The Significance of Hydrophobicity for the Water Retention Properties of Sand and Coal

For mine wastes such as coal tailings, management of these materials requires complex geotechnical engineering that uses many soil properties, such as water retention. However, coal itself is chemically heterogeneous and often appears to be partially hydrophobic, which affects its water retention properties. This study aims to outline how hydrophobic soil particles and coal alter water retention curves compared to hydrophilic materials. The study involves four materials: sand, hydrophobized sand, crushed rock and crushed coal. Mixtures of sand with different proportions of hydrophobic particles had their water retention curves measured and compared, with the only variable being the particle surface characteristics. The rock and coal were separated into different particle size fractions and had their water retention curves measured and compared, with the only variable being particle hydrophobicity. A clear trend was observed for the sand mixtures: the degree of saturation at any suction was reduced when increasing the hydrophobicity of the material. This trend indicates the fundamental water retention behavior expected for soils more hydrophobic than is typical, which was not clearly demonstrated in previous studies. However, a similar trend was not seen when comparing the rock and otherwise identical hydrophobic coal samples, which actually appeared hydrophilic in terms of water retention. ESEM imaging shows a dual hydrophilic and hydrophobic behavior for coal which may explain the result. However, further research is required to understand the discrepancy, which appears to be caused by an unknown coal–water phenomena.

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Carboxylated nanocellulose superabsorbent: Biodegradation and soil water retention properties

Journal of Applied Polymer Science ◽

10.1002/app.51495 ◽

2021 ◽

pp. 51495

Author(s):

Ruth M. Barajas‐Ledesma ◽

Vanessa N. L. Wong ◽

Karen Little ◽

Antonio F. Patti ◽

Gil Garnier

Keyword(s):

Soil Water ◽

Water Retention ◽

Soil Water Retention ◽

Water Retention Properties

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Applications of Hyaluronic Acid in Ophthalmology and Contact Lenses

Molecules ◽

10.3390/molecules26092485 ◽

2021 ◽

Vol 26 (9) ◽

pp. 2485

Author(s):

Wan-Hsin Chang ◽

Pei-Yi Liu ◽

Min-Hsuan Lin ◽

Chien-Ju Lu ◽

Hsuan-Yi Chou ◽

...

Keyword(s):

Hyaluronic Acid ◽

Dry Eye ◽

Water Retention ◽

Contact Lenses ◽

Anterior Segment ◽

Vitreous Body ◽

Material Surface ◽

Connective Tissues ◽

Water Retention Properties ◽

Bull's Eye

Hyaluronic acid (HA) is a glycosaminoglycan that was first isolated and identified from the vitreous body of a bull’s eye. HA is ubiquitous in the soft connective tissues of animals and therefore has high tissue compatibility for use in medication. Because of HA’s biological safety and water retention properties, it has many ophthalmology-related applications, such as in intravitreal injection, dry eye treatment, and contact lenses. Due to its broad range of applications, the identification and quantification of HA is a critical topic. This review article discusses current methods for analyzing HA. Contact lenses have become a widely used medical device, with HA commonly used as an additive to their production material, surface coating, and multipurpose solution. HA molecules on contact lenses retain moisture and increase the wearer’s comfort. HA absorbed by contact lenses can also gradually release to the anterior segment of the eyes to treat dry eye. This review discusses applications of HA in ophthalmology.

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Particle surface characteristics of permanently charged poly(styrene-cationic comonomer) latices

European Polymer Journal ◽

10.1016/0014-3057(90)90094-k ◽

1990 ◽

Vol 26 (1) ◽

pp. 35-39 ◽

Cited By ~ 15

Author(s):

W.M. Brouwer ◽

M. van der Vegt ◽

P. van Haeren

Keyword(s):

Particle Surface ◽

Surface Characteristics

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Soil wetting-drying and water-retention properties in a mine-soil treated with composted and thermally-dried sludges

European Journal of Soil Science ◽

10.1111/j.1365-2389.2011.01378.x ◽

2011 ◽

Vol 62 (5) ◽

pp. 696-708 ◽

Cited By ~ 11

Author(s):

G. Ojeda ◽

S. Mattana ◽

M. Bonmatí ◽

S. K. Woche ◽

J. Bachmann

Keyword(s):

Water Retention ◽

Mine Soil ◽

Soil Wetting ◽

Water Retention Properties

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Performance Impacts of Tailored Surface Geometry in Li-Ion Battery Cathodes

Volume 6A: Energy ◽

10.1115/imece2013-65230 ◽

2013 ◽

Author(s):

George J. Nelson

Keyword(s):

Surface Area ◽

Solid Phase ◽

Particle Surface ◽

Surface Characteristics ◽

Analytical Models ◽

Li Ion Battery ◽

Fractal Structures ◽

Surface Geometry ◽

Trade Offs ◽

Li Ion

Analytical models developed to investigate charge transfer in Li-ion battery cathodes reveal distinct transport regimes where performance may be limited by either microstructural surface characteristics or solid phase geometry. For several cathode materials, particularly those employing conductive additives, surface characteristics are expected to drive these performance limitations. For such electrodes gains in performance may be achieved by modifying surface geometry to increase surface area. However, added surface area may present a diminishing return if complex structures restrict access to electrochemically active interfaces. A series of parametric studies has been performed to better ascertain the merits of complex, tailored surfaces in Li-ion battery cathodes. The interaction between lithium transport and surface geometry is explored using a finite element model in which complex surfaces are simulated with fractal structures. Analysis of transport in these controlled structures permits assessment of scaling behavior related to surface complexity and provides insight into trade-offs in tailoring particle surface geometry.

