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Recovery & Recycling

40 道题
1. Which term means simply removing refrigerant from an appliance and storing it in an external container without cleaning or testing it?
a.Recovery
b.Recycling
c.Reclamation
d.Retrofitting

Recovery is removing refrigerant from an appliance and putting it into a container in any condition, with no processing. Recycling cleans it for reuse, and reclamation restores it to new-product purity verified against AHRI 700. Knowing these three definitions is one of the most tested exam topics.

40 CFR §82.152
2. Refrigerant that is reprocessed to the purity of new product and verified by chemical analysis has been:
a.Recovered
b.Reclaimed
c.Recycled
d.Recharged

Reclamation reprocesses refrigerant to new-product purity and verifies it by chemical analysis against the AHRI 700 standard. Only an EPA-certified reclaimer may do this. Recovery only removes and stores, and recycling cleans for reuse without a chemical purity check.

40 CFR §82.152
3. The AHRI Standard 700 specifies:
a.How to size a compressor
b.The color coding of cylinders
c.The purity a refrigerant must meet to be sold as reclaimed
d.The evacuation levels for high-pressure systems

AHRI Standard 700, formerly ARI 700, defines the purity a refrigerant must meet, limiting moisture, acidity, non-condensables, and other contaminants, to be sold as reclaimed and equivalent to new product. Cylinder color and evacuation levels are set by other standards and EPA rules. Meeting AHRI 700 is what allows resale of reclaimed refrigerant.

4. Who is permitted to reclaim refrigerant to AHRI 700 purity and resell it?
a.Any certified technician
b.Any equipment owner
c.Any refrigerant wholesaler
d.Only an EPA-certified reclaimer

Only an EPA-certified reclaimer may reprocess refrigerant to AHRI 700 purity and resell it. A certified technician can recover and recycle refrigerant but cannot legally reclaim and resell it. This distinction keeps resold refrigerant at a verified quality level.

5. Recovery equipment manufactured on or after November 15, 1993 must be:
a.Certified by an EPA-approved testing organization such as UL or ETL
b.Painted gray with a yellow top
c.Rated for oxygen service
d.Replaced every five years

Recovery and recycling equipment made on or after November 15, 1993 must be certified by an EPA-approved laboratory, such as UL or ETL, to meet EPA performance standards. Gray-and-yellow coloring applies to recovery cylinders, not the machine. Equipment does not have an automatic five-year replacement rule.

40 CFR §82.158
6. Self-contained (active) recovery equipment differs from system-dependent (passive) equipment in that it:
a.Can only be used on small appliances
b.Has its own compressor and can recover without the appliance's help
c.Requires the appliance's compressor to run
d.Cannot recover liquid refrigerant

Self-contained equipment has its own compressor or pump and can pull refrigerant from any appliance without relying on the unit. System-dependent equipment has no pump and depends on the appliance's own pressure or compressor, so it may be used only on small appliances. Choose active equipment for high- and low-pressure work.

7. System-dependent (passive) recovery equipment may only be used on:
a.Low-pressure chillers
b.High-pressure supermarket racks
c.Small appliances
d.Very-high-pressure systems

System-dependent equipment relies on the appliance's own pressure or compressor to move refrigerant, so it is limited to small appliances with five pounds or less of charge. Larger high- and low-pressure systems require self-contained equipment. Using passive equipment on a large system would not achieve the required recovery.

8. Recovered refrigerant must be stored in:
a.A disposable one-trip cylinder
b.Any empty refrigerant drum
c.An open container in a ventilated room
d.A DOT-approved refillable recovery cylinder

Recovered refrigerant must go into a DOT-approved refillable recovery cylinder, never a disposable one-trip cylinder, which is illegal and unsafe to refill. The cylinder must be within its hydrostatic test date and filled to no more than 80 percent. Proper cylinders prevent contamination and rupture.

40 CFR §82.154
9. A recovery cylinder is identified by which color scheme?
a.Gray body with a yellow top
b.Green body with a white top
c.Blue body with a red top
d.Orange body with a black top

Recovery cylinders are marked with a gray body and a yellow top or shoulder so they are not confused with containers of virgin refrigerant, which carry their own product-specific colors. This standard coloring helps prevent accidental cross-contamination. Always confirm a recovery cylinder is proper before filling.

