Modification of used commercial reverse osmosis membranes to nanofiltration modules for the production of mineral-rich packaged drinking water

Govardhan, Bapanipally; Fatima, Sana; Madhumala, M.; Sridhar, S.

doi:10.1007/s13201-020-01312-1

Cited by 23 publications

(11 citation statements)

References 34 publications

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“…In the present study, the chemical cleaning was carried out by a combination of 1% citric acid, followed by water wash, then by 1% NaOH + 0.5% EDTA + 0.1% SLS (w/v) and again water wash for durations of 15 min each. After wash, the membrane was stored in 0.5% (w/v) SMBS aqueous solution to avoid any biological fouling and extend membrane life [32,33].…”

Section: Membrane Foulingmentioning

confidence: 99%

WITHDRAWN: An integrated process of methanol coagulation and side-stream membrane bioreactor for the treatment of rice gruel wastewater

Nazia

Mishra

Jegatheesan

et al. 2021

Preprint

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The demand for water supply is increasing rapidly across the world due to the exponential growth of population, swift urbanization, and industrialization. Methods for recovery of reusable water from domestic, industrial and agricultural wastewater should be cost-effective, and environmentally safe for the sustainability of water resources. Domestic wastewater is one of the contaminated water sources which need efficient treatment before discharge into water bodies. The novelty of the present study is to treat domestic rice gruel wastewater by coagulation integrated aerobic membrane bioreactor (AMBR) for the generation of reusable water. A hydrophilized ultrafiltration (HF-UF) spiral wound membrane of 5 kDa molecular weight cut off was used for the treatment of rice gruel wastewater at a feed temperature of 30 °C and 80 °C to study separation performance. Further, a comparison study was carried using various coagulants such as methanol, ethanol, and HCl for integration with HF-UF membrane to determine overall process efficiency at 30 °C. Methanol coagulation + HF-UF membrane based integrated process was able to achieve 93.77%, 95.4%, 91%, and 78.6 %, respectively of total dissolved solids (TDS), turbidity, conductivity, and chemical oxygen demand (COD). Further, this process was integrated with a bioreactor operated under aerobic conditions to improve the process efficiency and purified water quality. From the overall experimental results, the integrated coagulation + AMBR process attained a maximum removal of 93.9, 96, 91, and 94.6 percent of TDS, turbidity, conductivity and COD, correspondingly. Finally, an economic estimation of a 1000 Lh-1 capacity pilot plant is described in detail. The study depicts unique advantages of economy, process safety, small footprint, and eco-friendly for rice gruel wastewater by a combination of chemical coagulation with AMBR.

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Section: Membrane Foulingmentioning

confidence: 99%

WITHDRAWN: An integrated process of methanol coagulation and side-stream membrane bioreactor for the treatment of rice gruel wastewater

Nazia

Mishra

Jegatheesan

et al. 2021

Preprint

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“…4. The primary and secondary amines associated with the terminal amine groups are responsible for the -CH stretching vibration of the peak, which is observable at 2876 cm -1 , and the equivalent -NH stretching vibration, which occurs at 3446.91 cm -1 (Govardhan et al, 2020). The -C=O group, amide I and II, and the bending and stretching vibrations of the carbonyl amide groups are represented by the peaks detected at 1745.64, 1672.32, and 1535.39 cm -1 , respectively (Mostafa and El-Aassar, 2012;Porubská et al, 2012).…”

Section: Fourier Transform Inferred Spectroscopy (Ftir)mentioning

confidence: 99%

“…4e), which indicates the degradation of the amide group after soaking in stearic acid. The PA skin layer's chain structure is altered and deformed as a result of this reaction, which leads to flaws in the membrane's structure and higher permeability but lower selectivity or rejection (Govardhan et al, 2020). Finally, the effect of adding different acids may be a combined effect that gives rise to enhance sorption of 137 Cs on the membrane and cannot be induced using a single acid.…”

