The increasing number of oil spill accidents have a catastrophic impact on our aquatic environment. Recently, special wettable materials used for the oil/water separation have received significant research attention. Due to their opposing affinities towards water and oil, i.e., hydrophobic and oleophilic, or hydrophilic and oleophobic, such materials can be used to remove only one phase from the oil/water mixture, and simultaneously repel the other phase, thus achieving selective oil/water separation. Moreover, the synergistic effect between the surface chemistry and surface architecture can further promote the superwetting behavior, resulting in the improved separation efficiency. Here, recently developed materials with special wettability for selective oil/water separation are summarized and discussed. These materials can be categorized based on their oil/water separating mechanisms, i.e., filtration and absorption. In each section, representative studies will be highlighted, with emphasis on the materials wetting properties and innovative aspects. Finally, challenges and future research directions in this emerging and promising research field will be briefly described.

Recent Development of Advanced Materials with Special Wettability for Selective Oil/Water Separation.

A review of bio-based materials for oil spill treatment.

Advanced fabrication and oil absorption properties of super-hydrophobic recycled cellulose aerogels

Oil removal from aqueous state by natural fibrous sorbent: An overview

An overview of oil-water separation using gas flotation systems.

Kinetics of oil and oil products adsorption by carbonized rice husks

Effects of the pyrolysis process on the oil sorption capacity of rice husk

The use of sorbents, obtained from renewable wastes to purify the hydrosphere from various hazardous pollutants is an innovative approach with multiplied environmental effect. In this regard, there is interest in the processing of rice husks and converting them into an effective biosorbent for purification of water fr om oil pollution. By slow pyrolysis of rice husk at 480°C pyrolysis charcoal was obtained. The product was divided into fractions with sizes in the range from 0,4 to 2,0 mm. Each fraction was tested with respect to adsorption of crude oil from water surface gravimetrically and as emulsified in aqueous media by a batch-method. The aim of this study was to determine the influence of the factor “granulometry of the adsorbent” on the sorption kinetics and efficiency of the material for both cases of contamination. An attempt had been made the kinetics of the pro cess to be described by kinetic models, most often used for adsorption from aqueous media: Lagergren’s equation; second order kinetics equation; Weber-Morris’s diffusion equation and Elovich equation.

Liquid-phase sorption of oil by carbonized rice husks: impact of grain size distribution on the sorption kinetics

Abstract The progress of information and communication technologies in the era of COVID-19 created an unprecedented opportunity for medicine to adapt to new models of care. Telemedicine and telehealth have enabled medical care at a distance in various fields, including ophthalmology. The aim of this article is to review the current state and the opportunities for telemedicine in ophthalmology. Materials and methods PubMed, ScienceDirect Database, Google Scholar databases, as well as official sites of various governmental and non-governmental institutions were explored. The search was conducted between May 1, 2022 and July 31, 2022 using as key words “teleophthalmology”; “telemedicine/telehealth and ophthalmology”; “ophthalmology and COVID-19”. Results 87 primary sources were reviewed. An exploratory analysis of the current state and application of telemedicine in ophthalmology was made. Conclusion A great number of innovations have created an environment allowing for teleophthalmology to flourish, whereas the COVID-19 epidemic has accelerated the development and adoption of these digital technologies. Telemedicine has become an extremely valuable tool during a pandemic, and even if it would never fully replace in the person-to-person patient visits, it certainly has an important role in our dynamic and high-tech world.

Telemedicine in Ophthalmology: Lessons from the COVID-19 Era and Beyond

In this work model fuel containing thiophene, benzothiophene and dibenzothiophene in different concentration combinations were treated with biochar. The quantity of total sulfur into the stock mixed solutions was below 1000 ppm. The adsorbent was prepared by pyrolysis of rice husks. The investigation aimed to use the method of multiple linear regression to derive a mathematical model, describing the adsorption of the three aromatic sulfur compounds from single and multi-component solutions of model fuel. The model describing the adsorption from multi-component solutions, based on the experimental results, has a correlation coefficient of 0.961. It reveals that the degree of desulfurization does not depend on the concentration of thiophene, but only on the concentrations of benzothiophene and dibenzothiophene in the fuel. The model can be used to predict the level of the adsorptive purification of the fuel if the content of benzothiophene and dibenzothiophene in it is known.

S. Uzunova

Papers

Kinetics of oil and oil products adsorption by carbonized rice husks

Effects of the pyrolysis process on the oil sorption capacity of rice husk

Liquid-phase sorption of oil by carbonized rice husks: impact of grain size distribution on the sorption kinetics

Telemedicine in Ophthalmology: Lessons from the COVID-19 Era and Beyond

Modelling of Aromatic Sulfur Compounds Adsorption from Hydrocarbon Fuels by Biochar Based Adsorbent