Using the Quirk-Schofield Diagram to Explain Environmental Colloid Dispersion Phenomena

Mays, D. C.

doi:10.2134/jnrlse2007.36145x

Cited by 10 publications

(6 citation statements)

References 23 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This diagram therefore provides a conceptual and quantitative model to distinguish chemical conditions favoring colloid dispersion, below the line for the relevant pH, versus colloid aggregation, above the line. Adapted from Mays [2007].…”

Section: Mechanismsmentioning

confidence: 99%

“…The mechanical threshold is complicated by chemical conditions. Colloid mobilization generally occurs when the ionic strength ( I ) drops below the critical coagulation concentration, (CCC) [ Mays , 2007]. The CCC, in turn, depends on the type of colloid, the pH, and the ratio of bivalent to monovalent cations, usually quantified using the sodium adsorption ratio (SAR).…”

Section: Mechanismsmentioning

confidence: 99%

See 1 more Smart Citation

Changes in permeability caused by transient stresses: Field observations, experiments, and mechanisms

Manga

Beresnev

Brodsky

et al. 2012

Reviews of Geophysics

Self Cite

396

342

View full text Add to dashboard Cite

[1] Oscillations in stress, such as those created by earthquakes, can increase permeability and fluid mobility in geologic media. In natural systems, strain amplitudes as small as 10À6 can increase discharge in streams and springs, change the water level in wells, and enhance production from petroleum reservoirs. Enhanced permeability typically recovers to prestimulated values over a period of months to years. Mechanisms that can change permeability at such small stresses include unblocking pores, either by breaking up permeability-limiting colloidal deposits or by mobilizing droplets and bubbles trapped in pores by capillary forces. The recovery time over which permeability returns to the prestimulated value is governed by the time to reblock pores, or for geochemical processes to seal pores. Monitoring permeability in geothermal systems where there is abundant seismicity, and the response of flow to local and regional earthquakes, would help test some of the proposed mechanisms and identify controls on permeability and its evolution.

show abstract

Section: Mechanismsmentioning

confidence: 99%

Section: Mechanismsmentioning

confidence: 99%

Changes in permeability caused by transient stresses: Field observations, experiments, and mechanisms

Manga

Beresnev

Brodsky

et al. 2012

Reviews of Geophysics

Self Cite

396

342

View full text Add to dashboard Cite

show abstract

“…As Figure 1 shows, for a given soil there is a clear relationship between the soil permeability and salinity versus sodicity. (Mays, 2007). This means that the dominance of divalent cations, such as calcium and magnesium (responsible for the formation of scale in hard water), will cause a shift in the direction of lower SAR values in Figure 1, and the soil will be soft, permeable, and well structured.…”

Section: Relationship Between Chemical Indicators Of Salt-affected Soilsmentioning

confidence: 99%

Classification and Mitigation of Soil Salinization

Tóth¹

2017

Oxford Research Encyclopedia of Environmental Science

View full text Add to dashboard Cite

Soil salinity has been causing problems for agriculturists for millennia, primarily in irrigated lands. The importance of salinity issues is increasing, since large areas are affected by irrigation-induced salt accumulation. A wide knowledge base has been collected to better understand the major processes of salt accumulation and choose the right method of mitigation. There are two major types of soil salinity that are distinguished because of different properties and mitigation requirements. The first is caused mostly by the large salt concentration and is called saline soil, typically corresponding to Solonchak soils. The second is caused mainly by the dominance of sodium in the soil solution or on the soil exchange complex. This latter type is called “sodic” soil, corresponding to Solonetz soils. Saline soils have homogeneous soil profiles with relatively good soil structure, and their appropriate mitigation measure is leaching. Naturally sodic soils have markedly different horizons and unfavorable physical properties, such as low permeability, swelling, plasticity when wet, and hardness when dry, and their limitation for agriculture is mitigated typically by applying gypsum. Salinity and sodicity need to be chemically quantified before deciding on the proper management strategy. The most complex management and mitigation of salinized irrigated lands involves modern engineering including calculations of irrigation water rates and reclamation materials, provisions for drainage, and drainage disposal. Mapping-oriented soil classification was developed for naturally saline and sodic soils and inherited the first soil categories introduced more than a century ago, such as Solonchak and Solonetz in most of the total of 24 soil classification systems used currently. USDA Soil Taxonomy is one exception, which uses names composed of formative elements.

show abstract

“…The dispersion of fines occur when the individual fines are more stable individually than they would be alongside other fines due to either collisions or chemical interactions. Fines that remain separate will remain suspended in solution for a longer period and this dispersion characteristic will enable fines to remain mobile and it may hinder adsorption to the grain surfaces (Mays, 2007). Dispersion is very similar to diffusion in that with a change in time, a single fine, which remains suspended, and will move down the concentration gradient, on average.…”

Section: Fines Deposition Propertiesmentioning

confidence: 99%

Modification of the Kozeny-Carman Equation To Quantify Formation Damage by Fines in Clean, Unconsolidated Porous Media

Krauss

Mays

2014

SPE Reservoir Evaluation &Amp; Engineering

Self Cite

View full text Add to dashboard Cite

show abstract

Using the Quirk-Schofield Diagram to Explain Environmental Colloid Dispersion Phenomena

Cited by 10 publications

References 23 publications

Changes in permeability caused by transient stresses: Field observations, experiments, and mechanisms

Changes in permeability caused by transient stresses: Field observations, experiments, and mechanisms

Classification and Mitigation of Soil Salinization

Modification of the Kozeny-Carman Equation To Quantify Formation Damage by Fines in Clean, Unconsolidated Porous Media

Contact Info

Product

Resources

About