Selecting the Evaporators Based On Processing Requirements Pharmaceuticals, pulp and paper, foods and drinks, polymers and resins, chemicals, inorganic salts, acids and bases, and a variety of other materials are all processed using evaporators. Evaporators technology come in a variety of shapes and sizes, and the optimal one out of them is determined by the product's qualities and intended outcomes. Evaporation is a technique for concentrating a solution containing a nonvolatile solute and a volatile solvent, which is usually water. To create a concentrated solution, slurry, or thick, viscous liquid, a portion of the solvent is vaporised. The difference between evaporation and drying is that the residue is a liquid rather than a solid. Evaporation differs from distillation in that the vapours are not separated into their constituent parts. It's possible that the desired product is the vapour, concentrate stream, or both. As a result, the evaporator should be constructed to separate the vapours from the condensate and feed in a clean and efficient manner.
A heat exchanger or heated bath, valves, manifolds, controls, pumps, and a condenser are all components of an evaporator. Jacketed tanks, tubular heat exchangers, plate-andframe heat exchangers, and agitated thin-film evaporators are among the most commonly used designs. At least, a well-designed evaporator must:
Be cost-effective for installation, operations, and maintenance, it must be designed to efficiently transmit heat at a high rate with a small surface area Separate the vapour from the liquid concentrate with ease Meet the requirements of the product being processed Produce a product that satisfies the quality requirements