Techniques to repair Ro Purifier Machine
Techniques to repair Ro Plant
|Troubleshooting Guides – Reverse Osmosis Chemicals International have compiled a series of troubleshooting guides for the operation of reverse osmosis plant systems. Each article deals with some of the more common problems and failures associated with the operation of reverse osmosis systems. Subjects covered include common failures to reverse osmosis systems, replacement of RO membrane elements, O-ring replacement, probing, profiling an RO array and shimming. To review a guide please select the required document link.|
Review the most common failures affecting reverse osmosis systems, their effects and recommended monitoring practices. Issues covered include failure of scale inhibitors, ineffective sanitization, excess iron content, high organic content, overdosing of coagulants, acid dosing
Movement of the spiral wound reverse osmosis membrane elements within their pressure vessel can commonly cause abrasion and failure of the O-Rings that seal the inter-connector to the element permeate tube. A sudden increase in permeate conductivity, not accompanied with a noticeable increase in permeate flow rate could indicate
Data probing is a technique used to help identify problems affecting reverse osmosis systems. Once profiling has isolated a salt rejection problem to a particular pressure vessel, or set of vessels, probing can be used to further isolate the problem. Probing involves inserting flexible tubing through one of the vessel permeate connections as a means of diverting the permeate from a specific area within the elements.
Profiling an array
When problems arise with a reverse osmosis system, the ability to isolate the problem to a particular location within the system provides valuable information as to the precise nature of the problem. This will help to determine the remedial action which may include cleaning, O-ring replacement
It is normal to have some movement of the RO membrane elements within their pressure vessel housings. This occurs because the pressure drop across the elements can cause them to compress. Fouling or high flow rates can also result in significant movement, mostly when the reverse osmosis system starts-up.
Youtube video tutorial – link