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Key Points/Overview

EO is most commonly used in the production of other chemicals and products, including solvents, antifreeze, detergents, adhesives, polyurethane foams and pharmaceuticals.

An important use of EO is the sterilization of medical equipment, including personal protective equipment used by health care professionals and hospitals. It is estimated that ethylene oxide sterilizes 20 billion medical devices each year, helping to prevent disease and infection.

EPA standards for EO production and use require emission reducing and monitoring devices, on-site testing, site-specific operating parameters, and regular reporting and record keeping. Facilities where EO is produced work to meet and exceed EPA standards.

In workplaces where EO is present, the OSHA standard applies in many circumstances and requires employers to monitor employee exposure and provide appropriate protective clothing and equipment to employees who may be exposed to EO.

There is minimal health risk for the general population because most people are not exposed to significant quantities of EO.

Ethylene Oxide Sterilization

A small but important use of ethylene oxide is the sterilization of medical equipment, including the sterilization of personal protective equipment used by doctors and hospitals across the country. It is estimated that ethylene oxide sterilizes 20 billion medical devices each year, helping to prevent disease and infection.1 The sterilization process is tightly controlled, and the ethylene oxide gas is removed from the products before they are used. According to the U.S. Food and Drug Administration (FDA), “These standards help ensure levels of ethylene oxide on medical devices are within safe limits.”2

Read about more ethylene oxide uses.

Uses & Benefits

 

Ethylene Oxide: An Essential Chemistry

Ethylene oxide is most commonly used in the production of other chemicals, including the production of solvents, antifreeze, detergents, adhesives, polyurethane foam, and pharmaceuticals. Ethylene oxide is used in many industries including:

 

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Electric Batteries

One use of ethylene oxide is in the development of lithium-ion batteries, a key power source for electric vehicles. Ethylene oxide is used to produce ethylene carbonate, which is used in lithium-ion batteries to allow the electricity generated to travel more easily through the battery. See the infographic.

Crop tractor

Agriculture

Ethylene oxide and its derivatives are utilized to produce a wide variety of active and inert ingredients, used in insecticides, pesticides, and herbicides. Each active ingredient targets specific needs for the agricultural industry – helping to protect crops and boost crop production.

In processing agricultural crops, demulsifers based on ethylene oxide are employed to improve the separation of oil from water, such as in corn oil extraction in the bioethanol process. This oil can be used in the food chain, animal feed supply, or made into biodiesel.

Ethylene oxide is used to produce industrial starches from agricultural materials (hydroxyethyl starches) which are a versatile input used in many industries, including adhesive and binding applications and paper making (printing and coating). Industrial starch can also be used in laundry starch. Further, in veterinary and animal surgical facilities, ethylene oxide is used to sterilize medical devices, procedure kits, surgical trays, and surgical instruments. See the infographic.

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Oil and Gas

Ethylene oxide derivatives are used in natural gas purification to reduce corrosion and scale in oil and gas processing, oil well remediation, enhanced oil recovery aids, freeze protection for finished goods, gas dehydration, and carbon capture in gas processing, which ultimately helps enable the energy transition.

A family of its derivatives — ethanolamines are used to allow for cleaner burning fuels resulting in less air pollution. Common ethanolamines include monoethanolamine (MEA), diethanolamine (DEA), and triethanolamine (TEA). By using ethylene oxide-based compounds, petroleum production speed has increased from the well head to the refinery while reducing corrosion in the pipelines. This helps to lower the overall cost of petroleum products and reduce the frequency of replacing equipment and pipelines. See the infographic.

modern living room furniture

Product and Industrial Applications

Ethylene oxide is used as an intermediate in the production of other chemicals used to manufacture products, such as fabrics for clothes, upholstery, carpet, and pillows. It is used to produce ethylene glycols for engine antifreeze that keeps our automobiles performing.

Ethylene glycol is used to manufacture fiberglass used in products ranging from jet skis to bathtubs to bowling balls, as well as polyethylene terephthalate (PET) plastic resin to make beverage containers and packaging film.

Other ethylene oxide derivatives are used in household cleaners and personal care items such as cosmetics and shampoos, Other items include industrial cleaners, heat transfer liquids, polyurethanes, and plasticizers.

Engineer Technician Watching Team Workers

Construction

Ethylene oxide plays an important role in processing resources such as minerals into usable products. Building and construction products such as asphalt, cement, solvents, and wood treatments are manufactured from other chemical-based products that use ethylene oxide.

Scientist working in Research Laboratory

Medical Applications

Ethylene oxide sterilization processes can sanitize medical and pharmaceutical products that cannot support conventional, high-temperature steam sterilization procedures. Medical devices that require ethylene oxide sterilization include heart valves, pacemakers, surgical kits, gowns, drapes, ventilators, syringes, and catheters.

Approximately 50 percent of medical supplies are sterilized with ethylene oxide, making it critical to the U.S. healthcare industry. Ethylene oxide has been used for sterilizing spinal anesthesia and equipment for intravenous infusions along with other healthcare products, such as bandages and ointments, reducing potential damage to the product that may occur from other means of sterilization.

Ethylene oxide derivatives may also be used in manufacturing polyester and polyester to make personal protective equipment such as polyethylene terephthalate (PET) multiple-use surgical gowns and masks. See the infographic.

Cleaning

Cleaning

A major role of ethylene oxide is in the production of surfactants and emulsifiers used for cleaning and disinfecting. These surfactants are key ingredients in many cleaners used in hospitals, cafeterias, hotels, and restaurants. EO-based surfactants are also used for transportation cleaning for cars, planes, and trains.

