MULTI EFFECT EVAPORATORS

MEE

Evaporation is the process used to concentrate a solution by separating the water in purified from by the application of heat. Multi Effect Evaporator is defined as an apparatus for efficiently using the heat from steam to evaporate water. In a multiple-effect evaporator, water is heated in a sequence of vessels, each held at a lower pressure than the last.
Multi effect evaporator is the most efficient and successful conventional evaporation method to achieve a complete zero-liquid discharge for any type of industrial effluent.

Prior to start evaporation process first cooling water circulation is started and generation of appropriate vacuum is being maintain by the vacuum pump, the purpose of the vacuum is to lower down the boiling point of the solution Through feed pump the feed from the feed tank enters into the shell and tube heat exchanger called calandria by passing through the preheater.
Preheaters are used to exchange the sensible heat of condensate water generated during evaporation process to increase the initial temperature of the incoming feed, simultaneously decreasing the temperature of the condensate water which leads to decrease in the total energy requirement for the entire system From the preheater effluent goes to the recirculation line of calandria-1 and enter into tubes of the bottom part of the calandria by the force provided by recirculation pump. Feed passes through shell and tube heat exchanger in the tubes. To start the evaporation process external steam is being provided to the shell side of the calandria for heating of the tubes.
Due to conductive heat transfer, steam passes its latent heat to effluent and evaporation of water from the effluent takes place. A water-vapor mixture is being generated which goes to Vapor-Liquid Separator called VLS. In VLS, vapor is separated from water vapor mixture by means of gravity. While the concentrated liquid is recirculated in the calandria by a recirculation pump. Now the pure water vapor from VLS is either condensed in condenser or will be used as a heating medium in subsequent effect.

This is the simple process of Single effect which uses 1 kg of steam to evaporate the 1 kg of water. To increase steam economy, we can add 2nd effect, 3rd effect and up to 5 effect and so on. The vapor of the 1st effect is used as a Heating Source for the 2nd effect and so on up to designed effect. thus, similarly vapor form the initial effect used as a heating medium for the further effect. Thus, there is no steam required in individual effect except for the 1st effect. To maintain the proper flow of vapor, as we move further in the effects temperature and pressure are in decreasing manner.


ADVANTAGES

• Maximize the steam economy.
• This is ideal for concentration of high viscous material and products with higher solids.
• Reduce energy requirement to run Zero Liquid Discharge system.
• Provision of High Heat Transfer area.
• Sustainable and Successful Conventional method for ZLD.


APPLICATIONS

1. Zero Liquid Discharge
2. Evaporative crystallization of brine (NaCl)
3. Effluent concentration with High suspended solid
4. Fruits Pulp Concentration
5. Tomato Paste manufacturing
6. Sodium Sulphate Crystallization
7. Waste water treatment
8. Salt recovery
9. Product concentration






INSTALLATIONS

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