Search or ask a question

Why can banana fiber filter water? what is in banana fiber?

Suspended solids

Best insight from top research papers

Banana fiber can filter water effectively due to its cellulose content, high hygroscopic ability, and potential as an absorbent material . The fiber is rich in cellulose, making it suitable for absorbing inorganic chemicals and pollutants from water . Studies have shown that banana fiber filters can significantly reduce total suspended solids (TSS), detergents, and other contaminants in wastewater, making it an efficient and cost-effective filtration media for water treatment . Additionally, banana fiber has been found to have good adsorption capacities for pollutants like COD, ammonia nitrogen, suspended solids, turbidity, color, and oil and grease in kitchen wastewater, showcasing its effectiveness in water purification processes .

Answers from top 5 papers

PDF

Open Access

More filters

Papers (5)	Insight
Open access Feasibility of banana (Musa sapientum) trunk biofibres for treating kitchen wastewater Zawawi Daud, Noorain Suhani, Radin Maya Saphira Radin Mohamed, Halizah Awang - Show less +3 more 01 Jan 2017 15 Citations	Banana fiber can filter water due to its biosorption properties. It contains components that effectively remove pollutants like COD, ammonia nitrogen, suspended solids, turbidity, color, and oil and grease.
Open access•Journal Article•DOI Potensi dan Pengaruh Batang Pisang Sebagai Media Filter Pada Pengolahan Air Limbah Pencucian Kendaraan Bermotor Yustika Kusumawardani, Sri Subekti, Soehartono Soehartono - Show less +2 more 30 Nov 2019 8 Citations	Banana fiber can filter water due to its high cellulose content and hygroscopic properties. It contains cellulose for absorption and hygroscopic ability to trap harmful inorganic chemicals.
Open access•Journal Article•DOI Performance of filters composed of banana stalk in swine wastewater treatment Rodrigo Junior Nandorf, Paola Alfonsa Vieira Lo Monaco, Ismail Ramalho Haddade, Larissa Ionara Silva Paula, Paola Honorato Salla, Gustavo Haddad Souza Vieira - Show less +5 more 12 Jul 2021-Revista Caatinga 4 Citations	Banana fiber can filter water due to its high efficiency in removing nitrogen and phosphorus. It contains components that aid in the filtration process, making it a promising alternative for wastewater treatment.
Open access•Posted Content•DOI Fabrication and characterization of a biodegradable simple, inexpensive cellulose nanofiber (CNF)-based filter for antibiotic removal from wastewater 29 Dec 2022	Banana fiber can filter water due to its conversion into Cellulose NanoFiber (CNF) with anisotropic shape, good biocompatibility, and tailorable surface chemistry, making it effective for antibiotic removal.
Open access•Journal Article•DOI Portable wastewater treatment plant using banana stem filter media in small scale motor vehicle washing services Yustika Kusumawardani, Sri Subekti, Widi Astuti, Soehartono Soehartono - Show less +3 more 01 Apr 2021	Banana stem filter media can filter water due to its effectiveness in lowering pH. It consists of banana stem, zeolite sand, and activated carbon, offering economic, lightweight, and efficient filtration properties.

My columns

Related Questions

Why is the banana fiber can filter the water?5 answersBanana fiber can filter water effectively due to its high cellulose content, which allows it to be an excellent absorbent material for filtering out harmful substances. Additionally, banana fiber possesses high hygroscopic properties, making it capable of absorbing inorganic chemicals present in water. The fiber's absorbency and cellulose content make it a suitable filter media for wastewater treatment, as demonstrated in studies where banana stems were used for filtration purposes, resulting in significant reductions in total suspended solids (TSS) and detergents in wastewater. Furthermore, the development of Cellulose NanoFibers (CNFs) from banana fiber has shown promising results in creating efficient water filters, with CNF-based filters demonstrating high effectiveness in removing antibiotics from water.

