SURFACE FLOW MEASUREMENT OF SNOW MELT FLOOD BY USING A FAR INFRARED CAMERA

In order to achieve the accurate calculation of “rainfall-runoff” process combined with snowmelt and to provide a useful numerical method for estimating surface water resources in a basin, a runoff numerical calculation model of “rainfall-runoff” process combined with snowmelt was developed for a distributive hydrological model. Numerical method on “Rainfall-runoff” process was set up by applying kinematic wave theory, and calculations on snowmelt were made using energy budget method. Validity of the model was verified through numerical simulation of the observed surface flow. Results of the error analysis indicated that a large error existed between the numerical results and the observed ones without considering snowmelt whereas the error was at the permissible range of criterion (< 3 %) by considering snowmelt. The results showed that the snowmelt calculation should be considered at snow melt area when performing the runoff calculation.

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Experiments on wind-driven heat exchange processes over melting snow

10.5194/egusphere-egu21-10182 ◽

2021 ◽

Author(s):

Michael Haugeneder ◽

Tobias Jonas ◽

Dylan Reynolds ◽

Michael Lehning ◽

Rebecca Mott

Keyword(s):

Snow Cover ◽

Surface Wind ◽

Infrared Camera ◽

Snow Accumulation ◽

Internal Boundary ◽

Small Scale ◽

Snow Melt ◽

Two Dimensional ◽

Atmospheric Conditions ◽

Near Surface

Snowmelt runoff predictions in alpine catchments are challenging because of the high spatial variability of the snow cover driven by various snow accumulation and ablation processes. In spring, the coexistence of bare and snow-covered ground engages a number of processes such as the enhanced lateral advection of heat over partial snow cover, the development of internal boundary layers, and atmospheric decoupling effects due to increasing stability at the snow cover. The interdependency of atmospheric conditions, topographic settings and snow coverage remains a challenge to accurately account for these processes in snow melt models. In this experimental study, we used an Infrared Camera (VarioCam) pointing at thin synthetic projection screens with negligible heat capacity. Using the surface temperature of the screen as a proxy for the air temperature, we obtained a two-dimensional instantaneous measurement. Screens were installed across the transition between snow-free and snow-covered areas. With IR-measurements taken at 10Hz, we capture the dynamics of turbulent temperature fluctuations over the patchy snow cover at high spatial and temporal resolution. From this data we were able to obtain high-frequency, two-dimensional windfield estimations adjacent to the surface.Preliminary results show the formation of a stable internal boundary layer (SIBL), which was temporally highly variable. Our data suggest that the SIBL height is very shallow and strongly sensitive to the mean near-surface wind speed. Only strong gusts were capable of penetrating through this SIBL leading to an enhanced energy input to the snow surface.With these type of results from our experiments and further measurements this spring we aim to better understand small scale energy transfer processes over patch snow cover and it&#8217;s dependency on the atmospheric conditions, enabling to improve parameterizations of these processes in coarser-resolution snow melt models.

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Visual Awareness on Surface Flow Measurement

Computing in Civil Engineering 2017 ◽

10.1061/9780784480847.021 ◽

2017 ◽

Author(s):

Yao-Yu Yang ◽

Shih-Chung Kang

Keyword(s):

Flow Measurement ◽

Visual Awareness ◽

Surface Flow

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Development of the HAWC far-infrared camera for SOFIA

10.1117/12.552151 ◽

2004 ◽

Cited By ~ 9

Author(s):

Doyal A. Harper ◽

Arlin E. Bartels ◽

Sean C. Casey ◽

David T. Chuss ◽

Jessie L. Dotson ◽

...

Keyword(s):

Infrared Camera ◽

Far Infrared

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Development of far-infrared camera system for automotive

Infrared Technology and Applications XLV ◽

10.1117/12.2521435 ◽

2019 ◽

Author(s):

Satoru Yokoi ◽

Jun Takahashi ◽

Shigetoshi Tokita

Keyword(s):

Infrared Camera ◽

Far Infrared ◽

Camera System

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Flow structure around an actual willow patch under different depth conditions

E3S Web of Conferences ◽

10.1051/e3sconf/20184002049 ◽

2018 ◽

Vol 40 ◽

pp. 02049

Author(s):

Chanjoo Lee ◽

Donggu Kim ◽

Sungjung Kim ◽

Un Ji ◽

Jihyun Kim ◽

...

Keyword(s):

Flow Measurement ◽

Flash Flood ◽

Experimental Studies ◽

Hydrodynamic Modelling ◽

Snow Melt ◽

Key Factors ◽

Environmental Aspects ◽

Real Scale ◽

Natural Channel ◽

Made In

Vegetation is one of the key factors in river management where environmental aspects as well as flood protection should be taken into consideration. Because of this, numerous studies have been done including experiments and hydrodynamic modelling. Because most of experimental studies were made in indoor laboratory flumes with artificial trees, there are still limitations in transfer of their result to actual channels. REC (River Experiment Center) of Korea has been operating three real-scale, nature-like outdoor experimental channels. In a straight channel, several 4x2 m actual willow patches were planted and have been grown last three years for studies on flow vegetation interaction. A set of intensive flow measurement was made around the first upstream willow patch using ADVs together with measurement of vegetation properties. The experiments were made under several different depth conditions simulating snow-melt and flash-flood. Distribution of flow around and through the patch was characterized along with vertical profiles. The results of the experiment enhance understanding on interaction of flow and actual vegetation in a natural channel and may also provide information on flow resistance used for hydrodynamic modelling and validation.

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