Search DEQ
Help me find
Home
Search
Search All of DEQ
Archive Document Search
Interactive Map
Interactive Map Terminology
DERR
Report an Incident
Air Quality
Air: Current Conditions
Air: Forecast
Air Quality Home
About
Boards
Boards of DEQ
Air Quality Board
Drinking Water Board
Waste Management and Radiation Control Board
Water Quality Board
Contact DEQ
Divisions
Air Quality
Drinking Water
Environmental Response and Remediation
Waste Management and Radiation Control
Water Quality
Executive Director’s Office
Fees
Laws & Rules
Title VI
Legal Proceedings
News
Businesses
Payment Portal
Small Business Environmental Assistance Program
(SBEAP)
Businesses and Facilities Index
Certifications
Find a Permit
Permit Guide
Records Request
Public Notices
DEQ Notices
Utah Public Notice Website
Making Effective Public Comments to DEQ
Subscribe to Email Alerts
Search Site
Division of Air Quality
About
Air Quality Board
Meetings & Agenda
About
Members
Archive
Find information about previous Air Quality Board Meetings.
Search Utah Public Notices
Air Quality Policy Advisory Board
Meetings & Agenda
About
House Bill 392
Members
Air Quality Incentive Programs
Applied Research
Research Projects Overview
The State of Utah is home to towering mountain ranges, resource-rich basins, sprawling farmland, and vast deserts. These diverse environments are inhabited by equally diverse people, all of whom are affected by the air quality in our state. Understanding the factors that influence the quality of our air is imperative to mitigating the harmful effects of poor air quality on public health. The physical environment which includes atmospheric chemistry, meteorology, and topography, combines with by-products of modern technology and industry such as emissions from vehicles and buildings, to create air pollution problems that are unique to Utah. Research conducted by the Division of Air Quality and its community partners informs decisions made by the Utah State Legislature to improve our air quality.
Air Toxics
Current Studies
The Environmental Protection Agency (EPA) has identified 187 hazardous air pollutants (HAPs) that are associated with numerous adverse health effects including cancer and neurological, reproductive, developmental, and other health problems. These pollutants come from a wide variety of industrial, residential, and mobile sources and the health risk exposure thresholds associated with them are continually updated according to the most current toxicological and epidemiological research. The following studies, including ongoing as well as future projects, have been undertaken to gain a better understanding of the concentration and sources of these pollutants.
Completed Studies
The Environmental Protection Agency (EPA) has identified 187 hazardous air pollutants (HAPs) that are associated with numerous adverse health effects including cancer and neurological, reproductive, developmental, and other health problems. These pollutants come from a wide variety of industrial, residential, and mobile sources and the health risk exposure thresholds associated with them are continually updated according to the most current toxicological and epidemiological research. The following studies, including ongoing as well as future projects, have been undertaken to gain a better understanding of the concentration and sources of these pollutants.
Exceptional Events
Current Studies
Completed Studies
Mobile Source Emissions
Current Studies
Reducing automobile emissions has been a central component of the state’s plans to improve air quality. The start cycle of vehicles is known to have increased emissions of hydrocarbons (HC) and carbon monoxide (CO) because the engine uses an enriched fuel mixture to avoid misfires due to condensation on the cylinder walls. The following studies quantify the impact of different vehicle starting methods at low temperatures on Utah’s wintertime air quality.
Completed Studies
Model Improvements
Current Studies
Air quality models are used to predict atmospheric conditions in the future. They are based on meteorological conditions, chemistry mechanisms, and inventories of reported emissions. Models are tested for correctness by comparing their results to observed atmospheric characteristics, such as PM2.5 concentrations during high pollution periods in the past. The following studies show various ways in which models are being improved to better reflect observations of the atmosphere in Utah.
