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1. Unveiling Low-Frequency Eclipses in Spider MSPs using wideband GMRT Observations

Author

Kumari, Sangita, Bhattacharyya, Bhaswati, Kansabanik, Devojyoti, Sharan, Rahul, Ghosh, Ankita, and Roy, Jayanta

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Eclipses of radio emission have been reported for ~ 58 spider millisecond pulsars (MSP), of which only around 19% have been extensively studied. Such studies at low frequencies are crucial for probing the properties of the eclipse medium, as eclipses are more prominent at such frequencies. This study investigates eclipses in 10 MSPs in compact orbit using wide-bandwidth observations with the upgraded Giant Metrewave Radio Telescope. We report the first evidence of eclipsing for PSR J2234+0944 and J2214+3000 in one epoch, while no evidence of eclipsing was observed in the subsequent two epochs, indicating temporal evolution of the eclipse cutoff frequency in these systems. Constraints on the eclipse cutoff frequency were obtained for PSR J1555-2908, J1810+1744, and J2051-0827. Moreover, for the first time, we detected an eclipse at a non-standard orbital phase (~ 0.5) for PSR J1810+1744, with a duration longer than the eclipse observed at superior conjunction. No eclipses were detected for PSR J0751+1807, J1738+0333, and J1807-2459A at 300-500 MHz and 550-750 MHz, for which we discuss the possible reasons. We calculated the mass loss rates of the companions for PSR J1555-2908 and PSR J1810+1744, and found that these rates are insufficient to ablate the companion stars. We cataloged the $\dot{E}/a^2$, mass function, roche lobe filling factor, and inclination angle for compact MSP binaries with low-mass companions and found that higher spin-down flux does not guarantee eclipses. Our analysis, supported by the Kolmogorov-Smirnov statistic, reveals that eclipsing black widow binaries generally exhibit a higher mass function compared to non-eclipsing black widow binaries, as reported by previous studies for a limited sample of black widow MSPs., Comment: Submitted in ApJ

Published
2024

2. In-field phasing at the upgraded GMRT

Author

Kudale, Sanjay, Roy, Jayanta, Chengalur, Jayaram N., Sharma, Shyam, and Kumari, Sangita

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

In time-domain radio astronomy with arrays, voltages from individual antennas are added together with proper delay and fringe correction to form the beam in real-time. In order to achieve the correct phased addition of antenna voltages one has to also correct for the ionospheric and instrumental gains. Conventionally this is done using observations of a calibrator source located near to the target field. This scheme is sub-optimal since it does not correct for the variation of the gains with time and position in the sky. Further, since the ionospheric phase variation is typically most rapid at the longest baselines, the most distant antennas are often excluded while forming the beam. We present here a different methodology ("in-field phasing"), in which the gains are obtained in real-time using a model of the intensity distribution in the target field, which overcomes all of these drawbacks. We present observations with the upgraded Giant Metrewave Radio Telescope (uGMRT) which demonstrates that in-field phasing does lead to a significant improvement in sensitivity. We also show, using observations of the millisecond pulsar J1120$-$3618 that this in turn leads to a significant improvement of measurements of the Dispersion Measure and Time of Arrival. Finally, we present test observations of the GMRT discovered eclipsing black widow pulsar J1544+4937 showing that in-field phasing leads to improvement in the measurement of the cut-off frequency of the eclipse., Comment: Accepted for publication in the ApJ

Published
2024

3. Unveiling frequency-dependent eclipsing in spider millisecond pulsars using broadband polarization observations with the Parkes

Author

Kumari, Sangita, Bhattacharyya, Bhaswati, Sharan, Rahul, Johnston, Simon, Weltevrede, Patrick, Stappers, Benjamin, Kansabanik, Devojyoti, Roy, Jayanta, and Ghosh, Ankita

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

This study presents an orbital phase-dependent analysis of three black widow spider millisecond pulsars (BW MSPs), aiming to investigate the magnetic field within the eclipse environment. The ultra-wide-bandwidth low-frequency receiver (UWL) of the Parkes 'Murriyang' radio telescope is utilised for full polarisation observations covering frequencies from 704-4032 MHz. Depolarisation of pulsed emission is observed during the eclipse phase of three BW MSPs namely, J0024-7204J, J1431-4715 and PSR J1959+2048, consistent with previous studies of other BW MSPs. We estimated orbital phase dependent RM values for these MSPs. The wide bandwidth observations also provided the constraints on eclipse cutoff frequency for these BW MSPs. For PSR J0024-7204J, we report temporal variation of the eclipse cutoff frequency coupled with changes in the electron column density within the eclipse medium across six observed eclipses. Moreover, the eclipse cutoff frequency for PSR J1431-4715 is determined to be 1251 $\pm$ 80 MHz, leading to the conclusion that synchrotron absorption is the primary mechanism responsible for the eclipsing. Additionally, for PSR J1959+2048, the estimated cutoff frequency exceeded 1400 MHz, consistent with previous studies. With this investigation, we have doubled the sample size of BW MSPs with orbital phase-resolved studies allowing a better probe to the eclipse environment., Comment: Accepted for publication in ApJ