Ethanolamines are a family of ethylene oxide derivatives that work as ingredients in cleaning and personal care products, such as soaps, laundry detergents, surface cleaners, creams, and disinfecting products.

Other ethylene oxide derivatives include alcohol ethoxylates, alcohol ether sulfates, and polyethylene glycols. They are key active ingredients in most cleaning products in home care such as all-purpose cleaners, glass/window care cleaners, laundry detergents, hard surface cleaners, dishwashing detergents, degreasers, floor polishes, and stain removers. See the infographic.

Antimicrobials help kill dangerous bacteria and prevent the spread of infections.

Safety Information

Ethylene Oxide Exposure

Any potential association between ethylene oxide and cancer is linked only to chronic exposure. There is minimal health risk for the general population because most people are not exposed to significant quantities of ethylene oxide.

The Occupational Safety and Health Administration’s (OSHA) ethylene oxide standard requires employers where ethylene oxide is present in the workplace to monitor employee exposure.5 Under the OSHA standard, employers must provide appropriate protective clothing and equipment to employees who may be exposed to ethylene oxide. The National Institute of Occupational Safety and Health6 and the American Conference of Governmental Industrial Hygienists7 also provide guidance for industrial exposure to ethylene oxide.

Regulations

Industrial sources of ethylene oxide emissions to the atmosphere are regulated under EPA’s National Emission Standards for Hazardous Air Pollutants (NESHAP) rules.8 These standards require, among other things, installation of control devices to reduce emissions, emissions monitoring, performance testing, site-specific operating parameters, and continued reporting and recordkeeping. The 2014 EPA National Emissions Inventory (NEI) reported a downward trend in national ethylene oxide emissions for the industrial sector (from 716.49 tons per year in 2002 to 153.16 tons per year in 2014).

Additionally, companies that make and work with ethylene oxide invest in research and product stewardship technologies so that they can continue to help protect communities, with advanced technologies to track and manage emissions. Manufacturers also share best practices for responsibly producing, shipping, and handling ethylene oxide.

FAQs

What is Ethylene Oxide?

Ethylene oxide (also abbreviated as EO and EtO) is a versatile compound used in the production of other chemicals for a variety of industrial applications and everyday consumer products, including household cleaners, personal care items and fabrics textiles.

What is Ethylene Oxide used for?

Ethylene oxide is most commonly used in the production of other chemicals including the production of solvents, antifreeze, detergents, adhesives, polyurethane foam and pharmaceuticals. A small but important use of ethylene oxide is the sterilization of surgical and medical equipment, including the sterilization of personal protective equipment.  It is estimated that ethylene oxide sterilizes 20 billion medical devices each year, helping to prevent disease and infection. Read about more ethylene oxide uses.

How is ethylene oxide used in sterilization?

Ethylene oxide sterilization processes can sanitize medical and pharmaceutical products that cannot support conventional, high-temperature steam sterilization procedures. A low-temperature sterilizer, ethylene oxide gas will not damage these types of medical devices. Approximately 50 percent of medical supplies are sterilized with ethylene oxide, making it critical to the U.S. healthcare industry. Read more about ethylene oxide sterilization uses.

Is the general population exposed to ethylene oxide?

Ethylene oxide is present in the environment and is created by various sources, including plants and the heating of cooking oils. The human body also converts ethylene to ethylene oxide. Exposure to ethylene oxide varies across urban, suburban and rural environments.

Ethylene oxide emissions from industrial manufacturing and other applications are strictly regulated under federal and in some cases state and local laws.

How is ethylene oxide regulated for worker safety?

OSHA has set exposure limits for employees working in facilities where ethylene oxide gas is present. In addition, employers must provide appropriate protective clothing and equipment to employees who may be exposed to ethylene oxide. The National Institute of Occupational Safety and Health6 and the American Conference of Governmental Industrial Hygienists7 also provide guidance for industrial exposure to ethylene oxide.

Is ethylene oxide a carcinogen that can cause cancer?

Any potential association between ethylene oxide and cancer is linked only to chronic exposure. There is minimal cancer risk for the general population because most people are not exposed to significant quantities of ethylene oxide.

In fact, one comprehensive lifetime exposure study of workers in ethylene oxide production facilities found no statistically significant excess cancer risk due to ethylene oxide exposure.9 A similar result was found in Michigan when the state analyzed the population near a facility that used ethylene oxide in Grand Rapids.10

Has EPA warned of an elevated risk of cancer due to ethylene oxide exposure levels?

In 2016, the EPA Integrated Risk Information System (IRIS) program released an updated cancer value based on modeling. Several independent reviews have raised substantive concerns about EPA’s IRIS program generally and its findings with respect to ethylene oxide specifically.

For instance, the Texas Commission on Environmental Quality (TCEQ) has said that EPA’s IRIS value for ethylene oxide is “without sound scientific basis.”

The ethylene oxide assessment also includes errors in modeling historical exposures to ethylene oxide. These errors combined result in a value that is based on selective science and results in an overly conservative cancer value. In fact, the ethylene oxide cancer value derived from EPA’s modeling is 19,000 times lower than the normal, naturally-created levels of ethylene oxide in the human body.

After independent, peer reviewed analysis of the IRIS value by TCEQ, EPA is currently reconsidering the use of the IRIS value in their rulemaking governing emissions from EO facilities producing EO.

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