Sensitivity of the WRF model to PBL parametrisations and nesting techniques: evaluation of wind storms over complex terrain

Gómez-Navarro, Juan José; Raible, Christoph C.; Dierer, Silke

doi:10.5194/gmd-8-3349-2015

Cited by 83 publications

(50 citation statements)

References 55 publications

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“…This hypothesis is also verified by the ME analysis of the simulated geopotential height at different levels (data not shown). Furthermore, a very consistent result was the overestimation of wind in the CTL, and was in good agreement with previous studies [20,33,44], which believed that it was partly due to the poor representation of the unresolved topography. Gómez-Navarro et al [20] pointed out that the bias could be reduced effectively by a change of PBL scheme, the use of nudging, and improvement of horizontal resolution.…”

Section: Discussionsupporting

confidence: 79%

“…Recently, research on the nudging application and comparison of two nudging schemes (grid nudging and spectral nudging) has been very common [17][18][19][20][21][22][23]; however, a consistent conclusion is still lacking. Logically, spectral nudging is superior to grid nudging [24], but many findings [17,22,23] have shown that, in some cases, grid nudging is better than spectral nudging.…”

Section: Introductionmentioning

confidence: 99%

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Impact of Grid Nudging Parameters on Dynamical Downscaling during Summer over Chinese Mainland

Mai¹,

Ma²,

Yang³

et al. 2017

Preprint

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Abstract:The grid nudging technique is often used in regional climate dynamical downscaling to make the simulated large-scale fields consistent with the driving fields. In this study, we focused on two specific questions about grid nudging: (1) which nudged variable has a larger impact on the downscaling results; and (2) what is the "optimal" grid nudging strategy for each nudged variable to achieve better downscaling result during summer over the mainland China. To solve these queries, 41 three-month-long simulations for the summer of 2009 and 2010 were performed using the Weather Research and Forecasting model (WRF) to downscale National Centers for Environmental Prediction (NCEP) Final Operational Global Analysis (FNL) data to a 30-km horizontal resolution. The results showed that nudging horizontal wind or temperature had significant influence on the simulation of almost all conventional meteorological elements, while nudging water vapor mainly affected the precipitation, humidity, and 500 hPa temperature. As a whole, the optimal nudging time was one hour or three hours for nudging wind, three hours for nudging temperature, and one hour for nudging water vapor. The optimal nudged level was above the planetary boundary layer for almost every nudged variable. Despite these findings, it should be noted that the optimum nudging scheme varied with simulated regions and layers, and dedicated research for different regions, seasons, and model configuration is advisable.

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Section: Discussionsupporting

confidence: 79%

Section: Introductionmentioning

confidence: 99%

Impact of Grid Nudging Parameters on Dynamical Downscaling during Summer over Chinese Mainland

Mai¹,

Ma²,

Yang³

et al. 2017

Preprint

View full text Add to dashboard Cite

show abstract

“…). A standard resolution for present‐day and future RCMs is 10–25 km, and is increased to 1–3 km for specific applications . For paleoclimate applications, the spatial resolution has usually been limited to about 50 km due to the demand of longer simulation periods, requiring a high amount of computational resources.…”

Section: Models and Boundary Conditionsmentioning

confidence: 99%

Perspectives of regional paleoclimate modeling

Ludwig

Gómez-Navarro

Pinto

et al. 2018

Annals of the New York Academy of Sciences

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Regional climate modeling bridges the gap between the coarse resolution of current global climate models and the regional-to-local scales, where the impacts of climate change are of primary interest. Here, we present a review of the added value of the regional climate modeling approach within the scope of paleoclimate research and discuss the current major challenges and perspectives. Two time periods serve as an example: the Holocene, including the Last Millennium, and the Last Glacial Maximum. Reviewing the existing literature reveals the benefits of regional paleo climate modeling, particularly over areas with complex terrain. However, this depends largely on the variable of interest, as the added value of regional modeling arises from a more realistic representation of physical processes and climate feedbacks compared to global climate models, and this affects different climate variables in various ways. In particular, hydrological processes have been shown to be better represented in regional models, and they can deliver more realistic meteorological data to drive ice sheet and glacier modeling. Thus, regional climate models provide a clear benefit to answer fundamental paleoclimate research questions and may be key to advance a meaningful joint interpretation of climate model and proxy data.

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“…The choice of groupings was based mainly on two criteria: (1) it was possible to form groups with at least six members in each group and (2) each of the options was highlighted in the literature as being important for model performance (Hahmann et al, 2015b;Gómez-Navarro et al, 2015;Carvalho et al, 2012;Draxl et al, 2014). Several other setup options were considered: MM, LSM, land cover, spin-up time, and data set used for initial and boundary conditions, but either it was not possible to group them in a meaningful way, or they were deemed of too little importance based on previous studies.…”

Section: Relating Performance To Model Setupmentioning

confidence: 99%

“…They showed that the Pleim-Xiu SL scheme (Pleim, 2006) combined with the ACM2 PBL scheme (Pleim, 2007b) gave the smallest errors for wind speed and wind energy production estimates across the sites, while the quasi-normal scale elimination (QNSE) SL and PBL schemes (Sukoriansky et al, 2005) gave smaller errors for offshore sites. In a similar study, Gómez-Navarro et al (2015) analyzed the sensitivities of the WRF model to the choice of PBL scheme and grid spacing in complex terrain in Switzerland. They found that using a modified version of the YSU PBL scheme, which accounts for effects of unresolved topography (Jiménez and Dudhia, 2012), in combination with the smallest grid spacing (2 km) and analysis nudging gave the best agreements with measurements during a number of wind storms.…”

Section: Introductionmentioning

confidence: 99%

An intercomparison of mesoscale models at simple sites for wind energy applications

et al. 2017

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Abstract. Understanding uncertainties in wind resource assessment associated with the use of the output from numerical weather prediction (NWP) models is important for wind energy applications. A better understanding of the sources of error reduces risk and lowers costs. Here, an intercomparison of the output from 25 NWP models is presented for three sites in northern Europe characterized by simple terrain. The models are evaluated using a number of statistical properties relevant to wind energy and verified with observations. On average the models have small wind speed biases offshore and aloft ( < 4 %) and larger biases closer to the surface over land (> 7 %). A similar pattern is detected for the inter-model spread. Strongly stable and strongly unstable atmospheric stability conditions are associated with larger wind speed errors. Strong indications are found that using a grid spacing larger than 3 km decreases the accuracy of the models, but we found no evidence that using a grid spacing smaller than 3 km is necessary for these simple sites. Applying the models to a simple wind energy offshore wind farm highlights the importance of capturing the correct distributions of wind speed and direction.

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Sensitivity of the WRF model to PBL parametrisations and nesting techniques: evaluation of wind storms over complex terrain

Cited by 83 publications

References 55 publications

Impact of Grid Nudging Parameters on Dynamical Downscaling during Summer over Chinese Mainland

Impact of Grid Nudging Parameters on Dynamical Downscaling during Summer over Chinese Mainland

Perspectives of regional paleoclimate modeling

An intercomparison of mesoscale models at simple sites for wind energy applications

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