Published
2024

4. Flux Density Stability and Temporal Changes in the Spectra of Millisecond Pulsars using the GMRT

Author

Sharan, Rahul, Bhattacharyya, Bhaswati, Kumari, Sangita, Roy, Jayanta, and Ghosh, Ankita

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

This paper presents an investigation of spectral properties of 10 millisecond pulsars (MSPs) discovered by the uGMRT, observed from 2017-2023 using band 3 (300-500 MHz) and 4 (550-750 MHz) of uGMRT. For these MSPs, we have reported a range of spectral indices from ~0 to -4.8, while averaging the full observing band and all the observing epochs. For every MSP, we calculated the mean flux densities across 7-8 sub-bands each with approximately 25 MHz bandwidth spanning band 3 and band 4. We computed their modulation indices as well as average and maximum-to-median flux densities within each subband. Using a temporal variation of flux density we calculated the refractive scintillation time scales and estimated structure function with time lag for 8 MSPs in the sample. We note a significant temporal evolution of the in-band spectra, classified into three categories based on the nature of the best-fit power-law spectra, having single positive spectral indices, multiple broken power law, and single negative spectral indices. Additionally, indications of low-frequency turnover and a temporal variation of the turnover frequency (to the extent that turnover was observed for some of the epochs while not seen for the rest) were noted for all the MSPs. To the best of our knowledge, this is the first systematic investigation probing temporal changes in the MSP spectra as well as in turnover frequency. Future exploration with dense monitoring combined with modeling of spectra can provide vital insight into the intrinsic emission properties of the MSPs and ISM properties., Comment: 18 Pages, 8 Figures, 3 Tables. Accepted for Publication in ApJ

Published
2024
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6. The GMRT High-Resolution Southern Sky Survey for pulsars and transients -- VII: Timing of Spider MSP J1242-4712, A Bridge Between Redback and Black Widow Pulsars

Author

Ghosh, Ankita, Bhattacharyya, Bhaswati, Lyne, Andrew, Kaplan, David L., Roy, Jayanta, Ray, Paul S., Stappers, Ben, Kumari, Sangita, Singh, Shubham, and Sharan, Rahul

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We present the timing solution for the 5.31-ms spider millisecond pulsar (MSP) J1242-4712, discovered with the GMRT. PSR J1242-4712 orbits a companion of minimum mass 0.08 M$_{\odot}$ with an orbital period of 7.7 hrs and occupies a relatively unexplored region in the orbital period versus companion mass space. We did not detect gamma-ray pulsations for this MSP, and also could not identify the optical counterpart for PSR J1242-4712 in available optical/near-infrared data. The profile of J1242-4712 evolves with frequency showing a clear single component at lower frequencies and a three-component profile at 650 MHz. PSR J1242-4712 eclipses for a very short duration near superior conjunction (orbital phase ~ 0.23-0.25) below 360 MHz. Moreover, significant DM delays and errors in pulse times of arrivals are observed near inferior conjunction (orbital phase ~ 0.7), along with an observed eclipse in one epoch at 650 MHz. Observed eclipses and significant orbital period variability suggest that PSR J1242-4712 is possibly not a He-WD binary, but has a semi or non-degenerate companion, indicating that this is a ``spider" MSP lying in a region between typical black widows and redbacks. This system may represent a distinct category of spider MSPs, displaying characteristics that bridge the gap between known black widow and redback MSPs., Comment: 13 pages, 8 figures, 2 tables. Accepted for publication in The Astrophysical Journal

Published
2024

7. First systematic study reporting the changes in eclipse cut-off frequency for pulsar J1544+4937

Author

Kumari, Sangita, Bhattacharyya, Bhaswati, Sharan, Rahul, Kansabanik, Devojyoti, Stappers, Benjamin, and Roy, Jayanta

