Structure and englacial debris content of a Himalayan debris-covered glacier revealed by an optical televiewer

2020 ◽  
Author(s):  
Katie Miles ◽  
Bryn Hubbard ◽  
Duncan Quincey ◽  
Evan Miles ◽  
Ann Rowan
Keyword(s):  
Horizontal Resolution ◽  
Hot Water ◽  
Flow Paths ◽  
Validation Data ◽  
Nepal Himalaya ◽  
Discharge Water ◽  
Colour Image ◽  
Covered Area ◽  
Historical Flow ◽  
Unique Surface

<p>Himalayan debris-covered glaciers contribute to the discharge of some of Earth’s largest river systems, shaping the seasonal water supply to millions of people. The supraglacial debris layer heavily influences the pattern of surface melt, producing a range of unique surface features that make it challenging to collect any data, particularly from the interior of such glaciers. Models of debris-covered glaciers therefore lack calibration and validation data, which are needed for accurate predictions of future glacier geometric change and contributions to river discharge, water resources and ultimately sea level. In 2017 and 2018, we logged four boreholes drilled using pressurised hot water into the debris-covered Khumbu Glacier, Nepal Himalaya, with a high-resolution optical televiewer. The boreholes were located at four sites across the lower glacier’s debris-covered area, down-flow of the Khumbu Icefall. The resulting logs, ranging in length from 22–150 m, produced a 360° geometrically-accurate full-colour image of each borehole at ~1 mm vertical and ~0.22 mm (1,440 pixel) horizontal resolution. The logs reveal three material facies: i) steeply-dipping ice layers, some including debris; ii) steeply-dipping sediment-rich layers; and iii) clusters of sediment and debris dispersed through the ice. On the basis of these facies, we present reconstructions of the glacier’s structure and historical flow paths and the first measurements of the englacial debris concentration of a Himalayan debris-covered glacier. From the latter, we additionally infer both the sources of this englacial debris and of the supraglacial debris layer present across much of the lower ablation area of Khumbu Glacier.</p>

Detection of High-Organic-Carbon Features in Sediments by Direct-Push Color Logging

2020 ◽  
Author(s):  
Stefan Klingler ◽  
Ulrike Werban ◽  
Carsten Leven ◽  
Peter Dietrich ◽  
Olaf A. Cirpka
Keyword(s):  
Organic Carbon ◽  
Color Space ◽  
Gaussian Mixture Models ◽  
Gaussian Mixture ◽  
Horizontal Resolution ◽  
Flow Paths ◽  
Direct Push ◽  
Reducing Conditions ◽  
Soils And Sediments ◽  
Floodplain Sediments

<p>A biogeochemical site characterization aims at delineating zones of reducing and oxidizing conditions in the subsurface to infer their influence on solute and contaminant turnover processes along groundwater flow paths. Hereby, large values of the total organic carbon (TOC) content mark reducing conditions in soils and sediments. Dark sediment colors are good predictors for high-TOC zones and thus indicate hotspots of biogeochemical turnover and microbial activity. Traditionally, obtaining the sediment color requires costly sampling, resulting in poor horizontal resolution and related uncertainty caused by interpolation. We suggest using a direct-push soil color optical screening tool to acquire multiple high-resolution vertical color profiles and demonstrate its applicability in floodplain sediments down to 12 m depth. We use Gaussian mixture models for a cluster analysis of the color logs in the CIE L*a*b* color space to identify color-facies, determine facies-specific relationships between the L*a*b* color-values and the TOC content of the sediments, and to construct the 3-D distributions of three distinct facies and organic matter. Direct-push color-logging may also be used for in-situ mapping of redox-zonation, iron content, or sedimentary structures.</p>

Design and Development of an Experimental Apparatus for Hardware-In-The-Loop Testing of Solar Assisted Heat Pump Systems

2021 ◽  
Author(s):  
George Benzion van Arnold ◽  
Weimin Wang
Keyword(s):  
Heat Pump ◽  
Hot Water ◽  
Water Withdrawal ◽  
Water Tank ◽  
Flow Paths ◽  
Domestic Hot Water ◽  
Labview Software ◽  
Experimental Apparatus ◽  
Hardware In Loop ◽  
Operational Modes

Abstract This paper presents an experimental apparatus designed and built to facilitate the study of solar-assisted heat pump (SAHP) systems using the hardware-in-loop methodology. The apparatus includes an 11.6kW capacity water-to-water heat pump, a 409L thermal storage tank, a 288L domestic hot water tank, two variable speed circulation pumps, and emulation hardware representing solar collectors and conditioned building space. A complex network of piping and electronic diverting valves is used to create various energy flow paths to support fifteen different operational modes for space heating, space cooling, domestic hot water generation, and energy storage charging. The apparatus is heavily instrumented for temperature and flow measurement. Controls and data acquisition are predominantly managed using National Instruments hardware and LabVIEW software. The experimental apparatus has been installed, commissioned, and tested. The basic functionality of control and operation has been verified through testing four different operational modes and domestic hot water withdrawal emulation. The experimental apparatus can be used not only as a platform for research on a multifunctional indirect expansion SAHP system, but also allow for similar testing of less-complex related SAHP configurations.

