A. Singh scite author profile

In recent decades, scientists in different disciplines have been increasingly concerned about the fate of natural organic matter, and in particular of humic substances (HS). The term humic substances (HS) incorporates refractory autochthonous and terrestrial organic matter in the soil and aquatic ecosystem, and are one of the key fractions of natural organic matter. These substances are important chelators of trace elements constituting complex class of molecular structures that occur naturally, consisting of aggregation and assembly processes in which biomolecules derived from plant and animal residues are gradually transformed through biotic and abiotic tracts. Since these organic compounds are bound by or linked with soil mineral fractions, they must be physically or chemically separated from the inorganic components by an extraction method before their physico-chemical study. This chapter focuses on the chemo-toxicological, molecular aspects of humic compounds and their derivatives such as humins, fulvic acids, humic acids etc., with their agricultural, biomedical, environmental and biochemical applications. In addition to studying their impact on plant physiology and soil microstructure to expand our understanding about humic compounds.

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Effect of Superheat and Cavity Size on Frequency of Bubble Departure in Boiling

Singh

Mikić

Rohsenow

1977

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A theoretical model has been developed to predict the effect of cavity size (both radius and depth), and superheat on frequency of bubble departure by considering the effect on waiting time (time between the last bubble departure and appearance of the next one on the surface) and bubble growth time. An increase in cavity size or decrease in surface superheat results in longer waiting time and bubble growth time, thus causing a lower frequency. The model explains qualitatively the observed effect of superheat and cavity size on bubble departure frequency during pool boiling experiments with water on artificial cavities drilled by laser.

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Symphyseal plating for pelvic fracture in a morbidly obese patient: operative challenges and innovation of a novel ‘wire-ramp plate-sliding method’

et al. 2023

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We are describing a case report of a morbidly obese patient (body mass index 41) in his mid-40s with Young and Burgess Anteroposterior Compression type II injury (AO Foundation/Orthopaedic Trauma Association type B1.2) managed by symphyseal plating. Morbid obesity made working at a depth very difficult; hence, we adopted a novel ‘wire-ramp plate-sliding method’. In this method, two strong sturdy K-wires inserted through the medial-most plate holes into the pubis acted as a ramp over which the plate was pushed/slid distally. During this manoeuvre, the K-wires passing through the plate holes were used as a reduction tool. The patient also had a wedge fracture of the distal femoral shaft which was managed by retrograde femoral nailing. At 1-year follow-up, the pelvic continuity is maintained and the fracture has united. The patient is able to do full weight-bearing and is back to his normal life.

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Relative Behavior of Water and Organics in Boiling

Singh

Mikić

Rohsenow

1978

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A. Singh

Generation of Farm-Level Information on Salt-Affected Soils Using IKONOS-II Multispectral Data

Humic Substances: Its Toxicology, Chemistry and Biology Associated with Soil, Plants and Environment

Effect of Superheat and Cavity Size on Frequency of Bubble Departure in Boiling

Symphyseal plating for pelvic fracture in a morbidly obese patient: operative challenges and innovation of a novel ‘wire-ramp plate-sliding method’

Relative Behavior of Water and Organics in Boiling

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