Therefore the ODL may be adjusted to matchĪpplication specific altitudes. Or ODL above 1500m altitude as determined from ASHRAE Standard 34-13. Space presented in CSA B52-13 for A1 and B1 refrigerants are based on the lesser of two values, RCL at sea level Which is now incorporated in note 5) of Table 1 in CSA B52-2018 : “The maximum refrigerant quantities per occupied As stated in the Safety Bulletin for B52 published by CSA in 2013, I believe the information given in this post is incorrect. In the case of R410a, the allowance in ASHRAE is higher than the CSA standard. However, Note 2 identifies a similar table in ASHRAE Standard 34, which takes precedence over the CSA standard. NOTE: Table 1 in CAN/CSA B52-2018 provides guidance on the max refrigerant charge. This would include the celing plenum in a non-ducted return application as well as any spaces interconnected by transfer openings, etc.
The volume is calculated based on the smallest confined space that refrigerant could discharge into in the event of a rupture. Applying the code for different occupancy classifications, the maximum refrigerant capacity in any system is defined as follows: Occupancy Classification It should also be noted that all VRF systems currently available in North America use R410a refrigerant. VRF systems are classified as: direct with a high probability of leakage. The first order of business is to define the type of system we are dealing with. In this post, I want to specifically address the quantity of refrigerant allowed in any given system. This code outlines all of the safety requirements that must be met in order for a refrigeration system to be approved for installation.
In Ontario, the code of reference is CAN/CSA B52 – Mechancial Refrigeration Code. While variable refrigerant flow (VRF) systems offer great flexibility in your designs and can provide outstanding energy savings, there are some code requirements that must be considered.
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