scholarly journals Characteristics of Khumbu Glacier, Nepal Himalaya: recent change in the debris-covered area

1999 ◽  
Vol 28 ◽  
pp. 118-122 ◽  
Author(s):  
M. Nakawo ◽  
H. Yabuki ◽  
A. Sakai
Keyword(s):  
General Pattern ◽  
Ablation Rate ◽  
Recent Change ◽  
Longitudinal Distribution ◽  
Nepal Himalaya ◽  
Ablation Area ◽  
Supraglacial Lakes ◽  
Base Camp ◽  
Covered Area ◽  
Glacier Ice

AbstractUsing satellite data, the longitudinal distribution of the ablation rate and flow velocity were estimated for the ablation area, where glacier ice is covered with supraglacial debris. The ablation rate, small around Everest Base Camp (EBC) just below the equilibrium line, increased down-glacier for about 3 km, then decreased gradually toward the apparent terminus, located about 10 km from EBC. The velocity decreased almost linearly from EBC to the terminus. The results allowed estimation of the recent change of ice thickness using the continuity equation. The glacier has thinned recently in the ablation area. The rate of thinning was large near EBC, where the surface is either bare ice or covered with very thin debris cover, but relatively small and rather uniform at lower sites, where the supraglacial debris layer was thick and supraglacial lakes and ice cliffs predominate. The general pattern is compatible with field observations.

scholarly journals Moderate mass loss of Kanchenjunga Glacier in the eastern Nepal Himalaya since 1975 revealed by Hexagon KH-9 and ALOS satellite Imageries

2016 ◽  
Author(s):  
Damodar Lamsal ◽  
Koji Fujita ◽  
Akiko Sakai
Keyword(s):  
Mass Balance ◽  
Flow Speed ◽  
Elevation Change ◽  
Nepal Himalaya ◽  
Covered Area ◽  
Digital Elevation ◽  
The Difference ◽  
Glacier Velocity ◽  
Geodetic Mass Balance ◽  
Moderate Mass

Abstract. This study presents the geodetic mass balance of Kanchenjunga Glacier, a heavily debris-covered glacier, in the easternmost Nepal Himalaya between 1975 and 2010 using high-resolution (5-m) digital elevation models (DEMs) generated from Hexagon KH-9 and ALOS PRISM stereo-images. Glacier velocities are also calculated using a feature tracking method with two ALOS ortho-images taken in 2010. The difference between the two DEMs shows the rate of elevation change of the glacier, considerable surface lowering across the debris-covered area, and slight thickening in the accumulation area between 1975 and 2010. The velocity throughout the debris-covered area is slow, which stands in contrast with the faster velocity in the lower accumulation area. The rates of elevation change positively correlate with the elevation along the debris-free part, while they negatively correlate with elevation over the debris-covered part, which may result from the distribution of debris thickness. The rate of elevation change also positively correlates with the glacier velocity, whereas no correlation is found with slope and gradient of flow speed. Significant surface lowering is observed at supraglacial ponds, though the ponds should have short life spans. The geodetic mass balance of Kanchenjunga Glacier for the period of 1975–2010 (–0.14 ± 0.12 m w.e. a–1) is considerably less negative than those estimated for Khumbu Glacier (–0.27 m w.e. a–1) in the neighbouring Khumbu region. Disparities in the density of supraglacial ponds and the area contributions of accumulation and debris-covered areas may be principal causes of the difference in geodetic mass balance between the two glaciers.

scholarly journals Surface lowering of the debris-covered area of Kanchenjunga Glacier in the eastern Nepal Himalaya since 1975, as revealed by Hexagon KH-9 and ALOS satellite observations

2017 ◽  
Vol 11 (6) ◽  
pp. 2815-2827 ◽  
Author(s):  
Damodar Lamsal ◽  
Koji Fujita ◽  
Akiko Sakai
Keyword(s):  
Velocity Field ◽  
Mass Balance ◽  
Flow Velocity ◽  
Area Fraction ◽  
Ice Flow ◽  
Nepal Himalaya ◽  
Flow Velocity Field ◽  
Covered Area ◽  
Glacier Ice ◽  
Geodetic Mass Balance

