What is the role of ion exchange in condensate polishing?

• A. To filter out solid particles from the feedwater
• B. To remove dissolved solids from the condensate
• C. To stabilize pH levels in the system
• D. To improve thermal conductivity in boiler systems

Answer: (B)

The role of ion exchange in condensate polishing primarily involves removing dissolved solids from the condensate. In a steam generation system, the condensate that returns to the boiler may contain impurities such as dissolved minerals, which can lead to problems like scaling and corrosion if not adequately treated.

Ion exchange processes utilize resin materials that can exchange undesirable ions in the water with more benign ones. For example, cation resins will remove positively charged ions like calcium and magnesium, while anion resins target negatively charged ions like sulfates and chlorides. The effectiveness of ion exchange is essential in ensuring high-quality condensate, which helps maintain boiler efficiency and extends equipment life by preventing scale formation and other potential issues associated with impurities.

Other methods like filtering solid particles do not address dissolved solids, and while controlling pH levels is important, it is not the primary function of ion exchange itself. Similarly, while ion exchange can indirectly relate to thermal conductivity through improved water quality, it does not directly enhance thermal conductivity in boiler systems.