ETS-Free is prohibited ETS areas must be exhausted to prevent recirculation to ETS-Free areas
Ventilation Requirements 6. Procedures 
6.1 General- Three different procedures are available to determine the outdoor airflow rates for mechanical ventilation systems. 
Ventilation Rate Procedure- Prescribes rates & procedures based on typical space contaminant sources & source strengths
Ventilation Requirements 6. Procedures 

IAQ Procedure- Requires calculation of rates based on analysis of contaminate sources, concentrations and perceived air quality targets Natural Ventilation Rate ProcedurePrescribes design criteria for ventilation air to be provided through openings to the outdoors
Ventilation Requirements 6.2 Ventilation Rate Procedure 
6.2.1 Outdoor Air Treatment. If outdoor air is judged to be unacceptable per Section 4.1 assessment 
MERV 6 filter in PM10 non-attainment regions

MERV 11 filter in PM2.5 non-attainment regions

40% efficient ozone filter in some ozone nonattainment regions

Other – document assumptions
Air Data: PM10
Air Data: Ozone Above 160 ppb: Fresno, Riverside, Long Beach
Ventilation requirements 6.2 Ventilation Rate Procedure 
6.2.2 Zone Calculations. 
Use Table 6.1 rates (both cfm/person and cfm/sf) to find breathing zone outdoor airflow: Vbz = Rp*Pz + Ra*Az
GENERAL NOTES FOR TABLE 6-1 


1 Related requirements: The rates in this table are based on all other applicable requirements of this standard being met. 2 Smoking: This table applies to nosmoking areas… 4 Default occupant density: The default occupant density shall be used when actual occupant density is not known.
Ventilation Rate Procedure Minimum Ventilation Rates 
Table 6-1: Minimum breathing-zone rates for 78 categories Std 62-2001
Std 62.1-2010
Rp cfm/p
Ra cfm/ft²
Rp cfm/p
Ra cfm/ft²
Office
20
0.0
5.0
0.06
Classroom (ages 5-8)
15
0.0
10.0
0.12
Lecture classroom
15
0.0
7.5
0.06
Retail sales
0
0.3
7.5
0.12
Auditorium
15
0.0
5.0
0.06
Occupancy category
Prescribes both per-person and per-area rates
Ventilation Rate Procedure Minimum Ventilation Rates Comparison of breathing-zone OA flow Std 62-2001
Std 62.1-2010
Occupancy category (default density/1000 ft²)
Vbz cfm
Effective cfm/p
Vbz cfm
Office
100
20.0
85
17.0
Classroom (ages 5-8) (25p)
375
15.0
370
15.0
Lecture classroom
(65p)
975
15.0
550
8.5
Retail sales
(15p)
300
20.0
233
16.0
Auditorium
(150p)
2250
15.0
810
5.4
(5p)
Effective cfm/p
Most OA flow rates go down a little … some, a lot!
Zone Outdoor Airflow 

Use Table 6.2 defaults to find zone air distribution effectiveness, Ez Find zone outdoor airflow for each zone: Voz = Vbz/Ez
 
Ez can range from 0.5 to 1.2 Ez=0.8 with certain common heating designs. This is 25% more OA.
Ventilation Requirements 6.2 Ventilation Rate Procedure 
6.2.3 Single-Zone Systems. Find system-level outdoor air intake flow: Vot = Voz

6.2.4 100% Outdoor Air Systems. Find system-level outdoor air intake flow: Vot = Σ Voz
Ventilation Requirements 6.2 Ventilation Rate Procedure 
6.2.5 Multiple-Zone Recirculating Systems. Use prescribed equations to find outdoor air intake flow (Vot):
[
1 × D ∑allzones R p Pz + ∑allzones Ra Az Vot = Ev
]
Spreadsheets 
There is a spreadsheet supplied with the Users manual that aids in calculating Vot, the air required at the outdoor air intake.
Ventilation Requirements 6.2 Ventilation Rate Procedure 
6.2.6 Design for Varying Operating Conditions. 
Must provide required ventilation rates whenever occupied

May (optional) base design calculations on averages over three time-constants: T = 3 ν / Vbz
(IP units)

Average zone population (Pz) when population varies

Average breathing zone outdoor airflow (Vbz) when primary airflow varies

Average outdoor air intake flow (Vot) when intake flow varies
Ventilation Requirements 6.2 Ventilation Rate Procedure 
6.2.7 Dynamic Reset 
May (optional) reset intake (Vot) or zone minimum airflow based on variations in estimated occupancy, efficiency, or actual intake airflow
Ventilation Requirements 6.3 IAQ Procedure  

Performance-based design approach Designed to maintain the concentrations of specific contaminants and Achieve the design target level of perceived indoor air quality acceptability
Ventilation Requirements 6.3 IAQ Procedure (cont) 
Allows contaminant removal through air cleaning in addition to ventilation