Completed Studies
Northern Utah Air Pollution
Current Studies
[caption id="attachment_13224" align="alignnone" width="870"] Inversion Photo by B. LeBaron[/caption]
Completed Studies
Residential Wood Burning
Current Studies
Completed Studies
Science for Solutions
Current Studies
Request for Proposals
Annual Conference
Uinta Basin Oil and Gas
Current Studies
The Uinta Basin, a structural basin located in the remote northeastern corner of the state of Utah, is the main oil and gas development hub in the state. It has unique atmospheric chemistry regimes during the winter that create ozone concentrations that sometimes exceed those in the largest U.S. cities. The following studies have helped the Division of Air Quality better understand the complex atmospheric conditions of this region.
Completed Studies
ATLAS
(Air Toxics, Lead, and Asbestos)
Overview
Asbestos Program
Overview
Forms
Frequently Asked Questions
Labs
Requirements Prior to Demolition
Lead-based paint
Lead in Air
Section Staff
MACTs and Other NESHAPs
Compliance
Stationary Source Compliance Overview
Fugitive Dust Control Plan
Compliance Activity Summaries
Complaint Form
Fugitive Dust Control Requirements
Industry Breakdown Report
Mandatory No Burn Days
Outreach Newsletter
Regulations for Solid Fuel Burning Devices
Residential Open Burning
Smoke School
Solid Fuel Burning Devices
Small Business Environmental Assistance Program
Overview
NESHAPs
Dry Cleaning
Terms and Abbreviations
Fees and Payment
Forecasts
Laws and Rules
Monitoring
Non-attainment Area Locator Tool
Statewide Oil & Gas Emissions Inventory
Ozone
What is Ozone?
Northern Wasatch Front SIP
Introduction
Overview and Standard
SIP Process
RACT Process
RACM Process
Uinta Basin
Particulate Matter (PM)
Particulate Matter Overview
PM
2.5
PM
2.5
Overview
Consumer Products and PM2.5
Serious SIPs 2017-2019
Overview
Control Strategies
Technical Analysis
Moderate SIPs (2009-2014)
Air Trend Plots
Area Source Rules
Inversions
Map: Area Designations
Public Comment
Public Participation
PM
10
PM
10
Overview
PM
10
SIPs and Maintenance Plans
Smoke Management Program
Permitting
Air Quality Permitting
General Info
Laws and rules
State Air Quality Laws and Rules
Federal Permitting Rules
Federal Title V Rules
New Source Review Permitting Resources
Overview
Definitions of a Source’s Size Category
New Source Review Exemptions from Permitting
Permitting Guidance and Guidelines
NSR Permitting Forms
Permit Determination Flowcharts
Emissions Impact Assessment Guidance
Title V Operating Permit Resources
Overview
Operating Permit Program Fact Sheet
Title V Guidance and Guidelines
Title V Permitting Forms
EPA Permitting Resources
Existing Applications, Draft Permits, and Permits
E-Z Records Search
Emission Credits: Offset Registry
Centralized Air Emissions Reporting System
Signup for Email Alerts
Planning Branch
Overview
Emissions Inventory
Program Overview
Definitions
Point Source Emission Inventories
Statewide Emissions Inventories
Exceptional Events Program
Program Overview
Documentation
Fireworks
Windblown Dust
Laws and Rules
Modeling
Overview
Geographic Information Systems (GIS)
Regional Scale Air Pollution Modeling
Regional Haze
Overview
2019 SIP Revision
State Implementation Plan (SIP)
SIP Overview
Sections
Beehive Emission Reduction Plan
Public Notices
Public Comment
Rule and Plan Changes
Popular Destinations
Complaint Form
Open Burn Permit Application
Smoking Vehicle Complaints
Utah Air Quality Rulemaking Actions Notices
Division Links
Asbestos Laboratories in Utah
National Voluntary Laboratory Accreditation Program (NVLAP)
Directory
Last Updated:
October 6, 2023 1:58 PM
Categories:
Air Quality
ATLAS (Air Toxics Lead and Asbestos Section)
Tags:
Back to top