Is banana peel used as a filter for water purification?10 answersYes, banana peel has been effectively utilized as a filter for water purification across various studies, demonstrating its potential as a low-cost, eco-friendly, and efficient biosorbent for removing different contaminants from water. Research has shown that banana peel can be used in its raw form or modified through processes such as activation, carbonization, and magnetization to enhance its adsorption capabilities. A study highlighted the use of a hybrid process combining sand filtration with activated banana peels macrocomposite (ABPM) for river water treatment, achieving high removal efficiencies for turbidity, biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), and ammonia nitrogen (AN). Another research focused on the removal of mercury from water using dehydrated and sieved banana peel, proving its effectiveness in adsorbing mercury without the need for pH modification. Nanocellulose derived from banana fiber was also explored for water purification, particularly for the removal of antibiotics from wastewater, showcasing the material's high effectiveness. Banana peel powder (BPP) has been tested for the sorption of methylene blue, atrazine, and glyphosate pollutants, with significant removal percentages achieved. The use of banana peels in a multi-layered filtration system including gravel sand, charcoal, and palm fiber has met physical criteria for water purification. Magnetic carbonized banana peel (MCB) demonstrated over 95% removal efficiency for brilliant green and lead(II) ions, outperforming commercial activated carbon. Additionally, banana peel has been used for the adsorption of lead from industrial wastewater, showing favorable adsorption isotherms and kinetics. Research on the removal of Rhodamine B dye from water using modified banana peels further supports the biosorbent's efficiency. A comprehensive review on banana peel as a biosorbent highlighted its wide availability, biodegradability, and efficiency in pollutant removal. Lastly, bacterial nanocellulose synthesized from banana peel waste has been optimized for use in water filter membrane applications, indicating its potential in water purification.

How to make water filter?5 answersTo make a water filter, there are several methods described in the provided abstracts. One method involves preparing household water filters using low-cost materials such as kaolin powder and palm fronds powder. Another method involves manufacturing a molded filter body by forming a layer of support mixed with a template and then forming water passage holes by removing the template. A different method includes preparing a water treatment filter material by ball milling clay, river silt, sludge, and quartz sand balls, followed by mixing with sesames and water, granulation, drying, and carbonization. Another method involves using a water purifying material layer with activated carbon and macromolecular water purifying material in a barrel. Lastly, a method for producing an iron-containing filter material includes reacting a trivalent iron compound and a base, washing the iron hydroxide from the salt, and inserting the panel into containers for refrigeration.

Why are cotton cloth filter fibers used?3 answersCotton cloth filter fibers are used for their high filtering precision, strength, and durability. They are simple in structure and convenient to use, making them suitable for filter barrels. Cotton cloth layers in filter cloths for filter presses provide a strong and damage-resistant filtration element. Additionally, cotton cloth layers in filter cloths used in frame filter presses have the advantage of being elastically telescopic, allowing for improved unloading efficiency of filter cakes and reducing labor intensity. Cotton cloth filter fibers are also used in the preparation of hydrophobically modified filter cloths, which exhibit good hydrophobic stability and potential practical value in oil-water separation and high-efficiency precision separation. Overall, cotton cloth filter fibers offer multiple benefits such as high filtering effects, strength, durability, and convenience in various filtration applications.

What is better as water filter with fiber or without fiber?3 answersFiber filters are better than filters without fiber for water filtration. Fiber filters have been found to have lower pressure loss and higher permeability, allowing for efficient filtration of particulate matter and contaminants in water. They also have a high porosity, enabling them to retain solids at high filtration rates without experiencing headloss. Additionally, fiber filters can be designed with specific properties to enhance their filtration capabilities. For example, a composite fiber-containing filter core with a porous ceramic skeleton layer and a fiber layer made of titanium alloy and polytetrafluoroethylene has been developed, providing effective filtration and attachment of a filter membrane. Another type of filter fiber made from a hydrophobic polymer with frill-like protrusions and a hydrophilic polymer coating has been shown to maintain water wettability even after multiple rounds of hot water treatment. Overall, the use of fiber in water filters offers advantages in terms of efficiency, high filtration rates, and customizable properties.

Banana peels in water filtration?4 answersBanana peels have been investigated for their potential use in water filtration. Studies have shown that banana peels can be used as a carbon source to improve the performance of ultrafiltration membranes in treating wetland water. Additionally, banana peels have been used as a filter layer in a water purification system, effectively removing germs and bacteria from dirty water. Banana peels have also been explored as a biomass material for the adsorption of heavy metals in drinking water, such as hexavalent chromium and copper. Furthermore, banana peel hydrochar has been found to have a high ability to remove toxic metals from wastewater, making it a potential solution for pollution associated with banana cultivation. Finally, pelletised immobilised alginate/montmorillonite/banana peels nanocomposite has been studied for continuous adsorption of rare earth elements and radioactive minerals from water in a fixed-bed column.

See what other people are reading

What is better, up flow or down flow for granular activety carbon in water treatment?