Abstract. This study presents the geodetic mass balance of Kanchenjunga Glacier, one of the largest debris-covered glaciers in the easternmost Nepal Himalaya, which possesses a negative mass balance of −0.18 ± 0.17 m w.e. a−1 for the 1975–2010 study period, estimated using digital elevation models (DEMs) generated from Hexagon KH-9 and ALOS PRISM stereo images. Accurate DEMs, with a relative uncertainty of ±5.5 m, were generated from the intensive and manual editing of triangulated irregular network (TIN) models on a stereo MirrorTM/3D Monitor. The glacier ice-flow velocity field was also calculated using a feature-tracking method that was applied to two ALOS orthoimages taken in 2010. The elevation differences between the two DEMs highlight considerable surface lowering across the debris-covered area, and a slight thickening in the accumulation area of Kanchenjunga Glacier between 1975 and 2010. The magnitude and gradient of surface lowering are similar among the six glacier tributaries, even though they are situated at different elevations, which may reflect variations in the ice-flow velocity field. The pattern of surface lowering correlates well with the ice-flow velocity field over the debris-covered portion of the main tributary, suggesting that the glacier dynamics significantly affect surface lowering by altering the emergence velocity along the glacier, particularly in the compressive ablation area. Surface-lowering patterns partially correspond to the supraglacial pond area fraction of the glacier, with enhanced surface lowering observed in areas that possess a larger pond area fraction. These findings support the hypothesis that supraglacial ponds may intensify ice wastage and play a key role in the heterogeneous surface lowering of debris-covered glaciers. The estimated mass loss of Kanchenjunga Glacier is moderate compared with other debris-covered glaciers in neighboring Himalayan regions, which may be due to the lower pond area fraction of Kanchenjunga Glacier relative to other glaciers.

The impact of SST on the weather forecast quality in the Bulgarian Antarctic Base area on Livingstone Island

2020 ◽  
Author(s):  
Boriana Chtirkova ◽  
Elisaveta Peneva
Keyword(s):  
Prediction Models ◽  
Weather Prediction ◽  
Wrf Model ◽  
Weather Forecast ◽  
Horizontal Resolution ◽  
Initial Time ◽  
Test Cases ◽  
Validation Data ◽  
The Impact ◽  
Forecast Quality

<p>The weather forecast of good quality is essential for the humans living and operating in the Bulgarian Antarctic Base. The numerical weather prediction models in southern high latitude regions still need improvement as the user community is limited, little test cases are documented and validation data are scarce. Not lastly, the challenge of distributing the output results under poor internet conditions has to be addressed.</p><p>The Bulgarian Antarctic Base (BAB) is located on the Livingstone Island coast at 62⁰S and 60⁰W. The influence of the Southern ocean is significant, thus important to be correctly taken into account in the numerical forecast. The modeling system is based on the WRF model, configured in three nested domains down to 1 km horizontal resolution, centered in BAB. The main objective of the study is to quantify the Sea Surface Temperature (SST) impact and to recommend the frequency and way to perform measurements of the SST near the base. The focus is on prediction of right initial time and period of “bad” weather events like storms, frontal zones, and severe winds. Several test cases are considered with available measurements of temperature, pressure and wind speed in BAB during the summer season in 2017. The numerical 3 days forecast is performed and the model skill to capture the basic meteorological events in this period is discussed. Sensitivity experiments to SST values in the nearby marine area are concluded and the SST influence on the model forecast quality is analyzed.</p>

scholarly journals Ice Cliff Dynamics of Debris-Covered Trakarding Glacier in the Rolwaling Region, Nepal Himalaya

2021 ◽  
Vol 9 ◽  
Author(s):  
Yota Sato ◽  
Koji Fujita ◽  
Hiroshi Inoue ◽  
Sojiro Sunako ◽  
Akiko Sakai ◽  
...  
Keyword(s):  
High Resolution ◽  
Mass Loss ◽  
Spatial Relationship ◽  
Remote Sensing Data ◽  
Water Drainage ◽  
Nepal Himalaya ◽  
Aerial Photogrammetry ◽  
Covered Area ◽  
Hydrological System

Ice cliffs can act as “hot spots” for melt on debris-covered glaciers and promote local glacier mass loss. Repeat high-resolution remote-sensing data are therefore required to monitor the role of ice cliff dynamics in glacier mass loss. Here we analyze high-resolution aerial photogrammetry data acquired during the 2007, 2018, and 2019 post-monsoon seasons to delineate and monitor the morphology, distribution, and temporal changes of the ice cliffs across the debris-covered Trakarding Glacier in the eastern Nepal Himalaya. We generate an ice cliff inventory from the 2018 and 2019 precise terrain data, with ice cliffs accounting for 4.7 and 6.1% of the debris-covered area, respectively. We observe large surface lowering (>2.0 m a−1) where there is a denser distribution of ice cliffs. We also track the survival, formation, and disappearance of ice cliffs from 2018 to 2019, and find that ∼15% of the total ice cliff area is replaced by new ice cliffs. Furthermore, we observe the overall predominance of northwest-facing ice cliffs, although we do observe spatial heterogeneities in the aspect variance of the ice cliffs (ice cliffs face in similar/various directions). Many new ice cliffs formed across the stagnant middle sections of the glacier, coincident with surface water drainage and englacial conduit intake observations. This spatial relationship between ice cliffs and the glacier hydrological system suggests that these englacial and supraglacial hydrological systems play a significant role in ice cliff formation.