Section: Fourier Transform Inferred Spectroscopy (Ftir)mentioning

confidence: 99%

A prototype system for the removal of 137 Cs from liquid radioactive waste using reverse osmosis membrane

Shaltout,

kandil,

El-Tabl

et al. 2024

Preprint

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Cesium removal from aqueous solutions of radioactive waste streams is a challenge in the field of radioactive waste management; this is due to the small atomic radii of Cs+ metal ions and their high migration ability. So, the development of a withstand system for the removal of Cs+ is crucial, in the current study, the removal of radioactive cesium from aqueous solutions using an RO-TLC membrane was studied. Two modifications were conducted; the first is to enlarge the cesium metal ion radii by interacting with mono and dia basic acids namely, stearic acid, tartaric acid, citric acid, and EDTA, and the second is the modification of the RO-membrane pore size via reaction with the same acids. The modification was confirmed using SEM, FTIR, and EDX analysis techniques. The Cs+ and K+ rejection capacities and water permeability across the membrane at 1.5 bars were evaluated. Along with using the above-mentioned acids, the Cs+ metal ion retention index (RCs) was also obtained. It was found that employing EDTA as a chelating agent in an amount of 1.5 g/L in conjunction with the variation of feed content since it provided the highest value of RCs ~98% when used. Moreover, the elution of Cs+ using; water, EDTA, Ammonia, and HCl is also investigated. The optimal value of the eluent concentration was (0.25 M) HCl. Finally, Langmuir and Freundlich isotherm models were applied for better understanding of the sorption process. Results shows that the present work results are more fitted to Langmuir isotherm model determine the dominance of the chemical sorption mechanism.

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“…Regarding membrane recycling in the Atlantic Islands, in the Canary Islands, there are 330 desalination plants in operation, concentrated on the islands of Gran Canaria, Tenerife, Fuerteventura and Lanzarote, where 291 desalination plants use RO technology ( Table 1 ) [ 5 , 20 , 21 , 22 , 23 , 24 ].…”

Section: Technical Actions To Be Carried Outmentioning

confidence: 99%

Study for Recycling Water Treatment Membranes and Compnents towards a Circular Economy—Case of Macaronesia Area

et al. 2022

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Desalination is an opportunity to get fresh water for irrigation and for drinking. Reverse Osmosis (RO) for sea water desalination is a solution for the high demand for water in Atlantic islands. The most efficient process to get desalinated water is RO; however, it is necessary to study what to do with the RO membranes used at the end of their life. This paper confirms the possibility to recycle them. The main categories of recycling by thermal processing commonly used in the industry include incineration and pyrolysis to produce energy, gas and fuel. These processes can be applied to mixed plastic waste, such as the combination of materials used in the manufacture of RO membranes. Recycling RO elements from desalination plants is shown to be an opportunity and pioneering initiatives are already underway in Europe. Energy recovery, via incineration, is feasible nowadays and it is a possibility to recycle RO membranes. On the other hand, the recycling of RO elements, via the pyrolytic industry, for fuel production could be centralized in a new industry already planned in the Macaronesia area and all obsolete osmosis membranes could be sent there for recycling. Recycling RO membranes is a very important opportunity for the environment and economy of the zone. This is a new business in water treatments with membranes, very interesting for decreasing the residues and the carbon footprint. The importance of this work is applied to sea water membranes, brackish water ones, and also wastewater tertiaries RO elements at the end of their life.

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Modification of used commercial reverse osmosis membranes to nanofiltration modules for the production of mineral-rich packaged drinking water

Cited by 23 publications

References 34 publications

WITHDRAWN: An integrated process of methanol coagulation and side-stream membrane bioreactor for the treatment of rice gruel wastewater

WITHDRAWN: An integrated process of methanol coagulation and side-stream membrane bioreactor for the treatment of rice gruel wastewater

A prototype system for the removal of 137 Cs from liquid radioactive waste using reverse osmosis membrane

Study for Recycling Water Treatment Membranes and Compnents towards a Circular Economy—Case of Macaronesia Area

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