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41.
42.
Samir Khanna 《Boundary-Layer Meteorology》1998,88(1):121-144
The surface layer of an atmospheric boundary layer (ABL) is most accessible to field measurements and hence its ensemble-mean structure has been well established. The Kansas field measurements were the first detailed study of this layer, providing numerous benchmark statistical profiles for a wide range of stability states. Large-eddy simulation (LES), in contrast, is most suitable for studying the mixed layer of the ABL where the energy-containing range of the vertical velocity field is well resolved. In the surface layer, typical large-eddy simulations barely resolve the energy-containing vertical-velocity fields and hence do not provide sufficient data for a detailed analysis.We carried out a nested-mesh simulation of a moderately convective ABL (-zi/L = 8) in which the lower 6% of the boundary layer had an effective grid resolution of 5123. We analyze the LES fields above the 6th vertical grid level (z = 23 m) where the vertical velocity field has a well formed inertial subrange, for a detailed comparison with the Kansas results. Various terms in the budgets of turbulent kinetic energy, temperature variance, Reynolds stress, temperature flux, and some higher order moments are compared. The agreement is generally quite good; however, we do observe certain discrepancies, particularly in the terms involving pressure fluctuations. 相似文献
43.
Alasdair Skelton Lillemor Claesson Govinda Chakrapani Chandan Mahanta Joyanto Routh Magnus Mörth Param Khanna 《Pure and Applied Geophysics》2008,165(1):45-61
Transient hydrogeochemical anomalies were detected in a granite-hosted aquifer, which is located at a depth of 110 m, north
of the Shillong Plateau, Assam, India, where groundwater chemistry is mainly buffered by feldspar alteration to kaolinite.
Their onsets preceded moderate earthquakes on December 9, 2004 (MW = 5.3) and February 15, 2005 (MW = 5.0), respectively, 206 and 213 km from the aquifer. The ratios [Na+K]/Si, Na/K and [Na+K]/Ca, conductivity, alkalinity
and chloride concentration began increasing 3–5 weeks before the MW = 5.3 earthquake. By comparison with field, experimental and theoretical studies, we interpret a transient switchover between
source aquifers, which induced an influx of groundwater from a second aquifer, where groundwater chemistry was dominantly
buffered by the alteration of feldspar to smectite. This could have occurred in response to fracturing of a hydrological barrier.
The ratio Ba/Sr began decreasing 3–6 days before the MW = 5.0 earthquake. We interpret a transient switchover to anorthite dissolution caused by exposure of fresh plagioclase to
groundwater interaction. This could have been induced by microfracturing, locally within the main aquifer. By comparison with
experimental studies of feldspar dissolution, we interpret that hydrogeochemical recovery was facilitated by groundwater interaction
and clay mineralization, which could have been coupled with fracture sealing. The coincidence in timing of these two hydrogeochemical
events with the only two MW ≥ 5 earthquakes in the study area argues in favor of cause-and-effect seismic-hydrogeochemical coupling. However, reasons
for ambiguity include the lack of similar hydrogeochemical anomalies coupled with smaller seismic events near the monitoring
station, the >200 km length scale of inferred seismic-hydrogeochemical coupling, and the potential for far-field effects related
to the Great Sumatra–Andaman Islands Earthquake of December 26, 2004. 相似文献
44.
Pulok K. Mukherjee Param P. Khanna Naresh K. Saini 《Geostandards and Geoanalytical Research》2014,38(3):363-379
A simple, single sample preparation involving pressed rock powder pellets was utilised to determine the trace and ultra trace abundances of petrogenetically important elements including high field‐strength elements and REEs by laser ablation‐ICP‐MS. One of the elements predetermined by XRF spectrometry served as an internal standard. The influence of sample preparation parameters (grain size, pellet compactness and amount of binding media) on analytical performance was also investigated, including sample homogeneity issues at the laser sampling scale. Line scanning with a high repetition frequency (20 Hz) and large beam diameter (200 μm) ensured ablation from a larger sample surface area, eliminating issues related to sample heterogeneity. A median grain size of about 10 μm for silicate rock powders was found to be sufficiently representative at this scale of laser sampling. Granitic rocks or samples containing resistant minerals such as zircon needed extra grinding to achieve grain sizes down to < 5 μm for better precision for elements that are concentrated in these phases. Using 137Ba as an internal standard, reasonable accuracies within 15–20% for most of the high mass trace elements were achieved; in the case of low mass elements, it may deviate up to 40%. Precision of measurements rarely exceeded 15% RSD. 相似文献
45.
Naresh K. Saini Param P. Khanna Pulok K. Mukherjee Kishor K. Purohit 《Geostandards and Geoanalytical Research》2014,38(1):111-122
Two geochemical reference materials of Himalayan origin named DG‐H (a granite) and AM‐H (an amphibolite) prepared by the Wadia Institute of Himalayan Geology Dehradun are described. Both samples were collected from the NW Himachal Himalaya in India. With the participation of analysts from more than forty international laboratories, element determination data collected during the past 10 years for characterisation of the samples was processed to assign working values using statistical procedures in use for this purpose. Earlier work published on these samples is incorporated in the present communication making it an updated document. The typical chemical and petrological characteristics of these two samples may prove useful for method validation and calibration of analytical instruments used for analysing similar rock types, and for widening the analytical range of several analytical methods used for geochemical analysis. 相似文献
46.
47.
Seismic quality factor observations for gas-hydrate-bearing sediments on the western margin of India 总被引:1,自引:0,他引:1
Kalachand Sain A. K. Singh N. K. Thakur Ramesh Khanna 《Marine Geophysical Researches》2009,30(3):137-145
Any propagating wave undergoes attenuation, which is primarily governed by the physical properties of the medium, determined
in terms of quality factor (Q). Research into the characteristics of both P- and S-wave Q with reference to gas-hydrates exploration remains in its infancy. Presence of gas-hydrates increases the Q, and this again depends on the nature of distribution and amount of hydrates within the sediments. Thus, estimation of Q provides useful input for both the detection and quantitative assessment of gas-hydrates. Here we propose a simple technique
of deriving Q from prestack surface seismic reflection data based on the logarithm of spectral ratio (LSR), and apply the method to marine
multi-channel seismic (MCS) data collected on the western margin of India where a bottom simulating reflector (BSR), which
is a prime marker for gas-hydrates, has already been identified. The Q (256 ± 11) estimated over the region with a strong BSR is found to be more than double the Q (101 ± 9) derived for the region without any BSR or a weak BSR. The anomalously high Q with respect to the background can be used to detect gas-hydrates in areas where the BSR is not very clearly observed on
seismic sections. 相似文献