10. A recovery cylinder should never be filled beyond what percentage of its capacity by weight?
a.70 percent
b.80 percent
c.90 percent
d.95 percent

Never fill a recovery cylinder beyond 80 percent of its capacity by weight. The remaining 20 percent of headspace lets the liquid refrigerant expand as temperature rises, preventing a hydraulically full cylinder from rupturing. Always weigh the cylinder to confirm the fill level.

40 CFR §82.154
11. The main danger of overfilling a recovery cylinder beyond 80 percent is that:
a.The refrigerant will lose purity
b.The valve will freeze open
c.As temperature rises the liquid can expand and hydraulically rupture the cylinder
d.The cylinder color will fade

An overfilled cylinder has no room for the liquid to expand, so a rise in temperature can make it hydraulically full and burst it, releasing refrigerant with great force. This is why the 80 percent limit and weighing are strict rules. Overfilling is one of the most serious cylinder hazards.

12. Before recovering refrigerant from an unfamiliar system, a technician should first:
a.Add nitrogen to the system
b.Top off the recovery cylinder
c.Open the compressor for inspection
d.Use a refrigerant identifier to confirm what refrigerant is present

Identifying the refrigerant with a refrigerant identifier before recovery prevents pulling an unknown or contaminated charge into clean equipment or a partly filled cylinder. Mixing refrigerants can ruin a whole cylinder and the recovery machine. Identification protects both the equipment and the value of the recovered refrigerant.

13. Mixing two different refrigerants in one recovery cylinder is a serious problem because the mixture:
a.Usually cannot be recycled or reclaimed and must be destroyed
b.Becomes more valuable
c.Can be sold as a new blend
d.Improves system efficiency

A mixed refrigerant batch generally cannot be recycled or reclaimed to any standard, so it must be sent for destruction at a cost. This wastes refrigerant and money. To avoid it, identify refrigerant before recovery, use a dedicated cylinder per refrigerant, and evacuate equipment between refrigerants.

14. Recycling refrigerant, as opposed to reclaiming it, means the refrigerant is:
a.Chemically analyzed to AHRI 700
b.Cleaned of oil, moisture, and acid for reuse, usually on-site
c.Destroyed by incineration
d.Vented after filtering

Recycling reduces a refrigerant's oil, moisture, and acidity using an oil separator and filter-driers so it can be reused, typically on-site or at a local shop, without a chemical purity analysis. Reclamation goes further, verifying AHRI 700 purity by chemical analysis. Recycled refrigerant generally stays with the same owner.

15. Under EPA rules, refrigerant that changes ownership generally must be before it is resold:
a.Recovered only
b.Recycled only
c.Reclaimed to AHRI 700
d.Vented and replaced

When refrigerant changes ownership, it generally must be reclaimed to the AHRI 700 standard by a certified reclaimer before resale. Refrigerant that stays with the same owner may simply be recycled and reused. This rule keeps resold refrigerant at verified new-product quality.

16. The required evacuation level for recovery depends on:
a.Only the technician's certification type
b.Only the ambient temperature
c.The color of the recovery cylinder
d.The appliance type and the manufacture date of the recovery equipment

The recovery evacuation table sets required levels based on the appliance type and size and whether the recovery equipment was made before or after November 15, 1993. For example, low-pressure appliances require 25 mm Hg absolute, while a large HCFC-22 system requires 10 in Hg with newer equipment. Certification type and cylinder color do not set the vacuum level.

40 CFR §82.156
17. How often must a refillable recovery cylinder undergo a hydrostatic test to remain legal for use?
a.Every five years
b.Every year
c.Every ten years
d.Only once when new

A refillable DOT recovery cylinder must be hydrostatically tested every five years, and the test date is stamped on the cylinder. Using a cylinder past its test date is unsafe and not permitted. Always confirm the test date before filling.

18. To fill a recovery cylinder accurately to the 80 percent limit, a technician should:
a.Judge by the sound of liquid
b.Weigh the cylinder on a scale
c.Feel the cylinder temperature
d.Watch only the pressure gauge

The fill level must be determined by weighing the cylinder on a scale, since the 80 percent limit is by weight. Pressure, sound, and temperature do not reliably show how full a cylinder is. Overfilling risks a hydrostatic rupture, so accurate weighing is essential.

