Understanding Scaling in Heat Exchangers: Causes, Impacts, and effective control strategies.
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- Опубліковано 15 вер 2024
- Welcome to our channel Alchemist today we will understand in-depth about scaling in heat exchangers and how to effectively control it! In this video, we will explore:
- What is Scaling? Discover how minerals like calcium and magnesium precipitate from water and deposit on heat transfer surfaces, leading to reduced efficiency and increased operational costs.
- Types of Chemical Additives: Learn about various antiscalants, including phosphonates, polyacrylates, and polymaleates, that prevent scale formation by inhibiting crystal growth and dispersing fine particles.
- Sequestering Agents: We’ll dive into agents like Sodium Hexametaphosphate (SHMP), EDTA, and Citric Acid, which bind with metal ions to keep them in solution and prevent scaling.
- Chelating Agents: Understand how Nitrilotriacetic Acid (NTA), aminopolycarboxylates, and gluconates effectively bind metal ions, ensuring they remain soluble and do not form scale.
- Effective Control Strategies: We’ll guide you on selecting the right combination of these chemical additives based on your system’s specific needs, ensuring long-term efficiency and reducing maintenance costs.
Join us to master the science behind scaling and learn practical solutions to keep your heat exchangers running smoothly and efficiently! Don’t forget to like, subscribe, and hit the bell icon for more insightful content on industrial process optimization.
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