Abstract
Abstract High-altitude balloons and rockets are regularly launched at the Esrange Space Center (ESC) in Kiruna, Sweden, with the aim of retrieving atmospheric data for meteorological and space studies in the Arctic region. Meteorological conditions, particularly wind direction and speed, play a critical role in the decision of whether to go ahead with or postpone a planned launch. Given the lack of high-resolution wind forecasts for this remote region, the Weather Research and Forecasting (WRF) Model is used to downscale short-term forecasts given by the Global Forecast System (GFS) for the ESC for six 5-day periods in the warm, cold, and transition seasons. Three planetary boundary layer (PBL) schemes are considered: the local Mellor–Yamada–Janjić (MYJ), the nonlocal Yonsei University (YSU), and the hybrid local–nonlocal Asymmetric Convective Model 2 (ACM2). The ACM2 scheme is found to provide the most skillful forecasts. An analysis of the WRF Model output against the launch criteria for two of the most commonly launched vehicles, the sounding rockets Veículo de Sondagem Booster-30 (VSB-30) and Improved Orion, reveals probability of detection (POD) values that always exceeds 60% with the false alarm rate (FAR) generally below 50%. It is concluded that the WRF Model, in its present configuration, can be used to generate useful 5-day wind forecasts for the launches of these two rockets. The conclusions reached here are applicable to similar sites in the Arctic and Antarctic regions.
Highlights
The Esrange Space Center is located at ;67.888N and 21.058E in Swedish Lapland and around 200 km north of the Arctic Circle
The lowest critical success index (CSI) obtained for Veículo de Sondagem Booster-30 (VSB-30) are ;20% for the last forecast day in the summer season and first forecast day in the winter season while for the Improved Orion rocket the CSIs are above 50% for all seasons
The Weather Research and Forecasting (WRF) Model is used to generate wind forecasts for the Esrange Space Center (ESC) (;67.888N, 21.058E), where rockets and balloons are regularly launched with the aim of retrieving atmospheric data for meteorological and space studies
Summary
The Esrange Space Center (hereafter ESC) is located at ;67.888N and 21.058E in Swedish Lapland and around 200 km north of the Arctic Circle. This study has two goals: 1) test different model configurations and determine the one that gives the most skillful wind forecasts for use in subsequent simulations and 2) check whether the WRF wind forecasts can be used for go/ no-go decisions for the two most commonly launched vehicles at the ESC. This manuscript is divided into six sections.
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