This webinar by James Westbrook, President of BlueScape Environmental, provides an overview of how to create a CEQA Air Quality Analysis. The first section of the webinar discusses when an Air Quality Analysis must be completed under CEQA; project types including construction and operation phases; air pollutant emission sources and applicable CEQA significance thresholds; how to construct a conservative analysis while filling in assumption “holes;” review of project alternatives and mitigation requirements; the role of air agencies in CEQA review and relationship to other actions such as air permitting; special analysis cases; and strategies to work with agencies and the public throughout the air quality impact review process. The webinar is presented from the standpoint of CEQA air quality guidelines provided by the South Coast Air Quality Management District (SCAQMD).
The second part of the webinar presents a technical discussion on methods and tools used to complete air quality studies, including CalEEMod emission modeling software, CARB EMFAC and OFFROAD databases, and AERMOD and HARP2 impact modeling software. A case example for completing an air quality study for a commercial development using CalEEMod is presented.
James Westbrook can be reached at training@bluescapeinc.com or 877-486-9257. Please contact us for questions and support for how to create a CEQA Air Quality Analysis.
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BlueScape How to Create a CEQA Air Quality Analysis for Development Projects - Design for Success Webinar 042717
1. How to Create a CEQA
Air Quality Analysis for
Development Projects
Design for Success!
April 27, 2017
James A. Westbrook, President
jwestbrook@bluescapeinc.com
877-486-9257
2. Webinar Topics
Section 1: CEQA Air Quality Analysis Process
- CEQA Air Quality Review Requirements and Process
- Air Quality Issues reviewed under CEQA
- 5 Air Quality Analysis Process Steps:
Identify Needs - Gather Info – Calculate Emissions –
Impact Modeling - Report
- Significance Thresholds; Project and Cumulative Impacts
- Special Siting Cases
- Strategies for an Approvable Air Quality Analysis Report
Section 2: Air Quality Impacts Technical Discussion
- Air Emission Calculations
- Localized Significance Thresholds (SCAQMD)
- Air Quality Modeling for Criteria Pollutants
- Health Risk Assessment for Diesel Particulate Emissions
5. CEQA Regulation Overview
• Applies to development “projects” such as airports,
freeways, office buildings, housing developments, etc.
• 1970 – California Environmental Quality Act signed into
legislation
• CEQA Statute: Public Resources Code Div 13, §21000 et
seq
– Identify significant effects, mitigate or avoid significant
effects where feasible, approve if infeasible to mitigate
provided other laws met
– Project impacts, cumulatively considerable with other
projects, adverse effects on human beings
• CEQA Guidelines CCR Title 14, Div. Chap 3, §15000 et
seq
• Lead Agencies in charge of CEQA review
• Air Districts are Responsible Agencies, review and input
7. When is an Air Quality Analysis Required
under CEQA?
• Must have a “Project”
• Not exempt from CEQA or ministerial (non-
discretionary)
• Lead Agency prepares Initial Study to determine a
project’s environmental impact
• Possible Significant Impact?
– EIR or Negative Declaration (Neg Dec) prepared by
Lead Agency
• Air Quality section of the EIR document, separate
technical study report
• Public comment period on Draft EIR or Neg Dec
• Need an EIR to require air quality review?
8. Air Quality Issues Review under CEQA
• Criteria Pollutants - Regional and Localized Impacts
– Ozone (NOx and VOC precursors), Particulate Matter (PM), NO2, CO,
SO2
– Particulate Matter - PM10 or PM2.5 from combustion or fugitive dust
– Localized sensitive receptor impacts for NO2, PM, and CO
– Traffic-related CO roadway and intersection hotspots
• Greenhouse Gases (GHG or CO2e)
– Climate Change, California AB32 regulation
• Air Toxics
– Diesel Particulate Matter (DPM)
– Other combustion toxics, operation-related toxics
– Asbestos from demolition
– Subsurface contamination releases
• Nuisance-Related Issues
– Odors
– Methane
• Hazardous Material Spills, Explosions?
11. Step 1: Identify Air Pollutants and Requirements
• What kind of Project and Location?
