Air Pollution Control



  1. Air Pollution Control District
  2. Methods To Control Air Pollution
Welcome to the Eastern Kern Air Pollution Control District
Control
  1. Air Pollution Control Specialists has the experience and knowledge to provide a wide range of solutions to address commercial and industrial dust collection needs. Solutions range from simple systems to complex applications based on your requirements. We can provide all the necessary elements to ensure your workplace is clean and free of dust.
  2. A proposed hybrid-electric plane could 'eliminate aviation's air pollution problem,' say engineers. The new design could reduce global nitrogen oxide (NOx) emissions by 95 percent, they report in.

District Mission__________________________________________

To attain and maintain National and State Ambient Air Quality Standards and to insure air pollutants do not pose a nuisance or significant public health threat.

Announcements____________________________________________

District is open but the office is closed to the public due to remodeling

The Eastern Kern Air Pollution Control District is open for business, however the office is closed to the public due to the remodeling going on in the Public Works building. District staff is available Monday through Friday from 8 a.m. to 5 p.m. All business is being conducted through phone calls, email, and post mail.

Wood Smoke Reduction Program(WSRP) Is Currently Out of Funds

The District is offering rebate vouchers in the amounts of $4,000 and $2,000, to Eastern Kern homeowners to replace Non-EPA certified wood/pellet stove with a new EPA certified wood/pallet stove, or to install an EPA certified gas, electric, or catalytic fireplace insert into a home that uses the heating device as its primary source of heat. WSRP grant funds are currently depleted. Vouchers were issued on a first-come, first-served basis until all funds were awarded. No retroactive vouchers are allowed.

DMV Grant Program (Road Paving, EV Charge Station, Public Education)

The District’s 2021 DMV Grant Program offers up to $50,000 for eligible projects which include: Paving Dirt Roads to reduce fugitive dust emissions cause by vehicle travel, Installation of publically accessible Electric Vehicle (EV) Charging Station, Installation of publically accessible CNG Refilling Station, Alternative Fuel Mechanics Training, Public Education Courses, and Innovative Vehicle-Related Emission Reduction Proposal.

DMV Grant Voucher Program

The District’s 2020 DMV Grant Voucher Program offers financial incentive in the form of a voucher for the purchase of a new eligible lower-emitting vehicle. Applications are processed first-come first-served and vouchers issued accordingly until funds are exhausted. Voucher awards and associated new vehicle emission classification requirements are as follows:

  • $4,000 for purchase of a Zero Emission Vehicle (ZEV) with EPA Smog Score of 10.
  • $2,000 for purchase of a Partial Zero Emission Vehicle (PZEV) with EPA Smog Score of 8 or 9.
  • $1,000 for purchase of a Super Ultra Low Emission Vehicle (SULEV) with EPA Smog Score of 6 or 7.

FARMER Tractor Replacement Program

In recognition of the need to reduce agricultural-related emissions, State Legislature allocated financial incentives for replacement of older agricultural harvesting equipment, heavy-duty haul trucks, agricultural pump engines, tractors, and other equipment used in agricultural operations. To achieve this goal, the California Air Resources Board (CARB) developed the Funding Agricultural Reduction Measures for Emission Reductions (FARMER) program.

The District’s FARMER program provides up to 80% funding for the replacement of diesel-fueled agricultural vehicles, equipment, and engines operating in Eastern Kern County. Carl Moyer Program (CMP) guidelines are used to determine FARMER program eligibility and grant award amount.

September 2020 Desert Breeze

September 2020, issue of the District's quarterly news letter 'Desert Breeze' is now available. Click the link below to download a pdf copy or contact the District to have a copy mailed to you. All back issues can be found by clicking here.

