Molecular Sieve 3A Ethanol for Drying

 Molecular sieve 3a is an alkali metal alumina-silicate. It is of type 3A that means it is the potassium form of the type a crystal structure; it contains the effective pore opening of about 3 angstroms (0.3nm). This opening is large enough to allow the moisture inside it, but excludes molecules such as unsaturated hydrocarbons (unsaturated hydrocarbons can potentially form polymers) and this maximizes lifetime when dehydrating such molecules.

These molecular sieves are typically zeolite compounds, these compounds effectively adsorb water and have carefully controlled pore sizes. Both the solvent and the water will adsorb strongly to the molecular sieve surfaces. Smaller water molecules get access to the large surface area within the pores, so that they are successfully removed from the solvent. We can see from the table mentioned below that the water (1.93A) will enter the 3A pore size while acetone (3.08A) will mostly be excluded. Water will occupy the large surface area inside the pores and therefore be removed.  But if the solvent also enter the pores, it would struggle with water for the surface area and the removal of water becomes impossible. So Type 3A molecular sieve is effectively suitable for drying ethanol, methanol, or acetone. But type 4A sieve can fail to do the same since the pore size does not exclude these solvents.

Molecular Sieve 5a Desiccant use to remove Natural Gas

There are various types of desiccant used nowadays. It depends on the requirement and the situation that which type of desiccant has to be used. Among all the most popular type of desiccant is silica gel then come Molecular sieves. It is not possible to use the best desiccant all the times. It depends on the situation that which desiccant suites the best. 

Taking more about their structure they are mostly manufactured in A and X type crystalline structure. Molecular sieve for water removal can be the best application for which this desiccant can be used. One difference between these molecular sieves and silica gel is that silica gel is an indicating type desiccant but at the same time molecular sieves are differentiated on the basis of its molecular size that is 3A, 4A, 5A and 13X. Bigger the molecular size will be better will be its absorption capacity. Also, it cannot absorb those elements bigger than the size of these molecular sieves size. Many of the industrialists use only this desiccant but if required you can also use this desiccant in combination with other desiccant like activated carbon so that you can get rid of moisture and odor all at the same time.

Molecular Sieve 3A best use for Water Removal

When it comes at preserving their precious products, industrialists want to use the best method to get rid of such problem which can cause a major damage to them. Among the problems, moisture problem is the major one. Even a drop of moisture droplet can become a reason enough to demolish huge machinery. So, in order to get rid of moisture, effective moisture controlling technique is used that is desiccant. These desiccants absorb moisture and lock them inside and help to make the environment moisture free.

Considering molecular sieves desiccant exclusively it is used in various industries like oil and gas, petrochemicals, sugar and air Industries as well. In these industries they are used to perform various purposes like removal of water from various places and moisture removal as well. It is also used for drying natural as well as industrial gas drying. So basically we can say these desiccants are best for the protection against moisture and water. Although the manufacturers can give various different shape to the desiccant but they only choose to give beads and pellets shape because in this form the surface area for absorption increases. So, it can not only make the environment dry quickly but locks them inside.

Molecular Sieves for Ethanol Dehydration

Before understanding the process of ethanol drying with the help of molecular sieves it is important to understand what is a molecular sieve. It is that material which is used for absorption and has selective properties. These properties are important for the purpose of separating different mixture. It depends on the type of mixture that which size and shape of molecular sieves has to be used. Molecular sieves can be used in any form that is in pelleted, beaded or in powdered form. Molecular sieves are a result of the composition of three dimensional material that is micro porous material, macro porous material and meso porous material. A single bead of molecular sieves is made with the blend of all the three. Molecular sieves are used as absorbents for various other industrial applications. According to the requirement and size molecular sieves are of various types that is 13x, 3A, 4A and 5A. So, now with the help of these efficient absorbents it is now possible to extract moisture from oils to gasses. This is the most reliable source of moisture absorbent in oil and electronic industry.

Dehydration of Ethanol Using Molecular Sieves

For the catalytic reaction crystalline aluminosilicate salts of the molecular sieve family is used. Now let’s we look how molecular sieve will help in the dehydration of the ethanol.

The rectified spirit which is produced in the rectifier is superheated with steam in feed super- heater. After following this stage the super heated rectified spirit from the feed super heater is passes to one of the pair of molecular sieve bed for many times. Later by time the superheated rectified spirit vapor is poured or moved to another pair of bed. The loaded bed is regenerated by using a small portion of the anhydrous ethanol vapor leaving the fresh adsorption bed. Following this process a moderate vacuum pump operating after the condensation of the regenerated ethanol water mixture. The condensate is then transferred from recycle drum to the rectified column in the hydrous distillation plant by recycle pump. The remaining anhydrous absolute alcohol draw is again condensed in product condenser and passed to product storage.one of the main advantage of using this process is it cost less and also normally the molecular sieve has a life span of around five to seven years. While comparing azeotropic distillation this process cost very low.

Different properties of Molecular Sieves!

People usually confuse silica gel beads with molecular sieves. Molecular sieves have absolutely different properties as that of silica gel. These small opaque pinkish colored beads are synthetically produced. They are highly porous crystalline beads which are made up of metal alumina silicate. Depending on the name of the variant, they have internal cavities of different size. The cavities are linked by window openings of different diameters. The diameters are measured in Angstroms or A. Absorption occurs only to those substances which have molecular size smaller than the window openings of these desiccants. Substances with larger molecular sizes will be excluded from absorption. This makes molecular sieves ideal for absorption of water and gaseous particles this is because molecules of both water and gas are very small. Molecular sieves helps to absorb contaminants from water as well as gas and reduce the contamination to very low level.

Molecular Sieves are effective to remove moisture from Liquid!

Molecular sieves are excellent desiccants and are very effective in removing moisture from liquid, semi-liquid or gaseous substances. They are said to be even more effective than silica gel or activated alumina. The reason for their popularity is their crystalline composition which helps to create more moisture free products. Molecular sieves prove to be very useful in many cryogenic operations because this process requires gases to be converted into liquid form and in the process even a minute amount of water has to be extracted out in order to avoid freezing. According to the requirement you have different variants bases on its molecular size. As the molecular size increases it gets more surface area to absorb humidity. The variants available are 3A, 4A, 4A indicating molecular sieves, 5A and 13X.