– Demo old/build new Commercial Office Building in mid-Wilshire District Los Angeles
– Expand berth facilities for a Port of San Diego tenant
– Build a new Power plant in South San Francisco
• Local Planning Agency and Air District Guidelines
• Identify Project Information:
– Preferred project alternative, and other alternatives including no action
– Equipment and activities that cause air emission impacts
– Identify project pollutants; Construction, Operation
– Identify significance thresholds
– Potential odors, methane, spills
• Locations of nearby sensitive receptors – schools, residences, day care
• Background monitoring data for setting, location of existing pollution
“hot spots”
• Identify local regulations and emission reduction requirements
• Recently completed EIRs/Air Studies, agency and public comments
• Identify nearby projects for cumulative impacts with other projects
12. CEQA Significance Thresholds
• Criteria Pollutants – NOx, VOC, PM10, PM2.5, CO, SOx
– Emission significance thresholds daily (peak lb/day), annual
(tons/year)
– Published by Planning Agencies and Air Districts, or stated
within a General Plan
– California Ambient Air Quality Standards (CAAQS) and
National Ambient Air Quality Standards (NAAQS) -
concentrations
• GHG
– Not cumulatively considerable for Climate Change
• Health Risk Impacts for Air Toxic Issues (SCAQMD)
– Cases cancer per million at maximum exposed receptors
– Population-wide cancer burden
– Hazard index (HI) for noncancer chemicals
• Nuisance issues – generally can’t happen, must be
mitigated
13. South Coast AQMD Significance Thresholds
Pollutant Construc-on Opera-on
NOx 100 lbs/day 55 lbs/day
VOC 75 lbs/day 55 lbs/day
PM10 150 lbs/day 150 lbs/day
PM2.5 55 lbs/day 55 lbs/day
SOx 150 lbs/day 150 lbs/day
CO 550 lbs/day 550 lbs/day
Lead 3 lbs/day 3 lbs/day
Toxic Air Contaminants (TACs), Odor, and GHG Thresholds
TACs
MICR ≥ 10 in 1 million
Cancer Burden > 0.5
Chronic & Acute HI ≥ 1.0
Odor Project Creates an Odor Nuisance Pursuant to SCAQMD Rule 402
GHG 10,000 MT/yr CO2e for Industrial Facili]es
3,000 MT/yr CO2e for Residen]al/Commercial Projects
14. GHG Significance Analysis
• California AB32 Regulation
– Reduce GHG emissions to 1990 levels by 2020
– SB32 signed 9/8/16; reduce 40% below 1990 levels by 2040
– Focus on operational emissions; minimize construction
emissions
• Starting to shape up like:
– Consistency with a qualified
Climate Action Plan, or
– Significance thresholds
Ref: Placer Co CEQA Thresholds of Significance Jus8fica8on Report
15. Step 2: Gather Information
• Site Plans and Activity Locations
• Project Phasing Details, by month and year
– Construction - demo, site prep, paving and painting
– Operation - when the project open for business
• Equipment Type and Activity
– Mobile Source Combustion Emissions - Onroad and Offroad
– Stationary Source Emissions - e.g. boiler, kiln, coating line
– Fugitive Dust - demo, grading, loading/hauling, road dust
SHORTCUTS! District Screening tables; CalEEMod has pre-populated project types
• Required and voluntary emission controls – watering, diesel filters, solar
panels, tinted windows
• Emission-Related Information – HP rating, load factor, usage factor, miles
and hours travelled
• Operation schedule - hours per day, months, years
• “Holes” to fill in?
17. Step 3: Calculate Emissions Compare to
Thresholds
• Assess Level-of-Effort – go with screening tables, CalEEMod or spreadsheets?
– Conserva]ve and technically defensible
– CalEEMod socware facilitates agency review
– Spreadsheet provide more flexibility, control and transparency
• Throw calcula]ons into one project “Day”, or across phases that don’t overlap
• Pre-mi]ga]on and post-mi]ga]on
– Pre-mi]ga]on includes what project must do by rule or ordinance
– Post-mi]ga]on includes voluntary op]ons
– Decide whether to show separately or just as final project emissions
• Compare to Significance Thresholds – Done? Refine Assump]ons?
• Cumula]vely considerable with other nearby projects?
