Pollution Prevention Guides for 
Auto Body Shops - Fact Sheet 8

Automotive Fluids

Cleaning Solvents

Cleaning solvents are often the largest automotive fluid waste generated in an auto body shop. Automotive cleaning solvents typically contain chemicals such as methylene chloride, toluene, and xylene. Over-exposure to such solvents and their vapors can lead to cancer, nervous system damage, or skin disorders. Waste solvents are most often regulated as hazardous wastes because they may be listed specifically in the regulations, ignitable, or corrosive. The main methods of preventing pollution in parts washing include:

• Selecting less hazardous cleaning methods
• Substituting less hazardous solvents
• Extending the life of the solvent used

Less Hazardous Cleaning Methods

There are a number of cleaning methods that can be selected to help reduce your exposure to chemicals, maximize solvent life, and reduce the amount of solvents used. Three such alternatives are discussed below.

Mechanical Cleaning - Mechanically cleaning parts can be as simple as cleaning dirt and grit off parts with a wire brush before placing them in the solvent sink or parts washer. More elaborate approaches include abrasive material, such as sand or plastic pellets, to "blast" away dirt and grime.

Advantages: Very effective way to remove heavy scale, paint, and grime; can reduce the amount of solvent used to clean parts; abrasive materials may be reused.

Disadvantages: Not suited for the removal of fluid residues; particulates in air may pose a hazard to unprotected operators; waste generated -- a mixture of abrasive media and the material removed (paint, soil, etc.) -- may be considered hazardous.

Modifying Existing Solvent Sinks - Significantly reduced air emissions, worker exposure to hazardous chemicals, and solvent loss due to evaporation can be accomplished through modifying existing solvent sink equipment. Modifications include:

• Adding easy-to-open lids and covers
• Increasing freeboard height (height of tank above the surface of solvent)
• Installing baskets over sink to allow parts to drip-dry
• Reducing room drafts

Advantages: Modifications can be retrofitted onto existing sinks; simple add-ons such as a cover can reduce air emissions significantly; reduced air emissions mean reduced solvent consumption and hence reduced operating costs; add-on controls are relatively inexpensive; they are easy to install and operate; using add-on controls requires no additional labor or skills.

Disadvantages: Performance of modifications is dependent on the design features on the solvent sink; air emissions can be reduced but not eliminated; product loss can be reduced but not eliminated because some residual solvent will escape from the parts to the ambient air.

Enclosed Parts Washers - Enclosed parts washers usually combine washing, rinsing, and drying cycles within one cabinet. Ultrasonic, high- and/or low-pressure sprays, and immersion cleaning parts washers are available.

Advantages: Effective way to clean parts; less-hazardous cleaning solvents, such as water and aqueous-based solutions, can be used; reduces employee exposure to hazardous solvents; less employee time spent washing parts; potentially cheaper cleaning materials; potentially less waste (hazardous and non-hazardous) to dispose of.

Disadvantages: There is a risk of parts rusting, and the resultant wastewater and sludge may be hazardous.

Alternative Solvents

Most parts cleaners use petroleum-based, low flash point solvents (less than 140°F), such as mineral spirits. When used, these solvents may have to be managed as hazardous waste. Fortunately, solvents with higher flash points (greater than 140°F) and aqueous cleaning solutions (detergents) have become available for small parts washers. As long as these alternative solvents don't become contaminated to the extent they meet the definition of a hazardous waste, they can be managed as a non-hazardous waste. Switching to alternative solvents could lower your hazardous waste disposal costs.

If possible, avoid solvents:

• Containing chlorinated and halogenated compounds, such as methylene chloride or perchloroethylene
• Containing xylene or toluene
• Having a flash point under 140°F (flammable)

There are a number of alternative cleaning solvents on the market today; two alternatives are discussed below.

Aqueous Cleaners - Aqueous cleaners are water-based parts cleaning agents composed of detergents, chemical additives, and/or microbes.

Uses: Acidic cleaners work well for removing scale, rust, and oxides. Alkaline cleaners work well for removing cutting oils and coolants, grease, and shop dirt. Neutral solutions are excellent for removing salts, soil, and particulates.

Cost: A typical batch of solution for a 30-gallon unit requires approximately 4 pounds of powdered cleaner and can cost between $25 and $50. Solution life ranges from three weeks (heavy use) to 4 months (light use).

Advantages: Most are non-hazardous; can reduce the risk of fires; waste can be considered non-hazardous as long as it has not been contaminated (and thus becomes hazardous).

Disadvantages: Inadequate cleaning power for some uses; there is a risk of pitting or corrosion; rinsing with water may be required; "fresh" solvent can more expensive than petroleum-based solvents; contaminated waste solvent and sludges may have to be managed as hazardous waste.

