Analytical Review on Membrane Water Filter using Different Materials to Prevent Microbial Activities

Drinking water quality monitoring technologies have made significant progress in monitoring water resources and water treatment plants. This paper discusses the adverse effect of microbial contamination and also gives a brief description of the important parameters for drinking water and the technologies currently available used in this field. This paper is focused on studying the requirement for the development of low-cost filter materials that can be suitable as well as economical to be produced on a large-scale for real applications. There are several parameters such as porosity, contact angle, water flux, thickness, microbial activity needed to be focused on in the future to study the transformation of the hydrophilic property on the surface of the water


INtROductION
Water is an essential component for the survival of an individual as well as daily essential work.To ensure the availability of water for specific purposes such as drinking water, there is a need to meet some conditions such as its availability, accessibility, and treated as well.In the current scenario with the increasing population, there is also an increase in demand for drinking water that must be fit for consuming.But it is also true that with the increasing population there is an increase in pollution level which ultimately also affects the pollution level in the water.The major cause of water contamination or pollution is human activities that result in decreased quality of water.Out of all, human activities such as improper disposal of sewage, failure of the septic system, animal wastes are a major source for water contamination. 1 The discharge of waste material into drinking water not only causes disbalance in nutrient content as well also increases the growth of microbes, such as viruses, bacteria, etc, that can cause various water-borne diseases.From the study of 2012, it is surveyed that about 25% of drinking water is contaminated with fecal or harmful materials which cause the growth of a large number of harmful pathogens. 2Consumption of such contaminated water can cause different severe health issues such as diarrhea, hepatitis, meningitis, encephalitis, polio, etc.According to the World Health Organization (WHO) report issued in 2019, about 844 million people all over the world are underprivileged with drinking water.Out of them, 159 million people are dependent on surface water completely.The contaminated water or polluted water is considered to be a major reason for death.It has been reported that approx.5,02,000 deaths per year all over the world are caused by drinking contaminated water. 3In India, death due to contaminated drinking water has been reported that 6514 deaths over 5 years until 2017.Similarly, due to virus borne diseases such as hepatitis, 2143 people died and became the second most alarming water-borne disease. 4ome of the water-borne diseases are discussed in Table 1.
Hence, it is required to provide provision for safe drinking water as a part of public health protection all over the world.Pretreatment and post-treatment techniques including distillation, treatment with chemical disinfectants, sand filtration, reverse osmosis, and membrane filtration are widely used technologies to purify water.There are many traditional methods to filter water contaminations.It has been observed that many conventional techniques are being used for the filtration and separation of pathogens from water, such as coagulation, deep bed filtration for particle separation, or chlorination.But chlorination is quite inexpensive and takes a long time for operation along with chlorination also causes adverse effects on human health.Further, iodine is used as a substitute for chlorine for purification of drinking water.
One of the simplest methods for water purification is boiling the water before using it for drinking purpose.However, this process consumes more fuels.Then come UV and RO filtration and purification techniques that are gaining popularity nowadays for their efficiency to purify the contaminated water and making it fit for drinking.Ultraviolet (UV) technique destroys the cell structure of pathogens and prevents them to grow.Whereas the reverse osmosis (RO) technique is used across a semi-permeable membrane to separate the contaminants from the drinking water. 5But this technique is quite expensive, so, many researchers focus their work on this The membrane filters, made up of polymers have a low cost but due to lower thermal effect as well as the chemical effect with lower mechanical stability limits its usage as purification filter material.As compared to polymers ceramics provide these advantages as well as also protects from pathogens.The ceramic filter membrane provides lower membrane fouling. 6e membrane filtration process shows an advantage over other methods as it separates pathogens from water.This method can be used with a pretreatment process or without a pretreatment process.The conventional membrane water filtration process was successful for large-sized pathogens such as protozoa, bacteria, etc.But these membrane filters are not capable of removal of viruses as their size is very small, up to 20−100 nm.So, to remove viruses, nano-particle material, the adsorbing surface is  The literature reviews that recent research work that contributes to the adsorption process.In the adsorption process, electrostatic forces are applied. 7Many water-borne diseases are caused by a virus.These viruses are negatively charged and it gets attracted by positively charged adsorption surface of the filter.In this way, contaminated water gets filtered.
This paper focuses on the usage of the membrane filtration method for the removal of microbes that contaminates water.Different membrane separation processes are also discussed with their limitations.In the further section of the paper different adsorption methods for the microbial removal process.In this article, a performance comparison is also discussed for the exploration of future scope.