19. Recovering liquid refrigerant before vapor on a large system is recommended because it:
a.Prevents the cylinder from overfilling
b.Cleans the refrigerant
c.Removes the bulk of the charge much faster
d.Is required before recycling

Pulling liquid first moves the largest portion of the charge quickly, then vapor recovery finishes drawing the system down to the required level. This shortens the job significantly on a big system. It is a technique choice, not a cleaning or a legal recycling prerequisite.

20. Which records support Section 608 compliance for a service company?
a.Only customer invoices
b.Only employee schedules
c.Only marketing materials
d.Proof of recovery equipment certification and refrigerant servicing records

Compliance recordkeeping includes proof that recovery equipment is certified, technician certification records, and, for larger appliances, records of refrigerant added during servicing. These documents protect the company during an EPA inspection. Good records also help ensure recovered refrigerant can be reclaimed later.

40 CFR §82.166
21. A one-trip (disposable) refrigerant cylinder should be:
a.Never refilled or used to store recovered refrigerant
b.Refilled with recovered refrigerant to save money
c.Used as a recovery cylinder if it is clean
d.Pressurized with nitrogen and reused

Disposable one-trip cylinders are designed to be used once and must never be refilled or used to store recovered refrigerant; refilling them is illegal and dangerous. Recovered refrigerant goes only into refillable DOT recovery cylinders. When empty and recovered, one-trip cylinders are rendered safe and recycled as scrap.

22. The recovery process that reduces moisture and acid in refrigerant using a filter-drier is part of:
a.Reclamation only
b.Recycling
c.Venting
d.Retrofitting

Passing refrigerant through filter-driers to reduce moisture and acidity, together with oil separation, is the essence of recycling refrigerant for reuse. Reclamation adds full chemical analysis to AHRI 700, and venting and retrofitting are unrelated. Recycling equipment is often combined with the recovery machine.

23. To avoid cross-contamination when switching from recovering one refrigerant to another, a technician should:
a.Use the same cylinder for both
b.Skip identifying the second refrigerant
c.Evacuate the recovery equipment and use a dedicated cylinder for each refrigerant
d.Mix them in a single drum

Between refrigerants, evacuate the recovery machine and hoses and use a separate, dedicated cylinder for each refrigerant to prevent cross-contamination. Reusing a cylinder or skipping identification can create a mixed batch that cannot be reclaimed. Clean separation preserves the refrigerant's value.

24. Low-loss fittings on recovery equipment help compliance by:
a.Increasing recovery pressure
b.Testing refrigerant purity
c.Cooling the cylinder
d.Reducing the refrigerant lost when hoses are connected and disconnected

Low-loss fittings close off automatically to release as little refrigerant as possible each time you connect or disconnect hoses, cutting emissions on every job. They do not test purity, cool cylinders, or raise pressure. Using them is good conservation practice across all refrigerant work.

25. For a small appliance recovered with equipment made after November 15, 1993 while its compressor runs, the required recovery is:
a.90 percent of the charge
b.80 percent of the charge
c.70 percent of the charge
d.25 mm Hg absolute

With post-1993 recovery equipment and a working compressor, a small appliance requires 90 percent recovery; if the compressor does not run, the requirement is 80 percent. The 4 in Hg vacuum is an accepted alternative for such equipment, and 25 mm Hg absolute applies to low-pressure appliances, not small ones.

40 CFR §82.156
26. Non-condensable gases in a recovery cylinder can cause a falsely high pressure reading. The best way to limit them is to:
a.Fill the cylinder faster
b.Avoid drawing air into the system and equipment during recovery
c.Add nitrogen to the cylinder
d.Heat the cylinder before filling

Preventing air from entering the system, hoses, and cylinder during recovery keeps non-condensable gases low, which keeps pressure readings accurate and the refrigerant cleaner. Adding nitrogen or heating the cylinder would make the problem worse. Purging air and keeping fittings tight are the correct practices.

27. An EPA-approved testing organization that certifies recovery equipment to EPA standards is, for example:
a.OSHA
b.DOT
c.Underwriters Laboratories (UL)
d.The National Weather Service

Recovery and recycling equipment is certified to EPA performance standards by approved laboratories such as Underwriters Laboratories (UL) or ETL. OSHA covers workplace safety and DOT covers cylinder transport, but neither certifies recovery-equipment performance. Look for the certification label when buying equipment.

