In the subject of water treatment, membrane filtration is a fast-growing area. Filtration membranes, which are used to separate dissolved substances (solutes), colloids, or tiny particles from solutions, are essentially microporous barriers made of polymeric, ceramic, or metallic materials. Numerous types of filters come in a variety of pore sizes and designs. Furthermore, membrane filtration has a wide range of potential uses, from the removal of relatively big particulate matter to the removal of dissolved chemicals.
See also: What is a slow sand filter?
Filtration membranes: What are they?
A membrane is a very thin material layer that only permits specific substances to pass through it. The size, chemical composition, and properties of the membrane, as well as the substance being filtered, decide which material will pass through the membrane.
Source: Pinterest
Filtration membranes: Classification
Based on the mean pore size of the membranes, four categories for pressure-driven membrane processes are typically defined:
- Hyperfiltration (HF) or reverse osmosis (RO), which often separates substances smaller than 0.001 m in size, such as the separation of monovalent ions from water, is used to desalinate saltwater and brackish water.
- Larger size molecules like sugars and divalent salts are separated via nanofiltration (NF), which lets monovalent salts pass through while separating the larger molecules.
- Ultrafiltration (UF), a technique for separating substances with a diameter between 0.001 and 0.1 m, such as proteins or colloids.
- Microfiltration (MF), which removes insoluble particulate matter (microbes) with sizes ranging from 0.1 to 10.0 m, is used to sterilise water.
Filtration membranes: What are they made of?
Materials of various sorts are used to create membranes. They’re frequently called thin-film composite membranes when used in reverse osmosis. Previously, the membrane for reverse osmosis was constructed from cellulose triacetate or CTA. CTA membrane sales have ended. They have a low pH tolerance because they were the initial generation of RO membranes. Per square inch, they didn’t produce much water. Due to the thin-ability film to produce a lot of water in a small amount of space, larger membranes can be fitted into smaller housings. The reverse osmosis membrane design was altered as a result. The substance used by UF has a similar composition but a slightly different formulation.
Filtration membranes: Uses
- One application of membrane filtration is the desalination of salt water to create drinkable water. Even though it is an expensive procedure, it is used in places with few freshwater resources.
- Membranes with the biggest pore diameters can be used to filter surface or groundwater that is directly influenced by surface water.
- Other uses, such as softening or the filtration of dissolved pollutants, need tighter membranes (those with smaller hole sizes).
- Membranes can be used for a wide range of filtration applications, most of which have nothing to do with the creation of drinkable water. For instance, they are applied in industry to create high-purity process water or to clean waste streams before disposal. Additionally, membranes are used in wastewater treatment.
- Membranes are used to filter out unwanted elements from water. Very tight membranes are needed if these ingredients are dissolved in the water; if they are particulate, a looser membrane would be more suited.
- Microbiological pollutants are eliminated using membrane filters.
- Inorganic contaminants can be removed in both dissolved and particle forms using membrane filters. The degree of tightness needed to remove the substance will depend on its composition.
- Organic chemicals are removed via membrane filters.
- Due to the increased fouling potential of surface water, treating surface water via membrane filtration is typically more challenging than treating highly organic groundwater.
Principles of membrane filtration
- The mechanical filtration method of membrane filtration is the closest to providing an impenetrable barrier to the passage of particle matter of any technology now used in water treatment. The idea of osmosis must be explored to comprehend the idea of membrane treatment.
- The tendency of clean water to dilute unclean water when they are placed across a porous membrane is known as osmosis, and it is a naturally occurring phenomenon.
- When the membrane is clean, the concentration of the constituents in the water on the filthy side will eventually match the concentration of the constituents on the clean side.
- Osmotic pressure, which is what drives the osmosis process, is the pressure produced by the disparity in constituent concentration on each side of the membrane.
- Osmotic pressure drives the flow of fresh water to the impure side.
- The flow ceases as soon as the concentration of the constituents on either side of the membrane reaches equilibrium (when the concentration is the same on both sides of the membrane). At this point, the osmotic pressure is zero.
- Since the purpose of treatment is to create fresh water rather than mix filthy water with fresh water, osmosis is undesirable from a water treatment perspective.
- The procedure known as reverse osmosis (RO) involves pushing water from the dirty side of the membrane into the clean side while leaving the unwanted components on the membrane itself.
- Fresh water can be created from raw water by oppositely working the system from how it normally works.
- Unwanted substances will accumulate on the membrane’s surface and eventually clog it.
- If a membrane system is to be effective, this substance must be able to be removed from both the membrane and the system as a whole.
FAQs
How do you flush a filtration membrane?
A UF membrane uses a flow-through membrane technology rather than a separation membrane. Simply remove the air from the ultrafiltration membrane during production to flush it upon startup. Because reverse osmosis membranes are often constructed and then dried, flushing the system before startup will assist it in re-saturate. Before employing a POU system, fill two or three tanks with water and let them run into the drain.
How does a filtration membrane work?
A physical separation technique known as membrane filtration allows for the separation of molecules of various shapes and sizes. Membrane filters serve as a barrier to keep impurities out of the water or remove polluting particles. A membrane is used in each of the three types of filtration: reverse osmosis, ultrafiltration, and nanofiltration.
| Got any questions or point of view on our article? We would love to hear from you.
Write to our Editor-in-Chief Jhumur Ghosh at jhumur.ghosh1@housing.com |
Housing News Desk is the news desk of leading online real estate portal, Housing.com. Housing News Desk focuses on a variety of topics such as real estate laws, taxes, current news, property trends, home loans, rentals, décor, green homes, home improvement, etc. The main objective of the news desk, is to cover the real estate sector from the perspective of providing information that is useful to the end-user.
Facebook: https://www.facebook.com/housing.com/
Twitter: https://twitter.com/Housing
Email: editor@housing.com
