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Core (Universal)
40 questionsThe ozone layer in the stratosphere absorbs most of the sun's harmful ultraviolet (UV) radiation, which protects humans, animals, and plants. It does not warm the planet like greenhouse gases do, produce breathable oxygen, or reflect radio signals. Protecting this layer is the main reason Section 608 limits the release of ozone-depleting refrigerants.
Chlorine atoms released from CFCs and HCFCs act as a catalyst, and a single chlorine atom can destroy thousands of ozone molecules before it is removed from the stratosphere. Carbon and hydrogen are part of the molecule but are not the ozone-destroying agent, and nitrogen is not the driver of this reaction. This is why chlorine-containing refrigerants have been phased out.
The Montreal Protocol, adopted in 1987, is the international treaty under which nations agreed to phase out the production and consumption of ozone-depleting substances such as CFCs and HCFCs. It is not a wage law, a compressor efficiency standard, or a metal recycling pledge. U.S. obligations under this treaty are carried out through the Clean Air Act.
Section 608 of the Clean Air Act establishes the national program for managing ozone-depleting and substitute refrigerants during the service, maintenance, repair, and disposal of appliances. It does not set thermostat designs, service prices, or wiring rules. The regulations that carry out Section 608 are found in 40 CFR Part 82, Subpart F.
Clean Air Act §608ODP means Ozone Depletion Potential, a value that compares a substance's ability to destroy stratospheric ozone relative to CFC-11, which is assigned an ODP of 1.0. It has nothing to do with discharge pressure, design performance, or oil displacement. HFCs have an ODP of zero because they contain no chlorine.
GWP means Global Warming Potential, which compares how much heat a gas traps in the atmosphere relative to carbon dioxide (CO2 = 1). R-410A has zero ODP because it contains no chlorine, but its high GWP is why HFCs are now being phased down under the AIM Act. GWP is not a measure of ozone depletion, working pressure, or water content.
R-12 is a chlorofluorocarbon (CFC) with a high ozone depletion potential and its production was banned in the United States. R-134a and R-410A are HFCs with zero ODP, and R-1234yf is a low-GWP HFO. CFCs were the first class of refrigerants eliminated under the Montreal Protocol.
R-22 is a hydrochlorofluorocarbon (HCFC), which still contains chlorine and therefore has some ozone depletion potential, though less than a CFC. It is not an HFC, an HFO, or a natural refrigerant. Because HCFCs deplete ozone, R-22 was placed on a production and import phaseout schedule.
Beginning January 1, 2020, it became illegal to produce or import R-22 in the United States, so servicing older R-22 equipment now depends on recovered, recycled, or reclaimed supplies. Venting R-22 remains illegal, it was never a natural refrigerant, and new systems use non-ozone-depleting refrigerants. The phaseout follows the Montreal Protocol schedule for HCFCs.
The American Innovation and Manufacturing (AIM) Act directs EPA to phase down the production and consumption of hydrofluorocarbons (HFCs) by 85 percent over roughly 15 years because of their high global warming potential. CFCs were already addressed by the Montreal Protocol, and natural refrigerants and nitrogen are not targeted by the phasedown. This is a phasedown of quantity, not an immediate ban.
The three R's are Recover, Recycle, and Reclaim, describing how refrigerant is removed, cleaned for on-site reuse, or reprocessed to a purity standard for resale. Repair, replace, refill, and report are legitimate service tasks but are not the recognized three R's. Understanding these three terms is central to Section 608 recovery requirements.
Recycling cleans refrigerant on-site with oil separation and filter-driers so it can be reused in the same or a related system, while reclaiming reprocesses the refrigerant to meet the AHRI 700 purity standard, allowing it to be resold. The two terms are not interchangeable, and the descriptions in the other options are reversed or inaccurate. Only reclaimed refrigerant may be sold to a new owner.
Section 608 requires that refrigerant be recovered into an approved recovery cylinder using recovery equipment before a sealed system is opened for service or disposal. Venting, purging to atmosphere, or discharging into water are all illegal releases. Knowingly venting refrigerant is prohibited and can lead to significant penalties.
40 CFR §82.156The venting prohibition originally covered CFCs and HCFCs, and effective November 15, 1995 it was extended to their non-exempt substitutes, which includes most HFCs such as R-410A and R-134a. It is not limited to CFCs, automotive systems, or large systems. Only a small number of substitutes that EPA has specifically exempted may be released, and even then good practice is to avoid venting.
40 CFR §82.154Type I certification covers servicing and disposing of small appliances, defined as products manufactured, charged, and hermetically sealed in a factory with 5 pounds or less of refrigerant. Type II covers high-pressure systems and Type III covers low-pressure systems, and certification is always required to recover refrigerant. A Universal certification would also qualify because it includes Type I.
40 CFR §82.156Type II certification is required to service or dispose of high-pressure and very high-pressure appliances, which includes R-410A rooftop units. Type I covers only small appliances, Type III covers low-pressure systems, and certification is required for HFCs even though they have zero ODP. A Universal certification would also qualify because it includes Type II.