40 CFR §82.158
28. The two common DOT specifications for refillable refrigerant recovery cylinders are:
a.DOT-39 and DOT-3E
b.DOT-2P and DOT-2Q
c.DOT-4L and DOT-8
d.DOT-4BA and DOT-4BW

Refillable recovery cylinders are typically built to DOT-4BA or DOT-4BW specifications, which are rated for repeated filling and periodic hydrostatic testing. DOT-39 is a non-refillable one-trip specification that must never be reused for recovery. Always confirm the cylinder is a refillable recovery type.

29. A technician recovers refrigerant that will be returned to the same owner's system after cleaning. This refrigerant may be:
a.Recycled and reused without reclamation
b.Reclaimed only
c.Vented after use
d.Sold to a new owner without processing

Refrigerant that stays with the same owner may be recycled on-site and returned to that owner's equipment without reclamation. Reclamation to AHRI 700 is required only when refrigerant changes ownership and is resold. Venting is always illegal.

30. When you buy EPA-certified recovery equipment, you must:
a.Register it with the DOT
b.Certify to EPA that you have acquired the equipment
c.Paint it gray and yellow
d.Have it tested annually by a lab

A technician or company that acquires certified recovery equipment must certify to EPA that they have the equipment and will use it properly. Registration with DOT and gray-yellow paint apply to cylinders, not the machine, and there is no annual lab retest requirement. This self-certification is part of Section 608 compliance.

31. Using recovery equipment made after November 15, 1993, an HCFC-22 appliance containing 200 pounds or more of refrigerant must be evacuated to:
a.0 inches Hg vacuum
b.4 inches Hg vacuum
c.10 inches Hg vacuum
d.25 mm Hg absolute

With post-1993 equipment, an HCFC-22 appliance of 200 pounds or more must be evacuated to 10 inches of mercury vacuum, while one under 200 pounds needs only 0 in Hg. The 25 mm Hg absolute level is for low-pressure appliances. Matching refrigerant, size, and equipment age to the number is a common exam task.

40 CFR §82.156
32. Why is identifying the refrigerant before recovery especially important today?
a.Because all refrigerants are now identical
b.Because it lowers recovery pressure
c.Because it changes the cylinder color
d.Because contaminated or mixed charges can ruin equipment and cannot be reclaimed

With many refrigerants in the field and counterfeit or mixed charges circulating, identifying refrigerant first protects your recovery machine and cylinder from contamination and preserves the refrigerant's value for reclamation. A mixed batch usually cannot be reclaimed and must be destroyed. A refrigerant identifier is a small investment against a costly mistake.

33. Which sequence correctly lists the three processes from least to most thorough?
a.Recover, recycle, reclaim
b.Reclaim, recycle, recover
c.Recycle, recover, reclaim
d.Reclaim, recover, recycle

From least to most thorough, the order is recover (remove and store), recycle (clean for reuse), and reclaim (restore to new-product purity verified by chemical analysis). Recovery does the least processing and reclamation the most. Remembering this progression makes the definitions easy to keep straight.

34. Storing a filled recovery cylinder in a hot vehicle trunk in summer is dangerous mainly because:
a.The refrigerant will lose purity
b.Rising temperature raises cylinder pressure and can lead to rupture
c.The color will fade
d.The valve will corrode

Heat raises the pressure inside a cylinder, and an overfilled or very hot cylinder can rupture, which is why cylinders must stay below 125°F and be filled to no more than 80 percent. Store cylinders cool, upright, and secured. A hot trunk can push a marginal cylinder past its safe limit.

40 CFR §82.154
35. A refrigerant recovered from an appliance still contains oil, moisture, and acid. To make it usable again on-site, the technician would:
a.Reclaim it in a lab
b.Vent and replace it
c.Recycle it through an oil separator and filter-driers
d.Do nothing; it is ready to use

Recycling equipment with an oil separator and filter-driers reduces oil, moisture, and acidity so recovered refrigerant can be reused on-site with the same owner. Reclamation to AHRI 700 requires a certified reclaimer and is needed for resale. Venting is never allowed.