Open Pile/Hazard Reduction Burn Season Closed May 1, 2020

The Kern County Fire Department closed open pile/hazardous reduction burning within the State Responsibility Area (SRA). Open pile/hazardous reduction burning remains open outside of the Eastern Kern SRA throughout the year. Be advised: You must acquire a burn permit from your local fire department and call them to ensure it is a designated burn day prior to any ignition.
Click for more info

Health Effects of Inhaling Smoke

Smoke is made up of a complex mixture of gases and fine particles produced when wood and other organic matter burns. The biggest health threat from smoke comes from fine particles. These microscopic particles can get into your eyes and respiratory system, where they can cause health problems such as burning eyes, runny nose, and illnesses such as bronchitis. Fine particles also can aggravate chronic heart and lung diseases and are even linked to premature deaths in people with these conditions.

People with asthma, heart disease, lung disease, older adults, and children are at greater risk of being affected by smoke. If you are healthy, you're usually not at a major risk from smoke but it's still a good idea to avoid breathing smoke if you can help it. It's important to limit your exposure to smoke, especially if you may be susceptible.

How to tell if smoke is affecting you:
Smoke can irritate the eyes and airways, causing coughing, a scratchy throat, irritated sinuses, headaches, stinging eyes or a runny nose. If you have heart or lung disease, smoke might make your symptoms worse. People with heart disease might experience chest pain, palpitations, shortness of breath, or fatigue. People with lung disease may not be able to breathe as deeply or as vigorously as usual, and they may experience symptoms such as coughing, phlegm, chest discomfort, wheezing and shortness of breath. When smoke levels are high enough, even healthy people may experience some of these symptoms.

Protect yourself:
Watch local news and weather stations, pay attention to health warning and air quality reports, you can also use the EPA's Air Quality Index (AQI). Use common sense; if it looks smoky outside, it's probably not a good time to mow the lawn, go for a run, or let children play outside.

If your advised to stay indoors take steps to keep indoor air as clean as possible. Keep windows and doors closed. Run an air conditioner if needed but make the fresh air intake is closed and the filter is clean. Do not use a swamp cooler as it will pull in lots of smoke from outside. If your house becomes to hot to be comfortable seek alternative shelter. If it is cool outside try to avoid anything that produces heat from burning such as a fireplace, gas logs, or a gas stove.

COVID-19 Considerations for Wildfire Clean-Air Shelters

Wildfire smoke is a public health concern. Exposure to wildfire smoke can lead to eye and respiratory tract irritation, exacerbations of existing respiratory and cardiovascular conditions, and premature death. Cleaner air shelters are used by many communities to provide spaces where people can shelter overnight or for extended periods of time.

The use of cleaner air shelters and cleaner air spaces can result in congregating of groups of people, including older adults and those with heart or lung conditions. Congregation of people in cleaner air shelters and cleaner air spaces can
potentially provide a route for the transmission of SARS CoV-2, the virus that causes COVID-19, among individuals using the facilities, staff, and volunteers. The CDC has prepared information and advice pertaining to clean-air shelters in a document title “COVID-19 Considerations for Cleaner Air Shelters and Cleaner Air Spaces to Protect the Public from Wildfire Smoke”.
Please click here to download a copy

Residential Wood Burning

Many Eastern Kern County residents
use woodstoves and fireplaces to heat
their homes.

If you burn please remember to do so
as cleanly as possible.

Never burn household waste in your
woodstove or fireplace and only burn
clean, dry, seasoned wood, and maintain
a hot fire.

2015, 8-Hour Ozone NAAQS (70 ppb) RACT SIP Adopted 9/3/20

A public hearing was held on September 3, 2020, beginning 2:00 pm at the Tehachapi Police Department Community Room, 220 West 'C' Street, Tehachapi, CA. At this hearing the District's Governing Board adopted A Reasonably Available Control Technology (RACT) State Implementation Plan (SIP) for the 2015, 8-Hour Ozone National Ambient Air Quality Standards (NAAQS) for the District’s nonattainment area has been prepared to satisfy the requirements of the Federal Clean Air Act (FCAA). A copy of the adopted Plan can be downloaded through the link below.