• Never submit an Air Quality Analysis with un-mi]gated significant impacts
– Be sure to address any cumula]ve impacts with other projects
• Expect feasible mi]ga]on to be required reduce impacts, whether significant or
not
18. Step 4: Impact Modeling (if required)
• Criteria pollutant impacts exceed emission thresholds
– Option to complete dispersion modeling with screening tools or AERMOD,
NO2, PM10, PM2.5, CO, SO2
– Show impacts are less than the California or National Ambient Air Quality
Standards
– Not an option for NOx or VOC as a precursor to ozone
• In South Coast AQMD, dispersion modeling for localized
impacts (LST analysis) for parcels greater than 5 acres
• CO Hotspot Modeling, high increases in traffic volume or
roadway level-of-service
• Health Risk Impacts – a quantitative Health Risk Assessment
must be completed to assess significance
– Unless you can state qualitatively negligible diesel PM or other toxics
– Depending on proximity of sensitive receptors
– Calculate health risks using spreadsheets and screening tables or HARP2
software
19. Step 5: Air Quality Technical Report Submittal
Technical Report Sec-on Contents
Introduc]on
Air Quality Technical Report Sec]on
Introduc]on
Environmental Sehng
Project Loca]on and Descrip]on
Health Effects of Criteria Pollutants
Exis]ng Regional and Local Air Quality
Exis]ng Project Site Emissions
Federal, State, and Local Regula]ons
Environmental Impacts
Methodology
Thresholds of Significance
Project Impacts
Cumula]ve Impacts
Cumula]ve Construc]on Impacts
Cumula]ve Opera]on Impacts
Mi]ga]on Measures Mi]ga]on Measures Considered
Conclusions
Level of Significance Acer Mi]ga]on
Summary of Findings
20. Special Cases – Siting Near Existing Pollution
Sources
• Sensitive Land Use Projects located near existing pollution
sources: freeways, rail line, ports, refineries, chromium
operations, odor sources:
– See the CARB Air Quality and Land Use Handbook1
– Buffers, HVAC filters, vegetation barriers, and solid walls
• Schools get special protection under state law
Not generally required by CEQA, but prudent to consider
what existing pollution source impacts will be on persons
that will that will be located at your Project.
• What about subsurface contamination, vapor intrusion?
1Final Handbook, April 2005
Technical Advisory, April 2017
h1ps://www.arb.ca.gov/ch/landuse.htm
21. Summary - Strategies for an Air Quality Study
• Design the right air quality study appropriate for your type of
project and the setting
• Homework - take time to gather all the information, make a
solid strategy before you start the real work
• Work with the right CEQA land use attorney and consultants
• Prepare a conservative, defensible analysis; expect challenges
on GHG and health risk impacts
• Leave room in your project for refinement and more
mitigation
• Do not submit an air quality analysis with significant impacts
if at all possible
• Leverage current guidance and precedent on recent projects
• Show your work, provide transparency in the work to avoid
review delays
• Engage and involve agency staff and public stakeholders in
solving problems and deciding on mitigation
23. Technical Discussion Topics
• Air Emission Calculations: Criteria Pollutants
and GHG
• Localized Significance Thresholds (South
Coast AQMD)
• Criteria Pollutant Air Quality Modeling
• Health Risk Assessment for Diesel
Particulate Emissions
24. Tools to Calculate Project Emissions
• CalEEMod – CA Emissions Estimation Model:
– For criteria pollutants, GHG, air toxic diesel PM
– Supersedes URBEMIS
– Construction and Operational phases
– Good for representative project types, commercial building, mall
– Emission factors from EMFAC, OFFROAD, EPA AP-42 automatically included,
but can by over-written by the user
– Advantage - Reproducible by agencies
• vs Spreadsheet Calculations:
– More time to set up, but also more flexible and refined
– Good for detailed emissions calculations for larger projects
– Better customization of emissions calculations
– Provides transparency for detailed project phases, specific equipment types,
and mitigation
– Mobile AND Point Source emission estimates
– Example: Roadway Construction Emissions Model
(Sacramento Metropolitan AQMD’s spreadsheet model)
Check with your local air district for more guidance on methods used to
estimate emissions
25. What Does CalEEMod Estimate?
• Construction emissions:
– Fugitive dust – PM10 and PM2.5
– Mobile source (Onroad and Offroad equipment) - combustion
– VOCs from painting and paving activities
• Operational emissions:
– Fugitive road dust - PM10 and PM2.5
– Mobile source (Onroad traffic) - combustion
– VOCs from painting, consumer products, and cleaning
supplies
– Emissions from landscaping equipment, wood stoves and
hearths
– GHG Emissions from electricity, natural gas, water usage
• Mitigated and Unmitigated emissions
Download CalEEMod here: h1p://www.caleemod.com/
26. Corporate Development Project
• Mid-Wilshire Los Angeles area
• Demolish old office buildings
• Build a five building corporate complex
= 200,000 sq. ft.
• Underground parking = 100,000 sq. ft.
• Project Site = 4.5 acres
• Number of Employees = 500
• Construction Timeframe = January 2018 – March 2019 (1.25
years)
• Enforcing Public Agency: L.A. City Planning Dept.