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We present results from a long-term monitoring of frequency dependent eclipses of the radio emission from PSR J1544+4937 which is a ``black widow spider'' millisecond pulsar (MSP) in a compact binary system. The majority of such systems often exhibit relatively long duration radio eclipses caused by ablated material from their companion stars. With the wide spectral bandwidth of upgraded Giant Metrewave Radio Telescope (uGMRT), we present first systematic study of temporal variation of eclipse cut-off frequency. With decade-long monitoring of 39 eclipses for PSR J1544+4937, we notice significant changes in the observed cut-off frequency ranging from 343 $\pm$ 7 MHz to > 740 MHz. We also monitored changes in eclipse cut-off frequency on timescales of tens of days and observed a maximum change of $\ge$ 315 MHz between observations that were separated by 22 days. In addition, we observed a change of $\sim$ 47 MHz in eclipse cut-off frequency between adjacent orbits, i.e. on timescales of $\sim 2.9$ hours. We infer that such changes in the eclipse cut-off frequency depict an eclipse environment for the PSR J1544+4937 system that is dynamically evolving, where, along with the change in electron density, the magnetic field could also be varying. We also report a significant correlation between the eclipse cut-off frequency and the mass loss rate of the companion. This study provides the first direct evidence of mass loss rate affecting the frequency dependent eclipsing in a spider MSP., Comment: Accepted in ApJ

Published
2023

8. Decade Long Timing Study of the Black Widow Millisecond Pulsar J1544+4937

Author

Kumari, Sangita, Bhattacharyya, Bhaswati, Kansabanik, Devojyoti, and Roy, Jayanta

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

Results from 11 years of radio timing for eclipsing black widow millisecond pulsar (MSP) binary, J1544+4937, is presented in this paper. We report a phase-connected timing model for this MSP, using observations with the Giant Metrewave Radio Telescope (GMRT) at multiple frequencies and with Green Bank Telescope (GBT). This is the longest-duration timing study of any galactic field MSP with the GMRT. While extending the timing baseline from the existing 1.5 years to about a decade we report the first detection for a significant value of proper motion ($\mathrm{\mu_{T}} \sim$ 10.14(5) $\mathrm{mas/year}$) for this pulsar. Temporal variations of dispersion measure ($\mathrm{\Delta DM~ \sim 10^{-3}}$ pc $\mathrm{cm^{-3}}$) manifested by significant determination of 1st, 2nd, and 3rd order DM derivatives are observed along the line of sight to the pulsar. We also noticed frequency-dependent DM variations of the order of $\mathrm{10^{-3}~ pc~ cm^{-3}}$, which could arise due to spatial electron density variations in the interstellar medium. This study has revealed a secular variation of the orbital period for this MSP for the first time. We investigated possible causes and propose that variation in the gravitational quadrupole moment of the companion could be responsible for the observed temporal changes in the orbital period., Comment: 12 pages, 5 Figures, 2 Table, Accepted in the Astrophysical Journal

Published
2022
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14. How accurate are estimates of glacier ice thickness? Results from ITMIX, the Ice Thickness Models Intercomparison eXperiment

Author

Farinotti, Daniel, Brinkerhoff, Douglas J, Clarke, Garry KC, Fürst, Johannes J, Frey, Holger, Gantayat, Prateek, Gillet-Chaulet, Fabien, Girard, Claire, Huss, Matthias, Leclercq, Paul W, Linsbauer, Andreas, Machguth, Horst, Martin, Carlos, Maussion, Fabien, Morlighem, Mathieu, Mosbeux, Cyrille, Pandit, Ankur, Portmann, Andrea, Rabatel, Antoine, Ramsankaran, RAAJ, Reerink, Thomas J, Sanchez, Olivier, Stentoft, Peter A, Kumari, Sangita Singh, van Pelt, Ward JJ, Anderson, Brian, Benham, Toby, Binder, Daniel, Dowdeswell, Julian A, Fischer, Andrea, Helfricht, Kay, Kutuzov, Stanislav, Lavrentiev, Ivan, McNabb, Robert, Gudmundsson, G Hilmar, Li, Huilin, and Andreassen, Liss M

Subjects
Earth Sciences, Physical Geography and Environmental Geoscience, Oceanography, Meteorology & Atmospheric Sciences, Physical geography and environmental geoscience
Abstract