In the realm of water treatment, the choice between up-flow and down-flow configurations for granular activated carbon (GAC) filters depends on specific objectives. Up-flow filters have shown enhanced biological activities and nitrification potential due to higher numbers of total bacteria, ammonia-oxidizing bacteria (AOB), and Nitrospira, leading to improved ammonia removal. On the other hand, down-flow filters exhibit biomass stratification, indicating better mixing of filter media, potentially offering advantages in certain scenarios. Additionally, the integration of GAC in systems like the G-AnDMBR has demonstrated superior treatment performance, with benefits such as improved removal of chemical oxygen demand, enhanced methane production, and stable solution environments. Therefore, the choice between up-flow and down-flow GAC filters should be based on specific treatment goals and operational requirements.How phosphorus influences in eutrofication process?

Phosphorus plays a crucial role in the eutrophication process by being a key nutrient that fuels excessive growth of autotrophs like algae and cyanobacteria, leading to increased biological productivity in water bodies. Both organic and inorganic forms of phosphorus contribute to eutrophication, with runoff and soil erosion being major agents that transport phosphorus to aquatic systems. The concentration of phosphorus in water is a significant factor influencing the intensity of eutrophication, with higher phosphorus levels intensifying algal blooming. Strategies to mitigate phosphorus-induced eutrophication include controlling nutrient loads, ecosystem restoration, and employing interventions like electrocoagulation processes for efficient phosphorus removal from wastewater. Overall, phosphorus serves as a critical driver in the eutrophication process, impacting the health, ecosystem balance, and overall sustainability of aquatic environments.What are the current parameters for measuring oil water pollution in Algeria?

The current parameters for measuring oil water pollution in Algeria encompass a range of physico-chemical and biological indicators. Physico-chemical parameters include temperature, salinity, dissolved oxygen, pH, and oil content in seawater. Additionally, biological markers like glutathione S-transferase activity in marine organisms are utilized to assess hydrocarbon contamination levels. Furthermore, the evaluation of surface water pollution in drainage basins involves monitoring suspended solids, organic matter, nitrates, nitrites, biochemical oxygen demand, and chemical oxygen demand. These parameters aid in understanding the pollution dynamics in various water bodies across Algeria, enabling the implementation of effective monitoring and mitigation strategies to safeguard water resources from contamination.Is there studies that do test-retest reliability when investigating banana stem was water filter?

Studies have investigated the effectiveness of banana stem as a water filter in various contexts. The research conducted by Kusumawardani et al. tested the reliability of banana stem filters in treating wastewater from motorized vehicle washing. The studies highlighted the potential of banana stem filters in reducing Total Suspended Solids (TSS), Detergent, pH, Total Nitrogen, Total Phosphorus, and Color from wastewater. Results showed significant reductions in TSS, detergent, nitrogen, and phosphorus levels, indicating the efficiency of banana stem filters in water treatment processes. These findings suggest that banana stem filters can be a reliable and effective option for small-scale wastewater treatment, showcasing their potential as a sustainable and economical solution for improving water quality.What is the positive effect of sewer water?

The positive effect of sewer water lies in its ability to enhance soil fertility and nutrient content when used for irrigation. Research indicates that soil irrigated with treated sewage water showed increased levels of total nitrogen, available phosphorus, and available potassium compared to non-irrigated soil, contributing to improved soil organic matter and fertility status. Additionally, the study highlights a positive correlation between nutrients like total nitrogen and available potassium with soil organic matter, suggesting that sewage irrigation can boost soil health and productivity. Despite concerns about micropollutants in sewage effluents, the treatment process can reduce toxicity levels, leading to positive effects on aquatic life and reproduction, although some challenges remain in eliminating all contaminants.What are the production methods of composite fibers for biomedical applications?

Various methods are employed for producing composite fibers for biomedical applications. These methods include electrospinning, melt spinning, sol-gel process, extrusion, self-assembly, laser-spinning, and electro-spinning. Composite fibers are typically formed by blending different components during electrospinning or through surface modification of preformed nanofibers. The fibers can be composed of synthetic polymer matrices combined with natural polymer nanofibers, bioactive macromolecules, inorganic or metal nanoparticles, carbon nanostructures, or drug nanocarriers. These composite fibers offer enhanced stability, mechanical strength, and synergistic functions due to the interactions between biomolecules and inorganic components. The versatility of these production methods allows for tailoring the properties of the composite fibers to meet the specific requirements of various biomedical applications.How does the amount of biosorbent affect the pH of wastewater?

