Analysis of Flow in Complex Terrain Using Multi-Doppler Lidar Retrievals

Autor: Petra M. Klein, Robert Menke, Tyler M. Bell, Norman Wildmann
Jazyk: angličtina
Rok vydání: 2019
Předmět:
Zdroj: Bell, T M, Klein, P, Wildmann, N & Menke, R 2020, ' Analysis of flow in complex terrain using multi-Doppler lidar retrievals ', Atmospheric Measurement Techniques, vol. 13, no. 3, pp. 1357-1371 . https://doi.org/10.5194/amt-13-1357-2020
Atmospheric Measurement Techniques, Vol 13, Pp 1357-1371 (2020)
ISSN: 1867-8548
Popis: The Perdigão Field Experiment set out to study atmospheric flows in complex terrain and to collect a high-quality dataset for the validation of meso- and micro-scale models. An Intensive Observation Period (IOP) was conducted from May 1, 2017 through June 15, 2017 where a multitude of meteorological instruments were deployed in a study area with the unique feature of two nearly parallel, 5 km long ridges separated by a 1.4 km wide valley perpendicular to the prevalent wind directions in the region. An essential part of the instrumentation were scanning Doppler lidars (DL) strategically placed to capture flow features above the ridges and in the valley. The arrangement of DLs presented an opportunity to create virtual towers where range height indicator (RHI) scans of individual instruments intersected. By combining DLs it is possible to retrieve multiple snapshots of the wind field in the form of a virtual tower. In total, four virtual towers distributed along the valley are retrieved every 15 minutes. The virtual towers typically cover heights from 50 m to 600 m above the valley floor. The Perdigão project also included a network of meteorological towers of different heights with wind measurements at an exceptionally high density (55 towers with 195 sonic anemometers) that are critical for studying turbulent exchange processes but provide only limited information about the complex interactions between the flow inside the valley and higher up across the ridges. The virtual towers extend the range of traditional in-situ observations and can fill in low altitude areas where traditional lidar processing techniques may have trouble retrieving accurate wind speeds due to the high spatial flow variability and prevalence of significant vertical motions in complex terrain. Along with the wind speed and direction, uncertainties of the virtual tower retrieval were analyzed. A case study of a nighttime stable boundary-layer flow with wave features in the valley is presented to illustrate the usefulness of the virtual towers in analyzing the spatially complex flow over the ridges during the Perdigão campaign.
Databáze: OpenAIRE