Knowledge of the ice thickness distribution of glaciers and ice caps is an important prerequisite for many glaciological and hydrological investigations. A wealth of approaches has recently been presented for inferring ice thickness from characteristics of the surface. With the Ice Thickness Models Intercomparison eXperiment (ITMIX) we performed the first coordinated assessment quantifying individual model performance. A set of 17 different models showed that individual ice thickness estimates can differ considerably - locally by a spread comparable to the observed thickness. Averaging the results of multiple models, however, significantly improved the results: on average over the 21 considered test cases, comparison against direct ice thickness measurements revealed deviations on the order of 10 ± 24% of the mean ice thickness (1σ estimate). Models relying on multiple data sets - such as surface ice velocity fields, surface mass balance, or rates of ice thickness change - showed high sensitivity to input data quality. Together with the requirement of being able to handle large regions in an automated fashion, the capacity of better accounting for uncertainties in the input data will be a key for an improved next generation of ice thickness estimation approaches.

Published
2017

21. 1T/2H-MoS2Heterostructure for Lubrication Enhancement and Tribo-Induced Phase Transformation into 2H-MoS2

Author

Pandey, Anchal, Kumari, Sangita, Goswami, Ramesh N., Sharma, Om P., Islavath, Nanoji, and Khatri, Om P.

Abstract

Heterostructures comprising two-dimensional (2D) nanomaterials of dissimilar lattice constants govern the interfacial interactions, induce structural strain, and influence the mechanical properties, resulting in a low shear strength to minimize friction. The present work addresses a facile hydrothermal approach to synthesize an ammonium surfactant-stabilized 1T/2H-MoS2heterostructure comprising van der Waals interaction-driven interfacially stacked 1T metallic and 2H semiconducting phases of MoS2. The high mole ratios of the ammonium surfactant facilitated the formation of 1T-MoS2beside the 2H phase, yielding the 1T/2H-MoS2heterostructure. Raman, X-ray photoelectron spectroscopy (XPS), high-resolution transmission electron microscopy (HRTEM), and X-ray diffraction (XRD) analyses explicitly confirmed both the 1T and 2H phases in the 1T/2H-MoS2heterostructures. The long alkyl chain of the ammonium surfactant grafted on the surface of the 1T/2H-MoS2heterostructure extended its dispersibility in fully formulated 10W40 engine lube oil. A minute quantity of 1T/2H-MoS2in engine lube oil (optimum dose: 0.3 mg·mL–1) improved the lubrication performance of the steel tribopair by minimizing friction (24%) and wear volume (76%). Raman analyses of the worn area after the lubrication test with the 1T/2H-MoS2heterostructure revealed the tribo-induced transformation of 1T into the 2H phase and formed a 2H-MoS2-based tribo thin film on contact surfaces of steel balls for enhancement of lubrication properties. The significantly low weak van der Waals interaction between interfacially stacked lamellae of 1T and 2H phases in the 1T/2H-MoS2heterostructure furnished a lower coefficient of friction than that of 2H-MoS2under identical tribological conditions. These findings promise the use of 2D heterostructures for tribological applications to enhance lubrication properties.

Published
2024
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24. A COMPARATIVE STUDY ON ASYNCHRONOUS AND DIGITAL LEARNING IN A CLASSROOM IN NALANDA DISTRICT

Author

Dr. Sushil Kumar Singh and Kumari, Sangita

Subjects
e-learning, digital learning, synchronous tutorials, and asynchronous tutorials
Abstract

Through digital learning and asynchronous learning, the corona virus outbreak in higher education helped teachers and students become independent learners. This study looks at how 200 learners learn a language who is enrolled in a Graduation of Arts (BA) in Hindi course at several colleges within Patliputra University responded to synchronous and asynchronous higher education learning in Nalanda District. The lecture and asynchronous delivery of the module are both available for the test. Weekly digital learning tutorials were also incorporated to allow for instant interaction between the teacher and the students. These tutorials were designed to give students the chance to interact with the teachers for questions or issues, get immediate feedback on their questions, confirm their understanding of the material covered and the tasks given, discuss pressing issues, share knowledge and ideas, and discuss issues of concern. Records of student involvement, online and offline questionnaires given in the midst of the course and at the conclusion of the 04-week module were all used to collect the data. The data analyzed using mean, SD, t-test and correlation. The data analysis showed a favorable. Improvement in participants' clarity of knowledge of the content studied, attitude toward tutorials, and the emergence of a sense of security and comfort. The present study, deals with the final year of students of Graduation studying Hindi subject in different college of Biharshaif under Patliputra University Patna. The sample comprises 200 final years of graduation students studying in different colleges of Patliputra University in Nalanda District. The delimitation of the study is limited to 200 students of Graduation studying in Hindi subject, students of Graduation studying in Hindi subject, and study is limited to the City of Biharsharif of Patliputra University. The offline and online survey was conducted for the study and self constructed and validated by the guide tools were used for asynchronous learning and digital learning in the study. Keywords: e-learning, digital learning, synchronous tutorials, and asynchronous tutorials..