• Air District: SCAQMD
38. CalEEMod Reports
• Summer and Winter Reports:
– Unmitigated and Mitigated lbs/day for each Construction
Phase and for Operational Phases for selected pollutants
– Results to be compared to Significance Thresholds
• Annual Report:
– Unmitigated and Mitigated tons/yr for each Construction
Phase and for Operational Phases for selected pollutants
– GHG results to be compared to Significance Thresholds
• Summary Report:
– Summarizes lb/day for Criteria Pollutants and tons/yr for
GHG
– Numbers followed by a “W” are Winter numbers; “S” are
Summer numbers
45. SCAQMD: Localized Significance Thresholds
• Mass Rate Lookup Tables developed by
SCAQMD
• Localized impacts of NO2 (from NOx), CO,
PM10, and PM2.5
• Construction and Operation thresholds
developed for:
– 1-acre, 2-acre, and 5-acre sized projects
– Source-Receptor Areas located in SCAQMD’s
jurisdiction
– Sensitive receptors located 25 m, 50 m, 100 m,
200 m, or 500 m away from project site
• Tier 1 approach to determine localized
impacts
47. Compare CalEEMod Results to Localized
Significance Thresholds
NOx
(lb/day)
CO
(lb/day)
PM10
(lb/day)
PM2.5
(lb/day)
Construc]on Phases
CalEEMod
Emissions
65.4 25.8 9.8 6.3
Threshold 143 1580 13.3 7
Exceed
Significance?
No No No No
Opera]on Phase (Area + Energy)
CalEEMod
Emissions
0.56 0.50 0.04 0.04
Threshold 143 1580 3.3 2
Exceed
Significance?
No No No No
SRA No. 1 Central LA, 25 m distance to receptor,
extrapolated from 2 acre and 5 acre project site
thresholds
48. Criteria Pollutant Modeling
• South Coast AQMD – projects larger than 5 acres
• Other Districts; NO2, PM, CO, or SO2 emissions
significant
• CO hotspots modeling for traffic
• AERMOD dispersion model or AERSCREEN
• Refined modeling - use pre-processed
meteorological data
• Model emission sources as point, volume, or area
sources
• Concentration thresholds – CA and National
ambient standards
– Includes background concentrations for attainment areas
– Significant impact threshold for non-attainment areas
49. Health Risk Assessment for Diesel PM
• Calculate Mitigated Diesel (PM) DPM Emissions (CalEEMod
and/or Calculation Spreadsheets):
– Construction total DPM emissions; average operational DPM
emissions over project life
– Calculate annual average DPM emissions in g/s
• Long-term Cancer and Chronic Noncancer risks per OEHHA
Guidance
– Also may be required to consider acute (short-term) risk impacts
• Impacts on nearest sensitive receptors
– Residents
– Schools and Day Care Centers
– Hospitals and Adult Care Facilities
– Workers
– Recreation Areas
• Modeling tools: District risk screening tools, AERMOD, HARP2
OEHHA Air Toxics Hot Spots Risk Assessment Guidelines:
h1ps://oehha.ca.gov/media/downloads/crnr/2015guidancemanual.pdf
50. Resident Cancer Risk Formula for DPM
Cancer Risk = Cair * AF * DBR * EF * 10-6 * CPF * ASF * ED/AT * FAH
where: Cair = Air concentra]on (µg/m3)
AF = Annual concentra]on adjustment factor (1.0 for residents)
DBR = Daily breathing rate over age bins and dura]on (wtd, L/kg-day)
EF = Exposure frequency (unitless, days/365 days; 0.96 for SCAQMD)
10-6 = Conversion; µg to mg and L to m3
CPF = 70-year inhala]on cancer potency factor (1.1 mg/kg-day)-1
ASF = Age Sensi]vity Factor over age bins (wtd, unitless)
ED = Exposure dura]on (30 years for SCAQMD)
AT = Averaging ]me for life]me (70 years)
FAH = Frac]on ]me at home over age bins (unitless)
Note 1: Cancer risk is summed across diesel PM sources for each receptor loca]on
Note 2: Cancer risk is expressed as in terms of per million persons
South Coast AQMD Rule 1401 Guidance – (DBR * ED * ASF * FAH) * EF / AT = CEF = 677 for 30 yrs
= 311 for 2 yrs
52. CEQA Air Quality Technical
Guidance
• SCAQMD
http://www.aqmd.gov/home/regulations/ceqa/air-quality-
analysis-handbook
• California ARB Air Quality and Land Use Handbook
https://www.arb.ca.gov/ch/landuse.htm
• CalEEMod User’s Guide
http://www.aqmd.gov/caleemod/user's-guide
• OEHHA
https://oehha.ca.gov/air/crnr/notice-adoption-air-toxics-hot-
spots-program-guidance-manual-preparation-health-risk-0
• EMFAC2014 (Onroad vehicles)
https://www.arb.ca.gov/emfac/2014/
• OFFROAD (Offroad vehicles)
https://www.arb.ca.gov/msei/
categories.htm#offroad_motor_vehicles
53. Ques]ons?
Contact Informa]on
James A. Westbrook, President
BlueScape Environmental
877-486-9257
jwestbrook@bluescapeinc.com
www.bluescapeinc.com
Connect with me on Linkedin!
The webinar presentation will be posted on
Slideshare and YouTube