AB 2588 2019 Air Toxics Report

Section 44363 of the California Health and Safety Code requires the Eastern Kern Air Pollution Control District (District) to conduct a public hearing at which the District’s Annual Air Toxics Information and Assessment Act (AB 2588) Annual Report is presented for discussion. A public hearing was held on Thursday, September 3, 2020 at the hour of 2:00 p.m. at the District Field office located at 20406 Brian Way, Suite 4A in Tehachapi, CA 93561. A copy of the report can be downloaded by clicking the link below.

Indian Wells Valley Second PM10 Maintenance Plan Adopted 5/7/2020

A public hearing was held on May 7, 2020, beginning 2:00 pm at the Tehachapi Police Department Community Room, 220 West 'C' Street, Tehachapi, CA. At this hearing the District's Governing Board adopted the Second Indian Wells Valley (IWV) Maintenance Plan for the 24-Hour PM10 National Ambient Air Quality Standards (NAAQS). A copy of the adopted Plan can be downloaded through the link below.

Commercial Solar Plant Permitting Requirements

The District has determined commercial solar power plants generate fugitive dust emissions (PM10) in Eastern Kern County. Therefore, in accordance with Rule 201 (Permits Required) and 210.1 (New and Modified Stationary Source Review, NSR), the District is requiring each commercial solar facility obtain a District Air permit.

EKAPCD 2018/2019 District Report

A message from the Air Pollution Control Officer: On behalf of the Eastern Kern Air Pollution Control District Board of Directors, it is my pleasure to present the Eastern Kern Air Pollution Control District 2018-2019 Report.

Has a regulatory agency announced regulations in your industry or declared your workplace unhealthy? Do your neighbors complain about odors? Do you face the dilemma of balancing company profitability with the demand to meet environmental requirements?

This guide will provide a general overview of air pollution control. It will also help you understand the various pollution control technologies and prepare you to make informed, knowledgeable decisions. All defined terms can be found in the Definitions section. Be sure to visit the Overview of Emission Control Technologies page once you are comfortable with the concepts discussed here.

Before we begin, it is important to point out that many distinctly different industries have very similar pollution control challenges and also solutions. It is our goal at Anguil to utilize our experiences in every industry to help customers apply the proper technology on their specific application. Always feel free to contact an Anguil Representative near you to discuss your unique destruction requirements, efficiency demands and process parameters.

Answers to the questions below are broken down into manageable sections.

What is the difference between Actual Cubic Feet per Minute (ACFM) and Standard Cubic Feet per Minute (SCFM)? How are they calculated?

ACFM and SCFM are units for volumetric airflow rates often used in determining size of an air pollution control device or energy recovery system. ACFM is a measure of the actual volumetric air flow rate at the conditions of the air stream. The density of air varies with temperature and pressure.

ACFM and SCFM are units for volumetric airflow rates often used in determining size of an air pollution control device or energy recovery system.

ACFM is a measure of the actual volumetric air flow rate at the conditions of the air stream. The density of air varies with temperature and pressure. SCFM is a measure of the volumetric flow rate if the air stream were at standard conditions. Standard conditions are defined as 70°F and 1 atmosphere pressure. For metric users, ACFM is the equivalent of m3/hr (cubic meters per hour) and SCFM correlates to Nm3/hr (normal cubic meters per hour). Nm3 equals SCFM divided by 1.71928, dividing that number by 60 will then give you per minute comparison of feet and meters.

Here is how you would convert 5,000 ACFM of air at 230°F and 1 atmospheric pressure to SCFM. The ideal gas law tells us the relationship between air temperature and air density is directly proportional. Therefore we can convert ACFM to SCFM using the temperature ratio (absolute temperature).
SCFM = ACFM * (standard condition absolute temperature) / (actual absolute temperature)
SCFM = 5,000 * (70 + 460) / (230 + 460)

Therefore 5,000 ACFM of air at 230°F and 1 atm = 3,841 SCFM. The equation can be rearranged to convert SCFM to ACFM. The ideal gas law also tells us that pressure and temperature are directly proportional. A similar conversion is used to adjust to standard pressure.