40 CFR §82.161Type III certification is required to service or dispose of low-pressure appliances such as R-123 and R-11 centrifugal chillers, which operate below atmospheric pressure. Type I covers small appliances and Type II covers high-pressure systems, and low-pressure systems are not exempt. A Universal certification would also qualify because it includes Type III.
40 CFR §82.161Universal certification is earned by passing the Core section plus all three type-specific sections (Type I, II, and III), and it authorizes work on every category of stationary equipment. Holding only Type I or Type II limits the technician to that category. A business license is a different matter and does not replace technician certification.
40 CFR §82.161A Section 608 technician certification does not expire; once earned it is valid for the life of the technician. There is no annual, five-year, or ten-year renewal requirement. The five-year figure in one option refers to cylinder hydrostatic testing, which is a separate rule.
40 CFR §82.161Since January 1, 2018, sales of HFC and other substitute refrigerants are restricted to EPA-certified technicians (or their employers or wholesalers), the same rule that already applied to ozone-depleting refrigerants. Paying cash, promising not to vent, or owning the home does not qualify a buyer. The clerk must verify the buyer's certification before completing the sale.
40 CFR §82.154For a high-pressure appliance normally containing less than 200 pounds and manufactured on or after November 15, 1993, the required recovery level is 0 inches of mercury (Hg) vacuum, meaning down to atmospheric pressure. The deeper 25 inch Hg level applies to low-pressure appliances, and leaving positive pressure would leave refrigerant behind. Recovery levels depend on the appliance type, size, and manufacture date.
40 CFR §82.156Low-pressure appliances must be evacuated to a deep vacuum, expressed as 25 mm Hg absolute, which is roughly 29 inches of mercury vacuum, because these refrigerants boil off only at very low pressures. The 0, 4, and 10 inch Hg figures apply to various high-pressure appliances, not low-pressure chillers. Deep evacuation is required to remove as much low-pressure refrigerant as practical.
40 CFR §82.156For small appliances, recovery equipment manufactured on or after November 15, 1993 must recover 90 percent of the refrigerant when the appliance's compressor is operating, or the system must reach 4 inches Hg vacuum. If the compressor is not operating, the requirement is 80 percent. Reaching 100 percent is not physically required by the rule.
40 CFR §82.156System-dependent or passive recovery uses the appliance's own compressor or its internal pressure to push refrigerant into a recovery container, and it is generally limited to small appliances. Self-contained (active) recovery uses a separate machine with its own compressor. Passive recovery must never involve venting any part of the charge.
The Significant New Alternatives Policy (SNAP) program reviews substitute refrigerants and lists them as acceptable or unacceptable for specific end uses based on overall risk to health and the environment. DOT regulates transport, OSHA regulates workplace safety, and AHRI (formerly ARI) sets the reclamation purity standard. A refrigerant may be listed as acceptable only for certain applications.
R-1234yf is a hydrofluoroolefin (HFO), a newer class of refrigerant with zero ozone depletion potential and a very low global warming potential, which is why it is replacing higher-GWP HFCs. It is not a CFC or HCFC and does not deplete ozone. HFOs are mildly flammable (A2L), so technicians must follow the manufacturer's safety guidance.
Refrigerant recovery cylinders must never be filled beyond 80 percent of capacity by weight, leaving vapor space so the liquid can expand safely as temperature rises. Overfilling can cause the cylinder to become hydrostatically full and rupture. Filling to 95 percent is dangerous, while 50 or 60 percent is unnecessarily conservative and not the rule.
Recovery cylinders must be Department of Transportation (DOT) approved for the transport of refrigerant under pressure, and they must be within their required inspection and test intervals. OSHA handles workplace safety, EPA handles refrigerant management rules, and AHRI publishes purity standards, but the cylinder approval itself is a DOT function. Using unapproved or expired cylinders is unsafe and illegal for transport.
Refrigerant recovery cylinders are color-coded with a gray body and a yellow top or shoulder so they are easy to distinguish from virgin refrigerant cylinders. Solid colors such as green (older R-22), orange (R-404A), and light blue (R-134a) identify specific virgin refrigerants, not recovered mixtures. The gray and yellow scheme signals that the contents may be a mix that must be reclaimed or reused properly.
Under the traditional refrigerant color code, light green identifies R-22, while R-410A is rose (pink), R-134a is light blue, and R-404A is orange. Color codes help technicians grab the right cylinder, but the printed label must always be verified because colors can fade or be reused. Never rely on color alone to identify a refrigerant.
R-410A cylinders are traditionally colored rose (pink), which distinguishes them from light-green R-22, light-blue R-134a, and white R-12. Because R-410A operates at much higher pressures than R-22, using the correct refrigerant and gauges matters for safety. As always, the printed label is the authoritative identification, not the color.
For appliances containing 50 or more pounds of refrigerant, leaks that exceed the applicable annual leak rate threshold must generally be repaired within 30 days of discovery. A 24-hour or 7-day deadline is stricter than the rule requires, and 90 days is too long. If repairs cannot be completed in time, the owner may need a retrofit or retirement plan.