The amount of biosorbent used in wastewater treatment can influence the pH levels. Biosorption processes involving materials like Pyracantha coccinea and nut shells can impact pH due to interactions with contaminants. For instance, the pH of the aqueous solution significantly affects the sorption of dyes, with optimal values typically around pH 6. Additionally, in the treatment of winery wastewater, biosand filters can contribute to pH adjustment through biotic and abiotic mechanisms, with specific hydroxide concentrations varying based on the presence of biotic factors. Therefore, the quantity of biosorbent utilized in wastewater remediation processes can play a role in pH modulation, affecting the overall efficiency and success of the treatment methods.What are the concentrations of microplastics found in european cities soils?

The concentrations of microplastics in European cities' soils vary widely, reflecting the complexity of urban environments and the multitude of sources contributing to microplastic pollution. In Coimbra city, Portugal, microplastic concentrations in urban soils ranged from 5 × 10^3 to 571 × 10^3 particles per kilogram, with urban parks showing the highest concentration at 158 × 10^3 particles per kilogram. This indicates that even green spaces within cities can accumulate significant amounts of microplastics. In Berlin, Germany, soils around a graffiti wall exhibited extremely high concentrations of paint microplastics, ranging from 1.1 × 10^5 to 2.9 × 10^5 microplastics per kilogram of dry soil, highlighting unique urban activities as significant sources of microplastic pollution. Research across Austria has provided insights into the widespread presence of microplastics in soils, emphasizing the need for regulations and measures to mitigate environmental pollution. A preliminary European-scale assessment identified urban wastewater and tire wear particles as major contributors to microplastic pollution, with tire wear particles dominating the input of total plastic loads into European surface waters. In urban wetlands, an average abundance of 379 microplastics per kilogram was reported, with the level of urbanization being a dominant factor driving microplastic pollution. Agricultural practices, transport, landfills, and atmospheric deposition are identified as main sources of soil microplastic contamination. A review of global soil environments found that microplastic concentrations in soils near municipal areas were ten times larger compared to rural sites. In Lahore, Pakistan, soil microplastic concentrations varied from 1750 to 12,200 microplastics per kilogram, with parks showing the highest concentrations. This data, although not exclusively European, underscores the global nature of microplastic pollution and its relevance to European cities. Collectively, these studies illustrate the pervasive distribution of microplastics in urban soils across Europe, driven by a combination of urban activities, wastewater management, and agricultural practices.Is glycolysis occurs in acidogenesis stage of anaerobic digestion?

Glycolysis, the metabolic pathway that converts glucose into pyruvate, is a crucial process in anaerobic digestion, particularly during the acidogenesis stage. Acidogenesis involves the breakdown of complex organic compounds into simpler molecules like organic acids, which is facilitated by glycolysis. This stage is essential for the subsequent production of biofuels like methane in the methanogenesis stage. Studies have shown that acidogenesis can lead to the production of intermediate products such as acetic acid, lactic acid, and ethanol, which are important precursors in the anaerobic digestion process. Additionally, maintaining optimal pH levels is critical for efficient hydrolysis and acidogenesis, as deviations can significantly impact the overall process. Therefore, glycolysis plays a significant role in the acidogenesis stage of anaerobic digestion.How circulation using pump effect wastewater treatment by electrocoagulation?

The circulation using a pump in electrocoagulation significantly impacts wastewater treatment by enhancing the process efficiency and contaminant removal. In the electrocoagulation method, the forced outer circulation generated by a pump plays a crucial role in crushing floccules, leading to smaller absorbed floccule sizes and higher hydroxyl density on their external surfaces, ultimately improving ion adsorption rates. Additionally, electrocoagulation with plasma discharge in a flow-through system utilizes recirculation loops controlled by pumps to treat wastewater, where electrocoagulation occurs concurrently with plasma discharge, enhancing the clarification process. Furthermore, electrocoagulation technology, utilizing direct current electrolytic processes with iron or aluminum electrodes, induces coagulation and precipitation of contaminants, effectively removing suspended solids and colloidal material from water without the need for additional chemicals.What are the different methods used to measure total suspended solids (TSS) in water? without using machines?

Various methods are employed to measure Total Suspended Solids (TSS) in water without using machines. Conventional field and gravimetric approaches are commonly utilized but are limited by cost, labor, and spatial coverage. Remote Sensing (RS) applications offer an alternative, using images from satellites like Landsat and UAVs, which are then analyzed using deep learning and statistical models. Additionally, a model incorporating machine learning and Landsat data has been developed to predict TSS concentrations in water bodies, providing efficient monitoring. Another study proposes a model using machine learning and Landsat data to estimate TSS concentrations in coastal regions, enhancing rapid monitoring capabilities. These methods showcase the advancement in TSS measurement techniques, offering valuable insights for water quality monitoring and management.