What are Volatile Organic Compounds (VOCs)?

Let’s begin by defining the organic compound part of Volatile Organic Compounds (VOCs). Organic compounds contain carbon and hydrogen, they occur naturally and can be found in all living things but the majority of the organic compounds that we use are man-made.

Air pollution control district

Some organic compounds are liquids that require an additional process like heating or cooling to create vapor, these are considered stable compounds. An organic compound is considered volatile if it vaporizes (forms a gas) at room temperature and normal atmospheric pressure. An example of this would be the fumes you see on gas pumps without a vapor recovery nozzle. Some of these vapors are dangerous to humans when inhaled in great quantities or over a long period of time. Some volatile organic compounds interrupt and destroy natural plant processes; however, many of the volatile compounds play a significant role in the formation of ozone and smog.

Ozone is three oxygen atoms bonded together to form O3. It does occur naturally in our environment but the introduction of large amounts of VOCs into our lower atmosphere (the air closest to us) has caused an unhealthy amount of ozone to be created. Oxygen + VOCs + Sunlight + Combination of complex reactions lead to the formation of ozone.

In the earth’s upper atmosphere, ozone is an important layer that protects the earth from the sun’s ultraviolet rays. But closer to the earth, ozone is a dangerous compound. It mixes with other compounds in the air and becomes the main component of smog. Smog is more than an ugly brown cloud hovering over the cities of the world. Smog causes respiratory ailments and heart conditions; it destroys agriculture and forests. In short, smog damages our entire environment.

The best way to prevent the increase in ozone and smog is to eliminate these harmful VOCs from being released. Anguil’s oxidation technologies are designed to do just that.

What are Hazardous Air Pollutants (HAPs)?

Air Pollution Control District

A Hazardous Air Pollutant (HAP) is a VOC that has additional harmful properties. The effects of HAPs are even more severe than VOCs. According to the U.S. Environmental Protection Agency, HAPs cause thousands of cancer deaths each year in the U.S. They can cause birth defects, nervous system damage and, during massive accidental releases, death.

HAPs also cause serious environmental damage. Fortunately, pollution control technologies can capture and destroy HAPs before they are released into the atmosphere. Again, the most effective destruction of HAPs and VOCs is accomplished by oxidation.

What is thermal oxidation and how is it different from catalytic oxidation?

At the heart of most emission destruction technologies is a concept called oxidation. It causes compounds (in this case, contaminated air pollutants) to be broken up and reformed into new (in this case, safe) compounds. Add the right amount of heat and oxygen to hydrocarbons and you create oxidation. In scientific terms, the process is:

Methods To Control Air Pollution

Cn H2m + (n + m/2) O2 → n CO2 + mH2O + Heat

In the thermal oxidation process, the contaminated air is heated, breaking apart the bonds of the contaminated compounds. The molecules will reform naturally, bonding into carbon dioxide and water vapor and releasing energy, which is the basic premise to all forms of oxidation. However, during catalytic oxidation the contaminated compounds in the air react with a catalyst material (platinum, palladium, rhodium, etc.) which breaks apart the contaminated compounds at a lower temperature.

Thermal oxidation requires high temperatures to break apart the compounds. The large amounts of fuel needed to maintain high temperatures can be expensive. Different pollution control technologies help reduce the operating costs of the equipment. Catalysts, for example, react and oxidize the VOCs at a lower temperature, meaning less fuel and lower costs.

No matter which oxidation technology is best suited for your application, the “three T’s” of oxidation always apply: Temperature, Time, and Turbulence.

Temperature: Destruction temperature is determined by the VOCs in the air stream. Each compound has a different temperature at which the molecules are broken apart and oxidized.

