3D-modelling of the thermal circumstances of a lake under artificial aeration

Tian, Xiaoqing; Pan, Huachen; Köngäs, Petrina; Horppila, Jukka

doi:10.1007/s13201-017-0577-6

Cited by 3 publications

(1 citation statement)

References 25 publications

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“…From a lake management perspective, simulating the vertical diffusion coefficient may also help in the design of infrastructure for lake water-quality management and restoration efforts. Hypolimnetic aeration by water transfer between epi-and hypolimnion (Tian, Pan, Köngäs, & Horppila, 2017) or by bubble plume diffusers (Gantzer, Bryant, & Little, 2009) requires a quantitative estimate and solid planning for the necessary aeration intensities (Tian et al, 2017). Understanding the dynamics of vertical diffusion can provide guidance regarding the amount of aeration required and the layer of the lake to which the aeration should be applied.…”

Section: Limnological Processes and Lake Ecosystem Dynamicsmentioning

confidence: 99%

Assessing vertical diffusion in a stratified lake using a three‐dimensional hydrodynamic model

Dong

Hupfer

et al. 2019

Hydrological Processes

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Vertical turbulent diffusivity (K z ), which can be estimated from water temperature, is a key factor in the evolution of water quality in lentic waters. In this study, we analysed the capability of a three-dimensional hydrodynamic model (EFDC) to capture water temperature and vertical diffusivity in Lake Arendsee in the Northern German plain. Of particular interest to us is to evaluate the model performance for capturing the diffusion minimum within the metalimnion and analyse the response of the metalimnetic K z to meteorological forcing, namely changing wind speed and warming. The comparison confirmed that the calibrated model could reproduce both stratification dynamics and vertical diffusion profiles in the lake. The model was also shown to be able to capture the duration and vertical extent of the metalimnetic diffusion minimum. The scenario results illustrate that, compared to air temperature, wind velocity appeared to be the more influential meteorological variable on the vertical exchange within the metalimnion. While increasing wind velocities mostly affected the minimum values of K z in the metalimnion and thus led to intensified vertical exchange, the reduction of wind velocity mostly affected the depth of minimal K z , but not its absolute value.

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Section: Limnological Processes and Lake Ecosystem Dynamicsmentioning

confidence: 99%

Assessing vertical diffusion in a stratified lake using a three‐dimensional hydrodynamic model

Dong

Hupfer

et al. 2019

Hydrological Processes

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Experimental study on parametric configurations of artificially downwelling aerations in stratified water

Tian,

Wang,

Zhang

et al. 2023

Appl Water Sci

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Downwelling aeration has become a widely applied approach to cope with the water eutrophication in stratified reservoirs, rivers and lakes. The aeration parameters involving flow rate, flow locations and working periodicity and their impacts on the temperature and dissolved oxygen (DO) distributions of water have been largely unclarified, causing extra time and energy consumptions in practice. In this study, a home-built water tank and an aeration pump are used to model the downwelling aeration processes in stratified water. Temporal influences of aeration parameters on the water stratifications and eutrophicated elements are systemically investigated, with the purpose of searching parametric configurations to enhance the anti-eutrophication efficiency. It is found that the variation rates of temperature destratification and DO distribution in the water body could be saturated and strongly correlated with the flow rate. Based on such experimental saturation rates, we find an optimized working condition from the aspect of energy saving: a 300 rpm pump speed and a 15 cm distance between the flow exit and the sediment surface. In such conditions, the total nitrogen and phosphorus dissolved in the bottom layer of water decrease exponentially with aeration time, and can be reduced by 53.8 and 86% in the first 6 h of aerations, respectively, taking full advantage of the microbial bonding to the sedimentations. The present work provides better understandings for efficient implementations of downwelling aerations.

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Possibilities of Improving Water Quality of Degraded Lake Affected by Nutrient Overloading from Agricultural Sources by the Multi-Point Aeration Technique

et al. 2023

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This research concerns the restoration of the strongly eutrophied Lake Łajskie (Masurian Lake District, Poland) that received pollutants from the agricultural catchment. It is a shallow (max depth 7.4 m) and small (area 48 ha) reservoir with a wide profundal zone characterized by complete deoxidation in summer. Due to its important natural and social role, the lake has undergone a restoration process. Artificial oxygenation is the main method of improving water quality. Due to unfavorable morphometric conditions, the necessity to use multi-point aeration was assumed. An experimental installation based on eight reactors selectively oxygenating only the over-bottom waters was launched in 2019. In 2021, spatial studies of the effectiveness of aerators’ work were carried out at 96 measuring points grouped into 12-test fields around each reactor. The investigations were performed three times during the summer season. It was shown that, in the water of the deepest layers of Lake Łajskie, the oxygen concentration around all reactors increased to an average level of 1–2 mg L−1. The oxygenation efficiency was varied and related to the distance from the aerator and the location in relation to the direction of oxygenated water outflow. The results of the research indicate the legitimacy of designing multi-point oxygenation systems in the restoration of waterbodies degraded as a result of the impact of agriculturally transformed catchments.

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3D-modelling of the thermal circumstances of a lake under artificial aeration

Cited by 3 publications

References 25 publications

Assessing vertical diffusion in a stratified lake using a three‐dimensional hydrodynamic model

Assessing vertical diffusion in a stratified lake using a three‐dimensional hydrodynamic model

Experimental study on parametric configurations of artificially downwelling aerations in stratified water

Possibilities of Improving Water Quality of Degraded Lake Affected by Nutrient Overloading from Agricultural Sources by the Multi-Point Aeration Technique

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