Removal of metal ions using a new magnetic chitosan nano-bio-adsorbent; A powerful approach in water treatment.

Combustion behavior, performance and emission characteristics of diesel engine fuelled with biodiesel containing cerium oxide nanoparticles: A review

Adsorption of rare earth metals from wastewater by nanomaterials: A review

In this study, a magnetic chitosan/Al2O3/Fe3O4 (M-Cs) nanocomposite was developed by ethylenediaminetetraacetic acid (EDTA) functionalization to enhance its adsorption behavior for the removal of Cd(II), Cu(II) and Zn(II) metal ions from aqueous solution. The results revealed that the EDTA functionalization of M-Cs increased its adsorption capacity ~9.1, ~5.6 and ~14.3 times toward Cu, Cd and Zn ions. The maximum adsorption capacity followed the order of Cd(II) > Cu(II) > Zn(II) and the maximum adsorption efficiency was achieved at pH of 5.3 with the removal percentage of 99.98, 93.69 and 83.81 %, respectively, for the removal of Cu, Cd and Zn ions. The metal ions adsorption kinetic obeyed pseudo-second-order equation and the Langmuir isothermal was found the most fitted model for their adsorption isothermal experimental data. In addition, the thermodynamic study illustrated that the adsorption process was exothermic and spontaneous in nature. 

Removal of metal ions using a new magnetic chitosan nano-bio-adsorbent; A powerful approach in water treatment

Reviewing two decades of cleaner alternative marine fuels: Towards IMO's decarbonization of the maritime transport sector

Nanomaterials as fuel additives in diesel engines: A review of current state, opportunities, and challenges

Synthesis and characterization of novel γ-Fe2O3-NH4OH@SiO2(APTMS) nanoparticles for dysprosium adsorption.

Conceptual MINLP approach to the development of a CO2 supply chain network – Simultaneous consideration of capture and utilization process flowsheets

Thermodynamic and transport properties of systems PEG 600/CO 2 and Brij52/CO 2 at different experimental conditions were determined with the aim of choosing optimal conditions for further polymer processing. Solubility and diffusivity of CO 2 were measured by a magnetic suspension balance, density by the density meter with a U-tube, and interfacial tension was determined by the capillary rise method. Solubility of CO 2 in PEG 600 is 0.59095 g/g whilst on the other hand, solubility of CO 2 in Brij52 is for about 25% higher, 0.76584 g/g at 290 bar and 333 K. In the entire range of investigated conditions, higher diffusion coefficient, and lower interfacial tension was attained for the system of PEG 600/CO 2 . Consequently, micronization of Brij52 without/with esomeprazole as active compound was carried out and foam of Brij52 with a micro pore cellular structure was produced while the average size of the cells ranges from 119.96 to 153.91 μm.

Tina Kegl

Papers

Adsorption of rare earth metals from wastewater by nanomaterials: A review

Nanomaterials as fuel additives in diesel engines: A review of current state, opportunities, and challenges

Synthesis and characterization of novel γ-Fe2O3-NH4OH@SiO2(APTMS) nanoparticles for dysprosium adsorption.

Conceptual MINLP approach to the development of a CO2 supply chain network – Simultaneous consideration of capture and utilization process flowsheets

Effect of addition of supercritical CO2 on transfer and thermodynamic properties of biodegradable polymers PEG 600 and Brij52