scholarly journals Application of a Conceptual Precipitation-Runoff Model (HYGYMODEL) in a Debris-Covered Glacierized Basin in the Langtang Valley, Nepal Himalaya

1997 ◽  
Vol 25 ◽  
pp. 226-231 ◽  
Author(s):  
Birbal Rana ◽  
Masayoshi Nakawo ◽  
Yoshihiro Fukushima ◽  
Yutaka Agkta
Keyword(s):  
Thermal Resistance ◽  
Surface Temperature ◽  
Meteorological Data ◽  
Weather Station ◽  
Nepal Himalaya ◽  
Covered Area ◽  
Debris Cover ◽  
Landsat 5 Tm ◽  
Runoff Model ◽  
Langtang Valley

A conceptual precipitation runoff model (HYCYMODEL) is used to simulate the daily runoff from the 67% glacierized Lirung basin (16% of which is covered by debris). The average thermal resistance of the debris cover of the Lrung Glacier has been estimated from the surface temperature of the debris, which was obtained from Landsat 5 (TM Band 6) images. This enabled calculation of the melt rate of the debris-covered area of the glacier using meteorological data collected at a nearby weather station. The calculated discharge results are roughly compatible with the observed daily discharges.

scholarly journals Isolation, Purification and Characterization of Sericin Protein from the Discharge Water of Silk Industry

2020 ◽  
Vol 107 ◽  
pp. 1-6
Author(s):  
Keyword(s):  
Silk Fibroin ◽  
Potential Application ◽  
Immunological Response ◽  
Hot Water ◽  
Biological Origin ◽  
Silk Industry ◽  
Discharge Water ◽  
Silk Worm ◽  
Cell Growth And Differentiation ◽  
Pharmaceutical Industries

Sericin is a silk worm secreting protein occurring naturally as a silk cocoon.It is a typical example of a natural core-shell structure. Silk cocoon constitutes about 75% of core silk fibroin (SF) and 25% of shell silk sericin (SS). Silk fibroin has a potential application in the textile and biomedical field due to its inherent mechanical strength. Sericin is a hydrophilic protein that has a greater affinity with silk fibroin;hence it binds with silk fibroin coaxially to protect pupa from predators, temperature variations, moisture, mechanical abrasions, etc.. During the commercial production of raw silk fiber, sericin will be degummed by treating the cocoon with hot water at high temperatures and discharged as wastewater after extraction of silk fibroin from cocoons. Sericin protein posse’s potential application in the field of cosmetics as an additive in skin moisturizer, shampoo, anti-wrinkle creams due to the presence of hydroxyl amino acids, wound healing, promoting cell growth and differentiation in pharmaceutical industries due to its biological origin without causing an undesirable immunological response. Sericin protein was extracted from discharge water collected from the silk industry was purified and characterized using SDS-PAGE, FTIR, CD, SEM, DSC & TG-DTA was reported.

scholarly journals Application of a conceptual precipitation-runoff model (HYGYMODEL) in a debris-covered glacierized basin in the Langtang Valley, Nepal Himalaya

1997 ◽  
Vol 25 ◽  
pp. 226-231 ◽  
Author(s):  
Birbal Rana ◽  
Masayoshi Nakawo ◽  
Yoshihiro Fukushima ◽  
Yutaka Agkta
Keyword(s):  
Thermal Resistance ◽  
Surface Temperature ◽  
Meteorological Data ◽  
Weather Station ◽  
Nepal Himalaya ◽  
Covered Area ◽  
Debris Cover ◽  
Landsat 5 Tm ◽  
Runoff Model ◽  
Langtang Valley

A conceptual precipitation–runoff model (HYCYMODEL) is used to simulate the daily runoff from the 67% glacierized Lirung basin (16% of which is covered by debris). The average thermal resistance of the debris cover of the Lrung Glacier has been estimated from the surface temperature of the debris, which was obtained from Landsat 5 (TM Band 6) images. This enabled calculation of the melt rate of the debris-covered area of the glacier using meteorological data collected at a nearby weather station. The calculated discharge results are roughly compatible with the observed daily discharges.

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