Air Pollution Control

Time: Time relates to how long a compound needs to be at a certain temperature in order for it to be oxidized. For example, benzene requires a temperature of 440ºF and a residence time of 0.24 seconds for 99% destruction in a catalytic oxidizer. In a thermal oxidizer, benzene needs 1460ºF and a residence time of 1.0 seconds for 99% destruction.

Turbulence: Turbulence is a fixed condition built into the equipment design. It ensures a proper mixture of VOCs and oxygen for combustion.

Air Pollution Control

A successful technology achieves full oxidation of VOCs by maintaining the proper mixture of oxygen and contaminants at the required temperature for a sufficient amount of time.

Metal heat exchangers can also be added to thermal and catalytic oxidizers to recover or recup between 50% and 75% of the heat required for oxidation. Another system advance is the Regenerative oxidizer, which uses ceramic heat recovery media to capture and reuse as much as 95% to 97%+ of the heat from oxidation. The Rotor Concentrator is another unique approach to reducing long-term costs. By absorbing and then desorbing or concentrating the VOCs into a smaller airflow, the Rotor Concentrator allows for the smallest oxidizer possible.

The secret is to determine which technology works best and most cost effectively in each application.

How do I decide which technology to use?

In general, the selection process is dependent on these three criteria:

  • Airflow (SCFM or Nm3/hr)
  • Contaminants (VOCs) in the airflow
  • Concentration of contaminants in the airflow, also called the percent Lower Explosive Limit (LEL)

After the rate and content of your exhaust airflow are analyzed, the proper technology selection can be made. Hopefully the explanations above and definitions below will help you to better understand your application. If we can answer any questions about this material or your application, please contact Anguil Environmental Systems.

Basic Definitions

ACFM: Actual Cubic Feet per Minute. Flow conditions with temperature and atmospheric conditions accounted for.

Catalyst: Substance that increases the rate of a chemical reaction without itself being consumed in the reaction.

HAPs: Hazardous Air Pollutants are VOC emissions with additional harmful properties.

Air Pollution Control

Hydrocarbon: Compound found in all organic compounds. It is the bond that is broken during oxidation.

Incineration: Also known as oxidation but generally refers to solid waste destruction.

LEL: Lower Explosive Limit. The VOCs in your air stream have a known explosive limit. The explosive limit is the lowest organic concentration in a stream that would yield a combustible mixture in the presence of an ignition source. It is an essential factor in characterizing your process stream.

Recuperative: An oxidation technology (thermal recuperative or catalytic recuperative) that uses a plate, shell and tube, or other conventional type of metal heat exchanger to heat incoming air with air from the oxidation process. Recuperative systems can often recover 50% to 75% of the heat generated by oxidation.

Regenerative: An oxidation technology that uses two or more ceramic heat transfer beds that act as smaller heat exchangers and a retention chamber where the organics are oxidized. It can often recover 90%-97%+ of the heat generated by oxidation.

Rotor Concentrator: An oxidation technology add-on that reduces air volume and increases VOC concentration. The process stream flows through a continuously rotating wheel impregnated with adsorbent. Here the VOCs are adsorbed and the clean air is exhausted into the atmosphere. The wheel is then regenerated by passing through a stream of warm, low volume desorption gas that produces a concentrated stream that can be more efficiently destroyed by an oxidizer.

SCFM: Standard Cubic Feet per Minute. Flow conditions at standard conditions; usually defined at 70º F, sea level and one atmosphere.

VOCs: Volatile Organic Compounds: Organic chemicals that exist as vapor in air and that react in the atmosphere with nitrogen oxides in the presence of sunlight to form ozone (O3).

Emission Control Technologies

A VOC Handbook.

By Gene Anguil / Founder & CEO of Anguil Environmental Systems, Inc.

This handbook was originally written by Gene Anguil as a chapter in the Odor and VOC Control Handbook by Harold J. Rafson (Editor). It has recently been updated for publication on our website to reflect technology advances and terminology changes.