Edward Strobach
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View article: Analysis of a June 2023 Smoke Transport over the Northeast US Caused by Wildfires in Canada- leveraging the HRRR-Smoke model predictions and remote sensing observations.
Analysis of a June 2023 Smoke Transport over the Northeast US Caused by Wildfires in Canada- leveraging the HRRR-Smoke model predictions and remote sensing observations. Open
View article: Supplementary material to "Emerging mobile lidar technology to study boundary-layer winds influenced by operating turbines"
Supplementary material to "Emerging mobile lidar technology to study boundary-layer winds influenced by operating turbines" Open
View article: Emerging mobile lidar technology to study boundary-layer winds influenced by operating turbines
Emerging mobile lidar technology to study boundary-layer winds influenced by operating turbines Open
The development of a microjoule-class pulsed Doppler lidar and deployment of this compact system on mobile platforms such as aircraft, ships, or trucks has opened a new opportunity to characterize the dynamics of complex mesoscale wind flo…
View article: Wildfire Smoke Shading Observations: Impacts on Boundary Layer Mixing and Thermally Driven Smoke Transport
Wildfire Smoke Shading Observations: Impacts on Boundary Layer Mixing and Thermally Driven Smoke Transport Open
Smoke shading from wildfire smoke cools the surface and atmosphere below the smoke by absorbing and scattering sunlight. This has the potential to create meteorological feedback and large air quality impacts, but observations of smoke shad…
View article: The 3D Dynamics of a Wildfire Plume Extending Across the Top of the Planetary Boundary Layer Using an Airborne Doppler Lidar
The 3D Dynamics of a Wildfire Plume Extending Across the Top of the Planetary Boundary Layer Using an Airborne Doppler Lidar Open
As wildfire pervasiveness increases with a changing climate, there is a need to develop new techniques with emerging technologies to understand the interaction between wildfires and the surrounding atmosphere at a high spatiotemporal resol…
View article: The 3D Dynamics of a Wildfire Plume Contained Within the Planetary Boundary Layer Using an Airborne Doppler Lidar
The 3D Dynamics of a Wildfire Plume Contained Within the Planetary Boundary Layer Using an Airborne Doppler Lidar Open
As wildfire pervasiveness increases with a changing climate, there is a need to develop new techniques with emerging technologies to understand the interaction between wildfires and the surrounding atmosphere at a high spatiotemporal resol…
View article: An air quality and boundary layer dynamics analysis of the Los Angeles basin area during the Southwest Urban NO <sub> <i>x</i> </sub> and VOCs Experiment (SUNVEx)
An air quality and boundary layer dynamics analysis of the Los Angeles basin area during the Southwest Urban NO <sub> <i>x</i> </sub> and VOCs Experiment (SUNVEx) Open
The NOAA Chemical Sciences Laboratory (CSL) conducted the Southwest Urban NOx and VOCs Experiment (SUNVEx) to study emissions and the role of boundary layer (BL) dynamics and sea-breeze (SB) transitions in the evolution of coastal air qual…
View article: A Case Study Featuring the Time Evolution of a Fire‐Induced Plume Jet Over the Rum Creek Fire: Mechanisms, Processes, and Dynamical Interplay
A Case Study Featuring the Time Evolution of a Fire‐Induced Plume Jet Over the Rum Creek Fire: Mechanisms, Processes, and Dynamical Interplay Open
Results are presented from the Rum Creek fire during the California Fire Dynamics Experiment (CalFiDE). An instrumented payload aboard the NOAA Twin Otter (TO) aircraft, which included a scanning micro‐pulsed Doppler lidar (DL) and in situ…
View article: Reply on RC1
Reply on RC1 Open
Abstract. The NOAA Chemical Sciences Laboratory (CSL) conducted the Southwest Urban NOx and VOCs Experiment (SUNVEx) to study emissions and the role of boundary layer (BL) dynamics and seabreeze (SB) transitions…
View article: An Air Quality and Boundary Layer Dynamics Analysis of the Los Angeles Basin Area During the Southwest Urban NOx and VOCs Experiment (SUNVEx)