40 CFR §82.157The leak repair provisions apply to appliances that normally contain 50 or more pounds of refrigerant, such as commercial and industrial systems. Small appliances with 5 pounds or less are not subject to the leak rate thresholds, and 200 pounds is not the trigger. This is why leak inspections and repair recordkeeping focus on larger commercial equipment.
40 CFR §82.157Recordkeeping requirements under Section 608 generally call for records related to refrigerant recovery, service, and disposal to be retained for at least three years. Keeping records for only one month or six months would not satisfy the rule, and records are definitely required. Good records protect the technician and company if EPA requests documentation.
40 CFR §82.166Used refrigerant can only be sold to a new owner after it has been reclaimed to the AHRI 700 purity standard, typically by an EPA-certified reclaimer. On-site recycling or simple filtering does not meet the standard for resale, and mixing with virgin refrigerant is not an acceptable substitute for reclamation. Reclaimed refrigerant must meet the same purity as new product.
Section 608 places responsibility on the disposal chain to ensure refrigerant is recovered before an appliance is shredded or scrapped, and the person who accepts the appliance for final disposal must verify that recovery occurred. Scrap appliances are not exempt, and responsibility is not limited to the manufacturer or homeowner alone. Anyone actually recovering the refrigerant must be certified and use proper equipment.
40 CFR §82.156Low-loss fittings and self-sealing hoses are designed to trap the small amount of refrigerant left in hoses so it is not released to the atmosphere when connections are broken. Venting the fittings, blowing lines with air, or letting refrigerant leak out are all prohibited releases. Minimizing these small emissions is part of good recovery practice under Section 608.
40 CFR §82.156Releasing a holding or trace gas such as nitrogen or CO2 that is not a regulated refrigerant is not considered illegal venting, which is why these gases are used for pressure testing and leak detection. Opening a system before recovery, blowing out refrigerant, or discharging R-134a are all prohibited releases of regulated refrigerant. The rule targets ozone-depleting and substitute refrigerants, not inert test gases.
40 CFR §82.154The small amount of refrigerant left in a 'empty' disposable cylinder, called the heel, must be recovered before the cylinder is discarded, because venting it is illegal. Disposable DOT-39 cylinders must never be refilled, and puncturing a cylinder that still holds refrigerant would vent it. Only after the heel is recovered can the cylinder be safely rendered empty and recycled per local rules.
Repeatedly recharging a leaking system wastes scarce, phased-out R-22 and allows an ozone-depleting refrigerant to escape into the atmosphere, exactly the outcome Section 608 is designed to reduce. It is not merely a warranty or commercial-only issue, and there is a real environmental and cost downside. Good practice is to find and repair leaks rather than continually add refrigerant.
Last reviewed: · editorial process
What's on the EPA Section 608 Technician Certification Exam (Core, Type I, Type II, Type III / Universal)?
The EPA Section 608 Technician Certification Exam (Core, Type I, Type II, Type III / Universal) is administered by the Administered by EPA-approved certifying organizations (e.g., ESCO Institute, Mainstream Engineering, HVAC Excellence) under U.S. EPA oversight. Topic weights below come directly from the official exam blueprint — focus your study on the highest-weighted areas first.
Topic blueprint
- 25%Core (Universal)
- 15%Regulations & Safety
- 15%Type I — Small Appliances
- 15%Type II — High-Pressure
- 15%Type III — Low-Pressure
- 15%Recovery & Recycling
How hard is the exam?
Moderate. EPA 608 is taken as separate sections — Core plus Type I, II, and/or III — 25 questions each, closed-book and proctored, 70% (18 of 25) to pass each. Core is conceptual (ozone, regulations); the Type sections are hands-on refrigerant handling.
- Recommended study hours
- 10-25 hours; Universal (all four sections) needs the most review.
- First-attempt pass rate
- Core and Type I pass easily; Type II is the most-failed section. Expect 1-2 attempts on the harder types.
- Where to focus first
- Core regulations (ozone, Clean Air Act, recovery) plus Type II high-pressure recovery/evacuation — the sections people retake most.
Frequently asked questions
How many EPA 608 practice questions are here?+
240 original practice questions across all four sections — Core, Type I (small appliances), Type II (high-pressure), and Type III (low-pressure) — plus recovery/recycling, in English and Español, with a 40 CFR Part 82 or Clean Air Act §608 citation on most answers.
Is this EPA 608 practice test free?+
Yes — completely free, no signup. Unlimited rounds, a full timed mock exam, and explanations included. The official EPA 608 certification exam (about $20-$100) is taken separately through an EPA-approved organization.
Are these real EPA 608 exam questions?+
No. All 240 questions are original prose written from the public-domain Clean Air Act Section 608 and 40 CFR Part 82. We never copy from any prep provider or the real exam.
How is the EPA 608 exam structured and what's the passing score?+
It has four sections — Core plus Type I, II, and III — 25 questions each, and you need 70% (about 18 of 25) to pass each. Passing Core plus all three types earns Universal certification. Core and the Type sections are proctored.
Does the EPA 608 certification expire?+
No — EPA Section 608 technician certification is valid for life and never expires.
What languages is the EPA 608 exam available in?+
Many EPA-approved organizations offer it in English and Spanish. PrepPass practice is available in English and Español.