Published
2023
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33. Prevalence Of Psychopathology Among School Adolescents.

Author

KUMARI, SANGITA and JAHAN, MASROOR

Subjects
PATHOLOGICAL psychology, TEENAGERS, ADULTS, COGNITIVE ability, ANXIETY
Abstract

Background: It is a transitional rapid growth phase of individual development between childhood and adulthood. Adolescents feel changes in cognitive, emotional, physical, intellectual, attitudinal, social roles, relationships, redeployment, and self-discovery during this phase, which is a stressful experience for them. Although it is the phase of tremendous growth in preparation of adults' roles and skills to sustain pressures and challenges, it is also a transitory phase that can raise the risk of various psychopathology or mental health problems. Objective: The present study aims to assess the prevalence of psychopathology among school adolescents. Methods: The sample consisted of 200 school-going adolescents through simple random sampling from the different districts of Jharkhand. Both male and female adolescents in the age range of 13 to 17 years were recruited for the study. Both male and female adolescents were studying in 8th to 10th standard and had no history of mental retardation and major physical illness. Socio-demographic and Clinical Datasheet, Informed Consent Form, and Adolescents Psychopathology Scale (APS-SF) were used for data collection. Results & conclusion: Overall findings of the present study indicated that moderate level prevalence rate of psychopathology i.e. conduct disorder (5.5%), generalized anxiety disorder (5.5%), major depression (7.5%), eating disturbance (6%), suicide (10%) and interpersonal problems (5%) have been existing among adolescents. [ABSTRACT FROM AUTHOR]

Published
2022

34. Phytochemical Analysis, Estimation and Antioxidant Activity in Bacopa monnieri(L.)

Author

Kumari, Sangita, Sharma, Hanuman Prasad, Mahato, Dipa, and Sahu, Abhishek Prasad

Subjects
Baccopa monnieri, Antioxidant, DPPH
Abstract

Bacopa monnieri, an important medicinal plant belonging to the family of Scrophulariceae, which has been valued for centuries in Ayurvedic medicine, was extracted with methanol solvents for the purpose of preliminary screening. The different qualitative chemical tests were performed on the extracts to detect the various phyto constituents or antioxidants present in them. The phytochemical screening reveals the presence of many therapeutically important compounds such as glycosides, alkaloids, saponins phenols. Since the phenolic compounds have remarkable antioxidant activities, our worl aims at evaluating the antioxidant activities, by the in vitro models such as DPPH method. From the present investigative phytochemical analysis of Bacopa monnieri plant extract it is revealed that the antioxidant activity of the plant material is due to the presence of phenolic compounds.

Published
2021

37. Remote Sensing based Method for Glacier Surface Velocity and Ice Thickness Distribution Estimations

Author

Kumari, Sangita

Subjects
Glaciology, Photogrammetry and remote sensing, Physics::Atmospheric and Oceanic Physics, Physics::Geophysics
Abstract

This thesis presents a newly developed physics-based ice thickness model (named GATHI) useful for data scarce glaciers which requires only remote sensing inputs such as annual glacier surface velocity and surface topography. It includes an algorithm useful for glacier velocity estimation algorithm (named SWIFT) which provides flexibility in terms of spatially varying window size unlike other existing softwares and is useful for feature tracking to estimates surface velocity of the glaciers where no field measured data is available.

Published
2021
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43. Synthesis of Zeolite from Waste Fly Ash by Using Different Methods

Author

G. Udayabhanu, Kumari Sangita, and Bably Prasad

Subjects
Waste management, Chemistry, Fly ash, 02 engineering and technology, General Chemistry, 010501 environmental sciences, 021001 nanoscience & nanotechnology, 0210 nano-technology, Zeolite, 01 natural sciences, 0105 earth and related environmental sciences
Published
2016

47. Surface Functionalization of WS2Nanosheets with Alkyl Chains for Enhancement of Dispersion Stability and Tribological Properties

Author

Kumari, Sangita, Chouhan, Ajay, Sharma, Om P., Tawfik, Sherif Abdulkader, Tran, Kevin, Spencer, Michelle J. S., Bhargava, Suresh K., Walia, Sumeet, Ray, Anjan, and Khatri, Om P.