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Capillary-based effective stress formulation for predicting shear strength of unsaturated soils

Canadian Geotechnical Journal ◽

10.1139/cgj-2014-0300 ◽

2015 ◽

Vol 52 (12) ◽

pp. 2067-2076 ◽

Cited By ~ 32

Author(s):

Jean-Marie Konrad ◽

Marc Lebeau

Keyword(s):

Shear Strength ◽

Effective Stress ◽

Unsaturated Soils ◽

Water Retention ◽

Adsorbed Water ◽

Soil Strength ◽

Liquid Films ◽

Degree Of Saturation ◽

Stress Parameter ◽

Effective Stress Parameter

A number of investigations have shown that the shear strength of unsaturated soils can be defined in terms of effective stress. The difficulty in this approach lies in quantifying the effective stress parameter, or Bishop’s parameter. Although often set equal to the degree of saturation, it has recently been suggested that the effective stress parameter should be related to an effective degree of saturation, which defines the fraction of water that contributes to soil strength. A problematic element in this approach resides in differentiating the water that contributes to soil strength from that which does not contribute to soil strength. To address this difficulty, the paper uses theoretical considerations and experimental observations to partition the water retention function into capillary and adsorptive components. Given that the thin liquid films of adsorbed water should not contribute to effective stress, the effective stress parameter is solely related to the capillary component of water retention. In sample calculations, this alternative effective stress parameter provided very good agreement with experimental data of shear strength for a variety of soil types.

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Influence of temperature on the water retention properties of compacted GMZ01 bentonite

Environmental Earth Sciences ◽

10.1007/s12665-014-3690-y ◽

2014 ◽

Vol 73 (8) ◽

pp. 4053-4061 ◽

Cited By ~ 17

Author(s):

M. Wan ◽

W. M. Ye ◽

Y. G. Chen ◽

Y. J. Cui ◽

J. Wang

Keyword(s):

Water Retention ◽

Influence Of Temperature ◽

Gmz01 Bentonite ◽

Influence Of Temperature On ◽

Water Retention Properties

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The water retention properties of biochar derived from broiler poultry litter as applied to the Botswana soil

10.37281/drcsf/1.1.9 ◽

2020 ◽

Vol 1 (1) ◽

pp. 66-72 ◽

Cited By ~ 1

Author(s):

Thapelo Shomana ◽

Daniel Botha ◽

Paul Şerban Agachi

Keyword(s):

Water Loss ◽

Water Retention ◽

Arable Land ◽

Poultry Litter ◽

Field Capacity ◽

Exchange Capacity ◽

Convincing Evidence ◽

Similar Response ◽

Zero Hunger ◽

Water Retention Properties

Crop farming in Botswana is very modest and of high risk compared to its neighboring countries because of significant dependency on reduced and unreliable rainfall and as a result of soils with poor water holding capacity and low cation exchange capacity. For this reason, only about two thirds of the available arable land are planted and of the planted land only about half is harvested, which translates into only one third of productive arable land. This study examines how addition of poultry litter (PL) biochar affects water retention properties of Botswana’s sandy soils. While many variables should be studied to fully comprehend this aspect, this paper exploits in detail, effects of biochar addition in reducing rate of water loss by evaporation. This work provides convincing evidence that addition of PL-derived biochar (as little as 10%) can significantly reduce water loss by evaporation, thus increasing water soil retention. It is demonstrated that water retention properties increase with increasing rate of biochar application. Two types PL-derived biochar were studied: (i) one with sunflower husks bedding and another (ii) with woodchips bedding. Though both biochars showed similar response to the test, the biochar with sunflower husks was slightly superior. Biochar also indicated significant hygroscopicity, when dried and left exposed to the atmosphere, as moisture content increased with increasing humidity. Based on initial indicators, further study should be done at laboratory and field scale to determine optimum conditions of biochar application in the quest to improve food security for Botswana, as well as improve employment and environmental goals of the country. A comprehensive further study should critically examine Field Capacity, Permanent Wilting Point, and Plant Available Water. As an ultimate goal, enhancing soil moisture retention properties of Botswana’s sandy soil enables to increase success rate in the traditional farming sector and, consequently, offers potential to accomplish “No Poverty” and “Zero Hunger” sustainable development goals.

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