Contaminants in water and its effects
By accessing odor, color, turbidity, or taste are used to access or to determine the contamination level.This may cause severe health issues.However, sometimes contamination cannot be detected easily.In such a situation there is a requirement of the testing process.Types of contaminants are shown in Figure 1.
C h e m i c a l p a ra m e te rs o f wate r determine its contamination level or contaminant composition.The hardness of water depends on the geographical location.Due to the presence of calcium or magnesium, water becomes hard and it is classified into two types such as carbonates (containing co 3 -ions) or non-carbonates.Generally, a hardness level that is considered to be fit is about 300-400 mg/L but its prolonged usage will cause stone formation in the kidney.Some other inorganic compounds such as fluoride, arsenic, lead, copper, chromium, mercury, antimony, cyanide, etc can also contaminate drinking water.Arsenic contamination is the main cause of water contamination all over the world and also in India. 8Another contamination source is organic compounds such as pesticides, domestic waste, industrial waste, etc.Similarly, the presence of living organisms causes biological contamination in water.The sources of radioactive material can also contaminate water as they emit radiations (like α, β).Each of these can cause distinctive problems in water as discussed in Table 2.

Water decontamination methods
Water decontamination is the removal or reduction of contaminants from water sources by physical, chemical, or other methods.There are many approaches developed that aims to decontaminate or disinfect the public water supplies especially for drinking.Contaminated water is a major source of water-borne diseases and also acts transmission medium of such diseases.Some of the processes and techniques in mitigating the contaminations are discussed below and their advantages and disadvantages are discussed in Table 3.

Precipitation and Coagulation
Precipitation and coagulation is a process to remove unwanted substances from the contaminated or polluted water by adding some reagents, as presented in Figure 2.This is based on 'solubility' rules and is considered to be one of the simplest methods for decontamination.These techniques are used to remove contaminants like phosphorus, fluoride, arsenic, ferrocyanide and heavy metals, etc.

Distillation
In this technique, heat is applied to separate contaminants from water.The concept is based on the difference in boiling points of components of water, as presented in Figure 3.This technology was developed mainly for industrial as well as domestic purposes.This process is not effective for the removal of organic contaminants.As the distillation process is safe but cannot contains any nutrients or minerals.So, such a method cannot be recommended for drinking water filtration.

Adsorption
In this process, a porous surface is provided to separate solid contaminants as they adhere to the surface, as presented in Figure 4.In this method, the adsorbent surface is directly added to the supply of water that combines physical and chemical processes to remove contaminants without altering the taste or mineral content of the water.All micro-porous or nanoporous materials can be used as adsorbent.Some of the porous solids such as activated carbon, activated alumina, silica gel, zeolite, etc can be used as adsorbent as they are porous and contains nano-sized surface pores.

Ion exchange
The ion exchange (as presented in Figure 5) filtration method uses the small polymer matrix having a diameter in millimeter (mm).Its structure is porous and contains gel.The ion exchange technology is based on the attraction of similar ions.Ions present in the water get exchanged with ions present in the polymer matrix.Common methods for the water filtration process are softening as well as deionization.The reduction of hardness level of water is performed by the process of softening which can also be used in the reverse osmosis technique.