Abstract

Tungsten disulfide (WS2) exhibits intriguing tribological properties and has been explored as an excellent lubricious material in thin-film and solid lubricants. However, the poor dispersibility of WS2has been a major challenge for its utilization in liquid lubricant applications. Herein, a top-down integrated approach is presented to synthesize oxygenated WS2(WS2–O) nanosheets viastrong acid-mediated oxidation and ultrasound-assisted exfoliation. The ultrathin sheets of WS2–O, comprising 4–7 molecular lamellae, exhibit oxygen/hydroxyl functionalities. The organosilanes having variable surface-active leaving groups (chloro and ethoxy) are covalently grafted, targeting the hydroxyl/oxygen functionalities on the surface of WS2–O nanosheets. The grafting of organosilanes is governed by the reactivity of chloro and ethoxy leaving groups. The DFT calculations further support the covalent interaction between the WS2–O nanosheets and organosilanes. The alkyl chain-functionalized WS2–O nanosheets displayed excellent dispersibility in mineral lube base oil. A minute dose of chemically functionalized-WS2(0.2 mg.mL–1) notably enhanced the tribological properties of mineral lube oil by reducing the friction coefficient (52%) and wear volume (79%) for a steel tribopair. Raman analysis of worn surfaces revealed WS2-derived lubricious thin film formation. The improved tribological properties are attributed to ultralow thickness, stable dispersion, and low shear strength of chemically functionalized WS2nanosheets, along with protective thin film formation over the contact interfaces of a steel tribopair. The present work opens a new avenue toward exploiting low-dimensional nanosheets for minimizing energy losses due to high friction.

Published
2022
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49. Reducing the Hardness of Mine Water Using Transformed Fly Ash

Author

B. K. Tewary, Kumari Sangita, and Bably Prasad

Subjects
Hydrogeology, Waste management, business.industry, Environmental engineering, Thermal power station, Geotechnical Engineering and Engineering Geology, Total dissolved solids, Mineral resource classification, Fly ash, Ecotoxicology, Coal, business, Zeolite, Geology, Water Science and Technology
Abstract

In the Jharia Coalfields, Dhanbad, India, huge quantities of water are pumped out of underground mines to make mining possible. The water contains high concentrations of total hardness, which makes it unsuitable for domestic use. Waste fly ash generated nearby from burning the coal in thermal power plants can be converted into a zeolitic mineral, and used to treat the mine water. The fly ash zeolite was determined to be effective in removing total hardness from the mine water. At a 40 g/L dose of fly ash zeolite, approximately 72% of the hardness was removed from the mine water. However, the mine water still requires additional treatment to further reduce total dissolved solids to make the mine water potable.

Published
2010

50. Structural-Defect-Mediated Grafting of Alkylamine on Few-Layer MoS2and Its Potential for Enhancement of Tribological Properties

Author

Kumari, Sangita, Chouhan, Ajay, Sharma, Om P., Kuriakose, Sruthi, Tawfik, Sherif Abdulkader, Spencer, Michelle J. S., Walia, Sumeet, Sugimura, Hiroyuki, and Khatri, Om P.

Abstract

Two-dimensional transition-metal dichalcogenides possess inherent structural characteristics that can be harnessed for enhancement of tribological properties by making them dispersible in lube media. Here, we present a hydrothermal approach to preparing MoS2nanosheets comprising 4–10 molecular lamellae. A structural-defect-mediated route for grafting of octadecylamine (ODA) on MoS2nanosheets is outlined. The unsaturated d orbitals of Mo at the sulfur vacancies on the MoS2surface are coupled with the electron-rich nitrogen center of ODA and yield ODA-functionalized MoS2(MoS2–ODA). The MoS2–ODA nanosheets exhibit good dispersibility in lube base oil and are used as an additive (optimized dose: 0.1 mg·mL–1) to mineral oil. It is shown that even at low concentration, MoS2–ODA nanosheets significantly reduce the friction (48%) and wear (44%). Microscopy (field emission scanning electron microscopy (FESEM) and atomic force microscopy (AFM)) and spectroscopy (Raman and elemental mapping) analyses of worn scars revealed the formation of MoS2-based protective thin films for lowering of friction and wear. This work, therefore, presents a pathway for low-friction lubricants by deploying functionalized low-dimensional material systems.

Published
2020
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