Quantitative evaluation on oil diffusion mechanisms in nano‐organic‐montmorillonite modified caster oil‐based polyurethane foam for oil/water separation

Zhou, Xiuqing; Huang, Qiong

doi:10.1002/pat.4853

Cited by 6 publications

(4 citation statements)

References 35 publications

(36 reference statements)

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“…23,24 Moreover, they also can be added into PUF or sprayed on the surface of PUF as a surfactant to achieve superhydrophobicity. [25][26][27] The addition of additives with hydrophobic properties can improve the overall hydrophobicity of PUF, 28 especially nanoparticles with adjustable surface function, good structural stability, and high adsorption capacity; they are widely used in textile, biomedicine, and environmental protection. [29][30][31] In recent years, superhydrophobic nanomaterials have played a good role in oil-water separation.…”

Section: Introductionmentioning

confidence: 99%

Hydrophobically modified nano‐SiO₂ in situ loaded on polyurethane foam as a potential carrier for marine oil spill

Hu,

Ren,

Tang

et al. 2024

J of Applied Polymer Sci

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In order to enhance the oil–water separation properties of polyurethane foam (PFU), hydrophobic silica nanoparticles (H‐SiO2 NPs) were firstly prepared by incorporating long alkyl chains into silica nanoparticles, and then, it was combined with PFU by in situ loading to fabricate a hydrophobic PFU (H‐SiO2 NPs/PUF). When the loading amount of H‐SiO2 NPs was 10%, the water contact angle of the modified foam H‐SiO2 NPs/PUF‐10 reached 147 ± 1°, which proved it was highly hydrophobic. The elongation at break of the foam was increased by 202%, which indicated that it had better resilience and recyclability. In addition, the total pore area and porosity were increased to 16.24 m2/g and 88.43% from 5.46 m2/g and 2.11%, which provided more storage space for adsorption. The oil–water separation experiment showed that the adsorption capacity for most light oils was 11–13 g/g, and that for dichloromethane was as high as 40.5 g/g. After 10 adsorption–desorption cycles, the adsorption capacity only decreased from 15.6 to 14.5 g/g, which was still 93% of the initial adsorption capacity. H‐SiO2 NPs/PUF represents good adsorption capacity, recyclability, and recyclability, so it as a carrier has a potential application in the treatment of marine oil spills.

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Section: Introductionmentioning

confidence: 99%

Hydrophobically modified nano‐SiO₂ in situ loaded on polyurethane foam as a potential carrier for marine oil spill

Hu,

Ren,

Tang

et al. 2024

J of Applied Polymer Sci

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“…They found that the crystallization process of polyurethane at a fixed temperature can be divided into three steps, and the crystallization rate decreased with the decrease of crystal temperature. Zhou and Huang 14 used experiments MD simulation to investigate the oil diffusion mechanism of nano‐organic‐montmorillonite (OMMT) modified castor oil‐based polyurethane (MPU). They put forward the diffusion model of OMMT/MPU and pointed out that the main reason for crude oil diffusion and adsorption was van der Waals force.…”

Section: Introductionmentioning

confidence: 99%

Multiscale investigation on molecular structure and mechanical properties of thermal‐treated rigid polyurethane foam under high temperature

Qiu

2021

J of Applied Polymer Sci

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In order to study the relationship between the molecular structure and mechanical properties of rigid polyurethane foam (RPUF) during the mechanical and chemical failure process, the variation of the molecular structure and mechanical properties of RPUF treated in temperature range of 323–473 K were characterized by both theoretical and experimental methods. The molecular structure stability of RPUF varied with thermal treatment temperature was characterized by density functional theory method. The mechanical properties of base material of RPUF were simulated by means of molecular dynamics (MD) simulation. Then the related parameters obtained from the MD simulation were assigned into a representative volume element model of RPUF for the finite element analysis. The results indicated that the vibrational frequencies of isocyanate groups and amino acid ester groups in RPUF molecule increased while the molecular orbital energy gap of RPUF decreased with the increase of treatment temperature. It indicated that the RPUF molecule had high chemical reactivity at high temperature. The results of the multiscale simulation of mechanical properties showed that the defects and voids in RPUF generated under high temperature would grow with the increase of thermal treatment temperature, which intensified the stress concentration in RPUF and decreased the tensile properties of RPUF.