Membrane Filtration
Another innovative idea for water filtration is membrane filtration in which a semi-permeable membrane is used for this purpose.Generally, there are two types of water treatment processes i.e. reverse osmosis (RO) and electro-membrane, as presented in Figure 6.Micro-membrane techniques are robust and efficient methods to remove contaminants.In this technique, the pressure-driven separation process is performed that can separate contaminants from water chemically as well as mechanically.

UV Treatment
In the UV filtration process, the ultraviolet (UV) light is allowed to pass through the contaminated/polluted water, as presented in Figure 7. Bypassing UV light through water, it breaks the genetic structure of microbial contaminants present in the water get damaged and, in this way, microbes get killed.But this method is not effective for the treatment of chemicals or other organic/ inorganic contaminants.

Membrane based filtration method
The membrane filtration method is considered to be one of the safer and cleaner as This technology when implemented in industries can be better in respect of cost as compared to conventional water treatment processes.The use of ultrafiltration or microfiltration in place of conventional methods reduced the cost of refinement for the same capacity plant.Technological advancement is shown by the fabrication of thin-film nanocomposite material, metal-organic material, carbon nanotubes.This technologically advanced nano-tube offers 2-3 times higher permeability along with salt rejection than conventional membrane technology, especially for industrial usage. 18,19While designing the cost-effective membrane filters following factors must be considered: The membrane filtration process is mainly affected by the material and structure of the pores as well as its chemical and physical properties also shows impact.Many research works have been incorporated for exploring new membrane materials or design modifications for increasing its performance level.The most commonly used materials for ultrafiltration (UF), microfiltration (MF), or nanofiltration (NF) are synthetic polymers or ceramics.In the table 4 feature comparison is presented which will help in deciding material for the membrane.
Hence, the membrane filtration method shows its supremacy over conventional processes but every technology have some disadvantages.Some of the work contributing membrane technology are discussed in table 5.The preparation material for UF and MF membranes is almost the same but their preparation methods are different which results in different sized pores.As stated earlier these membranes can also be made from inorganic materials such as ceramics or zeolites. 24,25ut due to high operational cost and mechanical fragility, these materials are not much effective for large-scale applications.In the below section some of the research improvements are also discussed.The ceramic membranes exhibit high foulingresistance and chemical stability as compared to current polymeric membranes.Some of the porous ceramics are such as Al 2 O 3 , TiO 2 , ZrO 2 , ZnO, and SiO 2 or their composites.These materials are actively studied due to their widespread applications. 26hese materials also exhibit photocatalytic ability for the decomposition of organic substances/ biological species which reduces unwanted adsorption on the membrane surface. 27Although inorganic membranes are gaining more attention, the majority of membranes are made of polymeric materials as they provide a wide variety of structures and properties.Some of the common organic and inorganic materials are discussed in table 6 with their key features and drawbacks.Water is the source of life and its safety is fundamental.Since WDS systems are complex systems and the quality of drinking water is influenced by many factors, it is difficult to guarantee the safety of drinking water.The current water treatment & distribution system has a lot of drawbacks.Membrane filtration is considered to be one of the methods that are capable to meet the standards for safe drinking water either in a stand-alone unit or as a hybrid unit.The performance of the membrane-based filtration method is depending on many factors such as the number of pores and thickness of coatings.Nanotechnology has the potential to replace them and increase efficiency to prevent microbial activities.Nano-technology could potentially lead to more effective means of filtration that not only remove more impurities than current methods but do so faster, more economically, and more selectively.So, in the future design of the membrane would direct research work for the development of cost-effective with proven nontoxicity effects on the environment that could revolutionize the water treatment domain and prevention of microbes.

Figure 1 .
Figure 1.Types of Water Contamination

Figure 2 .
Figure 2. Precipitation and Coagulation Water Filtration

Figure 4 .
Figure 4. Adsorption Process for Water Filtration

Table 3 .
17vantages and disadvantages of different water decontamination methods17

Table 5 .
Comparative performance of different membrane filters