36. Using recovery equipment made after November 15, 1993, an appliance using CFC-12 and holding less than 200 pounds must be evacuated to:
a.0 inches Hg vacuum
b.4 inches Hg vacuum
c.15 inches Hg vacuum
d.10 inches Hg vacuum

For other high-pressure refrigerants such as CFC-12, post-1993 equipment must evacuate an appliance under 200 pounds to 10 inches of mercury vacuum, and 200 pounds or more to 15 in Hg. HCFC-22 has its own lower numbers, and 25 mm Hg absolute is for low-pressure. Memorizing the table by refrigerant and size is essential.

40 CFR §82.156
37. The primary reason recovery cylinders are color-coded gray with a yellow top is to:
a.Distinguish recovered refrigerant from virgin refrigerant containers
b.Show the cylinder is empty
c.Indicate the refrigerant is flammable
d.Mark the cylinder for disposal

The gray body and yellow shoulder identify a container as a recovery cylinder holding used or mixed refrigerant, keeping it visually separate from color-coded virgin refrigerant containers. This reduces the chance of accidentally charging a system with contaminated refrigerant. The color does not indicate empty, flammable, or disposal status.

38. Recovering refrigerant to the required evacuation level is required before a technician may:
a.Add refrigerant to a working system
b.Open an appliance for major repair or dispose of it
c.Read the gauges
d.Certify recovery equipment

Section 608 requires recovering refrigerant to the applicable evacuation level before opening an appliance for major service that breaches the sealed system or before disposal. Simply adding refrigerant or reading gauges does not trigger the requirement. The evacuation level depends on the appliance type and recovery-equipment age.

40 CFR §82.156
39. A technician should retain proof of certification and, where applicable, recovery and servicing records because:
a.It is optional paperwork
b.It sets the refrigerant price
c.EPA inspectors may request them to verify compliance
d.It replaces the need for certified equipment

Keeping proof of technician certification, equipment certification, and servicing or refrigerant-addition records lets you demonstrate compliance if an EPA inspector asks. Recordkeeping does not set prices or replace the requirement for certified equipment. Complete, honest records are a technician's best protection during an inspection.

40 CFR §82.166
40. Which statement best distinguishes recovery, recycling, and reclamation?
a.All three verify purity by chemical analysis
b.All three require a certified reclaimer
c.All three may be done by anyone
d.Recovery removes and stores, recycling cleans for reuse, and only reclamation verifies AHRI 700 purity by chemical analysis

Recovery merely removes and stores refrigerant; recycling cleans it of oil, moisture, and acid for reuse without a purity test; and reclamation reprocesses it to AHRI 700 purity verified by chemical analysis, and only a certified reclaimer may do it. This layered definition is among the most frequently tested facts on the exam.

40 CFR §82.152

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PrepPass 编辑团队 · 依据官方资料核对 Clean Air Act §608 / 40 CFR Part 82 · 我们如何核对

EPA Section 608 Technician Certification Exam (Core, Type I, Type II, Type III / Universal) 考什么?

EPA Section 608 Technician Certification Exam (Core, Type I, Type II, Type III / Universal) 由 Administered by EPA-approved certifying organizations (e.g., ESCO Institute, Mainstream Engineering, HVAC Excellence) under U.S. EPA oversight 主办。下面的主题权重直接来自官方考试大纲——请优先学习占比最高的主题。

考试题量
Core plus each Type has 25 multiple-choice questions; Universal requires all four sections (100 questions total)
及格分
70%

考试大纲(按权重)

  • 25%
    Core (Universal)
  • 15%
    Regulations & Safety
  • 15%
    Type I — Small Appliances
  • 15%
    Type II — High-Pressure
  • 15%
    Type III — Low-Pressure
  • 15%
    Recovery & Recycling

这门考试有多难?

中等难度。EPA 608 分科目考——Core 加 Type I/II/III,每科 25 题,闭卷监考,70%(25 题对 18)过。Core 偏概念(臭氧、法规),Type 各科考制冷剂实操。

推荐学习时间
10-25 小时;Universal(四科全考)复习量最大。
首次通过率(估计)
Core 和 Type I 容易过,Type II 挂科率最高,难的科目预计 1-2 次。
重点学习方向
Core 法规(臭氧、清洁空气法、回收)+ Type II 高压回收/抽真空——最常重考的科目。

常见问题

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.

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