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“…These include oil refining and drilling industries, 2 which produce large quantities of oil effluent in the seas. Some of these oily pollutants in the seas are cleared by the natural process, 3 but large quantities of these pollutants remain in the marine ecosystem, which must be eliminated due to their adverse environmental and toxic effects 4,5 . The mixture of water and oil is physically divided into three categories based on the droplets size: free oil (≥150 μm), dispersed oil (20‐150 μm) and oil emulsion (≤20 μm) 1 .…”

Section: Introductionmentioning

confidence: 99%

Development of a superhydrophilic nanofiber membrane for oil/water emulsion separation via modification of polyacrylonitrile/polyaniline composite

Shakiba

Nabavi

Emadi

et al. 2020

Polymers for Advanced Techs

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In this research, polyaniline (PANI) was used to modify polyacrylonitrile (PAN) electrospun nanofibers for separating oil/water (O/W) emulsions due to its hydrophilic amino groups and simple synthesis. The fabrication of PAN/PANI membranes was carried out by two different methods: blending of PANI with PAN in pre‐electrospinning solution and coating of PANI on the PAN electrospun nanofibers using in situ polymerization of aniline. The effect of PANI composition (10, 20, 30 and 40 wt% with respect to the weight of PAN) and electrospinning temperature (25°C, 40°C and 55°C) was investigated in PAN/PANI membrane fabrication. The prepared membranes were characterized by Fourier transform infrared spectroscopy (FTIR), field emission scanning electron microscopy (FESEM), atomic force microscopy (AFM), water and under water oil contact angle (WCA and UOCA) measurement and mechanical tensile test. Regarding the results, PAN/40%PANI nanofibers prepared at 40°C was considered as the superhydrophilic nanofibers (WCA < 5°) and the most suitable membrane among the samples for separation of O/W emulsions. Separation studies revealed a flux of 1300 Lmh (pure water) under gravity and an efficient oil rejection of about 98.8% for PAN/40%PANI@40°C membrane. Hence, the PAN/40%PANI@40°C membrane was subjected to additional tests including separation of different industrial oils, emulsion separation with surfactant agent, separation under harsh acidic/basic conditions and fouling test. The results confirmed an efficient performance of the obtained superhydrophilic membrane for O/W separation, which make it a potential candidate for the purification of water from industrial organic pollutant.

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Quantitative evaluation on oil diffusion mechanisms in nano‐organic‐montmorillonite modified caster oil‐based polyurethane foam for oil/water separation

Cited by 6 publications

References 35 publications

Hydrophobically modified nano‐SiO₂ in situ loaded on polyurethane foam as a potential carrier for marine oil spill

Hydrophobically modified nano‐SiO₂ in situ loaded on polyurethane foam as a potential carrier for marine oil spill

Multiscale investigation on molecular structure and mechanical properties of thermal‐treated rigid polyurethane foam under high temperature

Development of a superhydrophilic nanofiber membrane for oil/water emulsion separation via modification of polyacrylonitrile/polyaniline composite

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Quantitative evaluation on oil diffusion mechanisms in nano‐organic‐montmorillonite modified caster oil‐based polyurethane foam for oil/water separation

Cited by 6 publications

References 35 publications

Hydrophobically modified nano‐SiO2 in situ loaded on polyurethane foam as a potential carrier for marine oil spill

Hydrophobically modified nano‐SiO2 in situ loaded on polyurethane foam as a potential carrier for marine oil spill

Multiscale investigation on molecular structure and mechanical properties of thermal‐treated rigid polyurethane foam under high temperature

Development of a superhydrophilic nanofiber membrane for oil/water emulsion separation via modification of polyacrylonitrile/polyaniline composite

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Product

Resources

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Hydrophobically modified nano‐SiO₂ in situ loaded on polyurethane foam as a potential carrier for marine oil spill

Hydrophobically modified nano‐SiO₂ in situ loaded on polyurethane foam as a potential carrier for marine oil spill