1. RECOVERED and RECYCLED ODS Sh.Enkhamgalan (Ph.D) MUST. (HCFC) ХӨРГӨХ БОДИСЫН МЕНЕЖМЕНТИЙН ХӨТӨЛБӨРИЙГ МОНГОЛ УЛСАД ХЭРЭГЖИЛТИЙН ЭХЛЭЛИЙН УУЗАЛТЫН ХӨТӨЛБӨР УЛААНБААТАР 2012.06.25

2.  A key element of the responsible use and stewardship of fluorocarbon refrigerants is the recovery, recycling and reclamation of used refrigerants so that they can be reprocessed for further commercial use or destroyed. HCFC can be recovered, recycled and reclaimed from many applications, including mobile air conditioning, stationary air conditioning and refrigeration. Responsible Use Principles for Refrigerant Recovery, Recycling and Reclamation

3. There are many environmental and economic benefits gained from recovery, recycling and reclamation efforts worldwide. The major benefits include: Minimized atmospheric emissions and reduced environmental impact; Expanded market opportunity for used refrigerant; Reduced environmental compliance costs; Reduced need for new refrigerant; and Increased lifetime of refrigeration equipment due to contaminant removal; Benefits from recovery, recycling and reclamation efforts

4. Refrigerant RECOVERY involves the removal of a refrigerant from a system and the placement of that refrigerant into a container. The recovery process: Is conducted whenever technicians need to open or dispose of air conditioning or refrigeration equipment. Includes removal of refrigerant vapor (heels) to established evacuation levels to maximize the amount of refrigerant captured and minimize releases. Examples of recovery/recycling machine design safety are included in Underwriters Laboratories (UL) 1963, and performance specifications are included in Air Conditioning and Refrigeration Institute (ARI) 740. Involves service technicians, equipment operators, appliance disposal facilities, equipment and refrigerant manufacturers. The following describes the specific differences between refrigerant recovery, recycling and reclamation

5. Refrigerant RECYCLING involves processing used refrigerants to reduce contaminants, then reusing the refrigerant in the same system or returning the refrigerant to the system. Recycling is permitted only when recharging to the same owner's equipment. Recycling involves reducing the levels of contaminants prior to reuse. Contaminants can result in early system failure. Contaminants include oil, moisture, acid, chlorides, particulates, and non-condensable gases. The Industry Recycling Guide (IRG-2) published by ARI describes maximum recommended levels of impurities for recycled refrigerants. International Organization for Standards (ISO) 11650, Society of Automotive Engineers (SAE) J1990 or ARI 740 standards may be used to measure recovery recycling equipment performance RECYCLING

6. Refrigerant RECLAMATION involves purifying used refrigerant to meet industry product specifications for newly manufactured refrigerant. Reclamation requires initial chemical (laboratory) analysis of the used refrigerant in order to identify bad or mixed refrigerants which could result in equipment damage or leakage. Chemical analysis also is required to verify specification values to meet or exceed product standards. (e.g. ISO 12810, ARI 700). Reclamation may include filtering, separation, distillation, dilution, or reformulation of the recovered refrigerant. Reclamation requires final chemical analysis to verify that processed refrigerant meets or exceeds product specifications for newly manufactured refrigerant. RECLAMATION

7. Reclamation is recommended when used refrigerants will be charged into equipment other than the equipment it was removed from, and required if charged into equipment owned by a different company. The U.S. Environmental Protection Agency (EPA) requires that reclaimed refrigerant must attain and be tested to verify that it has attained ARI 700 or ISO 12810, or equivalent specification prior to resale. Reclamation facilities and processes should be designed to minimize emissions. Non-reclaimable refrigerants must be disposed of in an environmentally acceptable manner, and in accordance with applicable regulations. Reclamation facilities in the U.S. are required to be certified by the U.S. EPA. RECLAMATION

8. Specific Recovery, Recycling and Reclamation options and methods depend on the application and refrigeration equipment size. Recovery and recycling of refrigerants used in mobile air conditioning normally occurs in licensed vehicle maintenance facilities where the used refrigerant is removed and replaced with a recycled product. For stationary air conditioning systems or small refrigeration equipment, HVAC professionals can remove and recover used refrigerants, which can then be shipped to a reclamation facility. For large refrigeration equipment, used refrigerant can be recovered by an HVAC professional and either reclaimed or recycled onsite for reuse or shipped to a reclamation facility. Regardless of which method is used, all personnel must be properly trained to handle refrigerants.

9. Choice of recovery, recycling equipment

10. Safety Recommendations Figure 2. This picture shows a hand affected by contact with liquid refrigerant. Special care should be taken:  The transfer of any kind of refrigerants into storage and recycling cylinders is a dangerous practice. For this reason we always have to work according to strict safety regulations. Read carefully refrigerant manufacturer`s safety advices for the handling of refrigerants. Think before acting!  Pressured and liquified gas may quickly create dangerous situations. Through improper use, liquid gas can cause severe injury to skin, eyes and respiratory tracts.

11.  There is always a strict smoking ban in all work areas. Work areas must be ventilated if re-  frigerant is present. Refrigerants are heavier than air and reduce the content of oxygen in the air. Refrigerants are not visible and do not smell. Breathing refrigerants may not be noticed and lead to a blackout and/or death.  The touch of voltage-carrying operating supplies causes life threatening situations. Safety Recommendations

12.  Not to overfill the refrigerant cylinder.  Not to exceed the working pressure of each cylinder. Check stamping on cylinder!  Safety codes recommend that closed tanks are not be filled over 80% of volume with liquid.  Never transport an overfilled cylinder.  Not to mix grades of refrigerant or put one grade in a cylinder labeled for another.  To use only clean cylinders, free from contamination by oil, acid, moisture, etc.  To visually check each cylinder before use and make sure all cylinders are regularly pressure tested.  Recovery cylinders have a specific indication depending on the country (yellow mark in US, special green colour in France) in order not to be confused with  refrigerant container.  Not to store a filled cylinder at a high ambient temperature and exposed to the sun. Special care should be taken:

13. Cylinders of refrigerant Figure 3: Examples of bursted cylinders Figure 4: Cylinder with separate liquid and gas valves

14. Thank you for attention