Allows tailoring ventilation rate to specifics of the space


May allow ventilation rates to be reduced below levels prescribed by the Ventilation Rate Procedure. IAQ Procedure requirements are being made more specific
Ventilation Requirements 6.3 IAQ Procedure 
Designing for compliance using the IAQ Procedure requires four steps: 
Identify contaminants of concern, along with sources and emission rates

Specify target concentration and exposure time

Specify target perceived air quality in terms of percent satisfied

Follow an acceptable design procedure to find required airflow values.
Ventilation requirements 6.3.4 IAQ Procedure 
Rate is larger of that determined by 
Mass balance analysis, AND

Subjective Evaluation, OR


Design approaches that have proved successful in similar buildings
Can combine VRP and IAQP
Ventilation Requirements 6.3.4.1 IAQ Procedure (cont) 


Mass balance analysis equations are provided in Appendix D Equations are limited to the steady-state analysis of a single zone Not specified by the Standard, but use simulation software for multiple zone systems
Ventilation Requirements 6.3 IAQ Procedure 

May be used: 
To take credit for low-emitting materials

To take credit for air cleaning

To achieve specific target concentrations of one or more contaminants

To achieve specific levels of perceived IAQ (percent satisfied)
Does not apply for ETS … no acceptable concentration to reference
Ventilation Requirements 6.4 Natural Ventilation 


Requires occupant controllable openings to outdoors Minimum size of openings based on floor area to be ventilated Requires mechanical ventilation system be installed – VRP or IAQP
Ventilation Requirements 6.4 Natural Ventilation 

Floor area that can be naturally ventilated based on multiple of ceiling height Multiplier based on opening configuration 
One-sided – 2h

Two-sided – 5h

Corner – 5h along line
Ventilation Requirements 6.5 Exhaust Ventilation 

Must provide exhaust for some space types Rates prescribed in Table 6.4. For instance: 
Kitchenettes
0.30 cfm/ft2

Public toilet
50 cfm/unit (typ)

Art classroom
0.70 cfm/ft2
Construction Requirements 7. Construction/Start-Up 
7.1 Construction Phase 
Don’t operate air handlers without filters

Protect building materials

Protect occupied areas

Limit migration of construction contamination into occupied space
Construction Requirements 7. Construction/Start-Up 

Air Duct System Construction shall be in accordance with the SMACNA duct construction standards and NFPA standards governing installation of HVAC systems 7.2 System Start-Up- Defines the testing or inspecting for cleanliness, functional operation and balancing of the HVAC system
Construction Requirements 7. Construction/Start-Up 
Documents shall be provided to Owner including: 
Balancing report,

As-built construction drawings, and

Design criteria with assumptions
Operating Requirements 8. Operation & Maintenance 
8.2 Operations and Maintenance Manual. 

Develop a building operations and maintenance manual which shall include a maintenance schedule with frequencies of tasks. O&M manual shall be provided to Owner of the building
Operating Requirements 8. Operation & Maintenance 

8.3 Ventilation System OperationOperate in accordance with Building O&M Manual and Section 6 when spaces are expected to be occupied. 8.4 Ventilation System MaintenanceMaintain in accordance with Building O&M Manual or as required by Section 8.
Saving Energy 
Careful design 
Maximize effectiveness and efficiency

Vary operation as conditions change

Use time averaging when appropriate
Saving Energy 
DOAS 


Separates ventilation from temperature control Allows optimizing ventilation
Natural ventilation 
Must control mechanical system properly!
Saving Energy 
IAQ Procedure 
Most appropriate for multiple similar buildings

Known contaminants that can be cleaned

Designer/Owner must accept liability

Not LEED!
SSPC 62.1 
Standard is under continuous maintenance

Anyone can propose a change to the standard

Notice of proposed changes appears in ASHRAE Standards Action

Anyone can comment on proposed changes

Anyone can request an interpretation
ASHRAE Standard 62.1-2010 & Related Activities… 


Std 62.1-2010 is the current version IMC & UMC adopted equations and ventilation rates Several educational courses are available from ASHRAE
ASHRAE 62.1 Resources 
User’s Manual for 62.1-2010

IMC & UMC Code adoption

ALI Short Course and Professional Development Course

eLearning course

IAQ Design Guideline is published

Next publication – ASHRAE 62.1-2013
ASHRAE 62.1 Future Changes 
Complete ventilation shutoff when zero occupancy

More specifics for multizone DCV

More refinement for space types 
Better integration for VRP and Exhaust

More space types?
ASHRAE 62.1 Future Changes 
IAQP 
More design guidance

More rigor

Code/LEED acceptance?

General improvements

Code integration
Questions? Roger Hedrick [email protected] 303 459 7481

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