As per a Bulletin issued by the Liquefied Petroleum Gas Safety Association of Southern Africa (LPGSASA) and further legislated by the Department of Employment and Labour, Cam-and-Groove type Couplings are no longer permitted for use in gas tanker applications and should be replaced with a suitable Dry Break Coupling System. The industry has until 30 September 2020 to conform.
Several incidents involving Cam-and-Groove type couplings have driven this change placing the onus on all industry players to address the risks associated with the use of this type of end-fitting and make the legislated changes.
The Dry Break Coupling System will ensure that your fleet is not only legal and compliant to international standards but will ensure the safety of your Staff, your Assets and the Environment. Whilst the shift comes at a cost, increased productivity provides a short payback and an attractive return on investment.
Jachris, Africa’s largest supplier of Hose and Couplings, has a range of products to assist you in this regard which includes but is not limited to Dry-Break Couplings (Hose and Tank Units), Tank Unit Pressure Caps and LPG Suction & Delivery Hose.
Jachris proposes the use of a 3-inch coupling with a 2-inch flange to meet the new South Africa National Standard 1518, which is in line with international LPG safety standards. The new regulations were promulgated at the end of March providing a deadline of 1 October for all South African refineries to only fill LPG tankers fitted with new Dry Break Couplings. This means that industry must change its LPG equipment and coupling components over the next few months as refineries will no longer fill any that are still using Cam-and-Groove couplings.
The LPG industry took a positive decision on the sizing of the Dry Break Couplers. The current Cam-and-Groove systems are all 2-inch while the international standard changed to 3-inch for liquid filling and 2-inches for vapour. The majority of the LPG tankers in South Africa are fitted with 2-inch valves and piping, and changing the liquid filling to 3-inch is a potential challenge. Jachris, in partnership with their supplier Manntek of Sweden, designed a suitable 3-inch tanker unit complete with a 2-inch flange to suit the existing tanker valve flanges, resolving most of the technical challenges for the tanker owners by avoiding a complete system rebuild.
The reasons for the change include that Cam-and-Groove couplers are not safe in LPG applications and have resulted in fatalities in South Africa. LPG filling takes place at approximately 25 bar of pressure and when strict operational procedures are not followed, Cam-and-Groove couplers can be potentially fatal. A coupling under pressure that comes loose due to poor clamping/crimping, failure to follow the required operational procedures or unplanned disengagement between tanker and port can cause serious injury or even death to the operator. Furthermore, Cam-and-Groove couplers also lead to excess spillage compared to the Dry Break Couplers and can contribute to the loss of thousands of Rand worth of LPG per tanker per year.
Dry Break Couplings are used to prevent excess spillage. They protect people and property from dangerous and costly exposure by keeping hazardous liquids and vapours in-line and out of the environment. Dry Break Couplings are used at liquid or vapour transfer points where you do not want product loss. Using Dry Break Couplings will reduce the hazards typically found when handling or processing LPG. These couplers also allow spill-free handling for loading and unloading tank trucks, rail tankers and tank containers. This minimisation of spillage and product loss keeps the environment free from hazardous vapours and liquids.
Preliminary investigations have revealed that in South Africa and surrounding Southern African Development Community (SADC) countries, there are approximately 300 tankers that must be converted. Most South African tankers are built with 2-inch piping systems on the trucks with corresponding 2-inch safety valves. The major concern associated with changing to 3-inch liquid filling was that some serious size adaptors would be required from 2-inch to 3-inch to make the change possible, adding complexity and cost. Fortunately, the valve and pipes will not be required to change as the size change does not make it incompatible. Certain flow restrictions would occur, but it would only nominally reduce the full potential of a 3-inch line. Most tankers would require a minimum of one 3-inch liquid fill tanker unit and one 2-inch vapour tanker unit. A full 3-inch pipeline and valve system would provide a time filling advantage. The new tankers that will be built in South Africa or imported will be built according to new size and standards.
At refinery level, the filling stations or bays would have to potentially be supplied with new hose assemblies fitted with female hose Dry Break Couplers, but we anticipate that these will already be in place by now. Fortunately, there are far fewer filling points in a refinery that would require new hose assemblies than there are tankers requiring new coupling systems.
There should be no barriers to installing the new couplers. While the initial capital outlay could be perceived as high, data proves that the efficiency gains outweigh the cost of conversion significantly with a noticeably short payback period. This is before one even considers the improved safety and environmental conditions created by the legislated change.
The Dry Break Coupling Systems are generally usable across different gas or fluid types with the exception of a seal kit change. Coupling Systems can often be colour-coded or keyed specifically to avoid the mismatching of hose/couplings for their respective media.
Please make contact with us via email@example.com and we’ll help ensure that your tankers and depots conform.