Internal wave generation in lakes with very slow flow

Author

Gordon, Lee ; Lohrmann, Atle ; Jonas, Tobias

Author_Institution

Nortek USA, San Diego, CA, USA

fYear

1999

fDate

11-13 Mar 1999

Firstpage

212

Lastpage

215

Abstract

A high-resolution acoustic Doppler profiler (HR-ADP), deployed at about 8.5 m depth in Lake Soppensee, Switzerland, observed mean velocities, shear, and internal waves over a depth range of about 4 m. The results suggest that, in spite of maximum velocities less than 15 mm/s, there is shear-induced internal wave generation and mixing around the thermocline. In particular, the authors observe enhanced internal waves underneath the mixed layer at frequencies bounded by the local buoyancy frequency, and a layer, 0.5-m thick, of critical Richardson´s number at the base of the mixed layer. The HR-ADP is a pulse-to-pulse coherent Doppler sonar which uses a new, more robust means of signal processing to obtain velocity. Based on the noise spectrum, they conclude the measurement uncertainty in this experiment ranges from 0.3 to 1 mm/s

Keywords

hydrological techniques; lakes; sonar; HR-ADP; Lake Soppensee; Richardson´s number; Switzerland; acoustic Doppler profiler; dynamics; high-resolution acoustic Doppler profiler; internal wave generation; lake; mean velocity; measurement technique; measurement uncertainty; mixing; shear; sonar; thermocline; very slow flow; Acoustic waves; Doppler measurements; Frequency; Lakes; Limiting; Measurement uncertainty; Noise robustness; Physics; Signal processing; Sonar measurements;

fLanguage

English

Publisher

ieee

Conference_Titel

Current Measurement, 1999. Proceedings of the IEEE Sixth Working Conference on

Conference_Location

San Diego, CA

Print_ISBN

0-7803-5505-9

Type

conf

DOI

10.1109/CCM.1999.755242

Filename

755242