How to Work Safely With Formaldehyde

Industrial Uses

The properties of Formaldehyde make it a fundamental element in many processes and creating products. Here are its diverse applications across various sectors:

• Manufacturing and Construction Materials: Used in resins and adhesives for particleboard, plywood, and fiberboard, key for construction and furniture.
• Healthcare: Preservative in vaccines and biological specimens.
• Automotive: Creates lightweight, high-performance parts like brake pads and engine components.
• Agriculture: Used in pesticides, fungicides, seed preservation, and soil treatment.
• Chemical Intermediates: Serves as a base for synthesizing industrial chemicals like methanol, acetic acid, and hexamine, these are commonly used in pharmaceuticals, plastics, and rubber production.
• Death Care: Essential for embalming to preserve the deceased for ceremonies.
• Textiles: Improves fabric properties like crease-resistance, colorfastness, and durability.

Benefits

With the diverse applications of formaldehyde come many advantages. These benefits include:

• Versatility in Applications: Formaldehyde’s multiple uses across various industries, from construction to healthcare, automotive to textiles, highlights its versatility as a chemical compound.
• Cost-Effectiveness: For many industries, formaldehyde provides a cost-efficient solution to production challenges, making them accessible to most consumers.

Risks of Exposure

Despite its widespread use and benefits, formaldehyde risks human health and the environment. Some of the most common risks associated with it are the following:

Health Risks

Formaldehyde exposure can occur through inhaling its gas or vapors and skin contact with products that contain it. Common sources of exposure include:

• building materials like pressed wood products;
• tobacco smoke and automobile emissions; and
• use of unvented fuel-burning appliances.

Health effects associated with formaldehyde exposure include:

• Respiratory issues: It can irritate the nose, throat, and respiratory tract and may trigger asthma attacks in individuals with the condition.
• Skin and eye irritation: Prolonged exposure can cause irritation and allergic reactions, while eye exposure can lead to severe irritation and damage.
• Cancer risks: The International Agency for Research on Cancer (IARC) has classified formaldehyde as a Group 1 carcinogen, indicating it is a confirmed cause of cancer in humans.

Environmental Risks

Formaldehyde poses environmental risks, primarily through the following:

• Air Quality: As a Volatile Organic Compounds (VOC), formaldehyde contributes to smog and worsens respiratory issues. Indoors, it’s released from materials like furniture, often exceeding outdoor levels.
• Water and Soil: Though it breaks down quickly, formaldehyde can contaminate water and soil, harming aquatic life and ecosystems.
• Biodiversity: Excessive emissions harm habitats, slow tree growth, hurt wildlife, and reduce biodiversity by affecting sensitive species.

Safety Standards and Regulations

Due to its toxic nature, strict safety standards and regulations govern its use to protect workers and the environment. Some of the most common ones are the following:

For the US

Occupational Safety and Health Administration (OSHA)

OSHA has established specific formaldehyde regulations under 29 CFR 1910.1048, which include:

• Permissible Exposure Limits (PEL): Workers are not required to be exposed to more than 0.75 parts per million (ppm) of formaldehyde over an 8-hour workday to protect their health.
• Action Level (AL): OSHA’s AL for formaldehyde is 0.5 ppm over the 8-hour time-weighted average (TWA), which requires air monitoring if exceeded to protect worker safety.
• Personal Protective Equipment (PPE): OSHA requires employees to provide Personal Protective Equipment (PPE), such as gloves, goggles, and respirators, for workers exposed to formaldehyde.

Environmental Protection Agency (EPA)

The laws and regulations for formaldehyde use that authorizes EPA to regulate include:

• Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA): FIFRA requires the EPA to evaluate and approve any pesticide containing formaldehyde, ensuring they do not pose unreasonable risks to health or the environment.
• Toxic Substances Control Act (TSCA): TSCA gives EPA the authority to enforce reporting, recordkeeping, testing, and restrictions on chemical substances and mixtures.
• Resource Conservation and Recovery Act (RCRA): This act gives the EPA authority to control hazardous waste from its point of generation to disposal.
• Clean Water Act: The EPA limits formaldehyde discharges into water to protect the environment.
• Clean Air Act (CAA): Formaldehyde is regulated as a hazardous air pollutant under the CAA, which requires industries to monitor and limit emissions, as well as release a report of formaldehyde above a certain threshold annually.

Centers for Disease Control and Prevention (CDC)

The CDC, through its National Institute for Occupational Safety and Health (NIOSH), offers guidance and standards on formaldehyde exposure, including exposure limits and monitoring guidelines. NIOSH also provides surveillance regulations employers should follow and air quality standards to maintain.

For Other Countries

Beyond the US, many countries have regulations on formaldehyde to protect public health and the environment. Here are some examples:

Sensor Solutions for Monitoring Formaldehyde

Internet-of-Things (IoT) sensors are effective in monitoring formaldehyde levels and maintaining safe exposure limits. Here are the types of sensors that could potentially be used to monitor formaldehyde levels:

1. Air Quality Sensor: Specifically designed to monitor indoor air quality, which can include formaldehyde detection.
2. Carbon Dioxide Sensor: While primarily for CO2, it can sometimes be part of broader air quality monitoring systems, including VOCs like formaldehyde.
3. Carbon Monoxide Sensor: Similar to the CO2 sensor, it might be part of a comprehensive air quality monitoring setup.
4. Differential Air Pressure Sensor: While not directly for formaldehyde, it can be part of systems that monitor air quality changes.