Terpenes - Terpene solvents are derived from natural sources such as pine or citrus oils. A common terpene is d-limonene, which is derived from the oils of orange or lemon peels.

Uses: Terpenes work well in removing heavy petroleum greases and residues.

Costs: Costs are closely tied to bath concentrations and recyclability.

Advantages: They are non-corrosive, non-toxic, biodegradable, and not considered an ozone depleter.

Disadvantages: Can have a very strong odor; may be toxic to aquatic life; are highly flammable when sprayed; resultant wastewater and sludge may be hazardous.

Extending Solvent Life

One of the easiest, and possibly cheapest, ways to reduce waste and prevent pollution is to extend the life of the solvents used in an auto body shop:

• Look at your cleaning needs and avoid cleaning parts if possible.
• Because solvents are expensive, use them only for their intended purposes. Don't waste parts cleaning solvent on floors or use them to clean your hands.
• Minimize the amount of spilled and wasted solvent by placing cleaning equipment near the service bays or by allowing parts to drip-dry over pan or sink.
• Use a wire brush to pre-clean dirty parts.
• Pre-wash with old solvents for especially dirty parts.
• Use solvent sinks with lids or enclosed parts washers.
• Use a filtration system that filters solvent before pumping it back into the sink for reuse (costs between $60 to $150).
• Distill or recycle used solvent on-site or off-site (costs range from $2,000 to over $5,000).

Antifreeze

Antifreeze or engine coolant is typically comprised of ethylene glycol and corrosion inhibitors. It is found in liquid-cooled engines and is designed to transfer heat from a vehicle's engine to its radiator. Over time, antifreeze can become contaminated with traces of fuel, metals, and grit, and can break down to form acids that corrode the cooling system.

Because used antifreeze can be toxic to animals, birds, fish, and humans, it should never be:

• Poured down a sanitary sewer unless it is non-hazardous and the local wastewater treatment plant authority has approved such action.
• Poured down a septic system. The used antifreeze could contaminate or destroy the system, endangering human health and the environment.
• Poured down a storm sewer opening or on the ground. Storm drains may drain directly into local streams or lakes.

The main pollution prevention options for antifreeze include:

• Purchase recycled antifreeze
• Selecting less hazardous coolants
• Practicing safe handling procedures
• Extending the life of the coolant

Recycled Antifreeze

Recycled antifreeze is an option as long as it meets ASTM Standards and will not invalidate a vehicle manufacturer's warranty. You can purchase equipment to recycle your used antifreeze on-site, or you can purchase recycled antifreeze from a supplier (costs about $1.50 per gallon).

Less Hazardous Coolants

Propylene glycol is another alternative to ethylene glycol antifreeze. Propylene glycol is reported to be less toxic than ethylene glycol; however, spent propylene glycol can become just as contaminated by the engine's cooling system as ethylene glycol.

Safe Handling Procedures

The most effective ways to prevent used antifreeze from creating health and environmental hazards are to:

• Stop leaks or spills from occurring.
• Fix leaky radiators immediately.
• Do not accumulate more antifreeze than you need (this prevents it from becoming out-dated before you can use it).
• Store leftover antifreeze in its original labeled container and make sure the lid is secure.
• Clean up spills or leaks immediately.
• Do not mix used antifreeze with other wastes. Mixing wastes may limit your options for reusing, recycling, or disposing of the mixture.

Extending Coolant Life

Replace antifreeze only when needed. Visually check antifreeze for particulates and test for freeze point and pH. Fresh antifreeze or corrosion inhibitors could be added to adjust these parameters for reuse.

When usable antifreeze must be removed for repairs only, save it in a clean, labeled container. Refill the system with this antifreeze when repairs are done.

Recycle used antifreeze on-site or off-site (refer to the Appendix section for lists of antifreeze recyclers and recycling equipment suppliers).

Aerosols

Aerosol containers are common in most auto body shops. Unfortunately, they are not very economical when you have to pay for the potentially hazardous propellant, the packaging the product comes in (aerosol can), and disposing of the paint left in the can.

Pollution prevention options for aerosol containers include:

• Manage waste aerosol containers properly
• Eliminate the use of aerosol containers

Managing Waste Aerosol Containers

• Try to use all the material in the can before considering it a waste.
• Recycle empty cans if possible.
• If recycling is not an option, empty cans should be disposed of in a licensed solid waste management facility.
• Defective cans should be returned to the supplier or manufacturer.

Montana State University Extension Service
Pollution Prevention Program Taylor Hall Bozeman, Montana 59717
(406) 994-3451
funded by
The United States Environmental Protection Agency
(Fact Sheet 8 of 18)

Previous Sheet  Table of Contents  Glossary  Next Sheet