An Air Quality and Boundary Layer Dynamics Analysis of the Los Angeles Basin Area During the Southwest Urban NOx and VOCs Experiment (SUNVEx) Open
The NOAA Chemical Sciences Laboratory (CSL) conducted the Southwest Urban NOx and VOCs Experiment (SUNVEx) to study emissions and the role of boundary layer (BL) dynamics and seabreeze (SB) transitions on the time evolution of coastal air …
View article: Measuring Coupled Fire–Atmosphere Dynamics: The California Fire Dynamics Experiment (CalFiDE)
Measuring Coupled Fire–Atmosphere Dynamics: The California Fire Dynamics Experiment (CalFiDE) Open
The social, economic, and ecological impacts of wildfires are increasing over much of the United States and globally, partially due to changing climate and build-up of fuels from past forest management practices. This creates a need to imp…
View article: Case study of a bore wind-ramp event from lidar measurements and HRRR simulations over ARM Southern Great Plains
Case study of a bore wind-ramp event from lidar measurements and HRRR simulations over ARM Southern Great Plains Open
The rapid change of wind speed and direction on 21 August 2017 is studied using Doppler lidar measurements at five sites of the Atmospheric Radiation Measurement (ARM) Southern Great Plains (SGP) facility in north-central Oklahoma. The Dop…
View article: Measurements and Model Improvement: Insight into NWP Model Error Using Doppler Lidar and Other WFIP2 Measurement Systems
Measurements and Model Improvement: Insight into NWP Model Error Using Doppler Lidar and Other WFIP2 Measurement Systems Open
Doppler-lidar wind-profile measurements at three sites were used to evaluate NWP model errors from two versions of NOAA’s 3-km-grid HRRR model, to see whether updates in the latest version 4 reduced errors when compared against the origina…
View article: Isolating and Investigating Updrafts Induced by Wildland Fires Using an Airborne Doppler Lidar During FIREX‐AQ
Isolating and Investigating Updrafts Induced by Wildland Fires Using an Airborne Doppler Lidar During FIREX‐AQ Open
Understanding the complex dynamical interactions that occur during the evolution of a wildland fire still remains a challenge within the research community. Processes such as entrainment, the incident wind field, the interaction between ne…
View article: Doppler Lidar Measurements of Wind Variability and LLJ Properties in Central Oklahoma during the August 2017 Land–Atmosphere Feedback Experiment
Doppler Lidar Measurements of Wind Variability and LLJ Properties in Central Oklahoma during the August 2017 Land–Atmosphere Feedback Experiment Open
Low-level jets (LLJs) are an important nocturnal source of wind energy in the U.S. Great Plains. An August 2017 lidar-based field-measurement campaign [the Land–Atmosphere Feedback Experiment (LAFE)] studied LLJs over the central SGP site …
View article: Development and evaluation of an advanced National Air Quality Forecasting Capability using the NOAA Global Forecast System version 16
Development and evaluation of an advanced National Air Quality Forecasting Capability using the NOAA Global Forecast System version 16 Open
A new dynamical core, known as the Finite-Volume Cubed-Sphere (FV3) and developed at both NASA and NOAA, is used in NOAA's Global Forecast System (GFS) and in limited-area models for regional weather and air quality applications. NOAA has …
View article: Analysis of NO2 and O3 variation in 2020 and 2021 and application to evaluate the GFS-CMAQ model forecast in New York city&#160;
Analysis of NO2 and O3 variation in 2020 and 2021 and application to evaluate the GFS-CMAQ model forecast in New York city  Open
<p>The US National Ambient Air Quality Standard (NAAQS) dictates the limits on atmospheric pollutants, including the tropospheric ozone (O<sub>3</sub>). Its exceedance of the limit typically happens in the summer because …
View article: Comment on gmd-2021-316
Comment on gmd-2021-316 Open
Abstract. A new dynamical core, known as the Finite-Volume Cubed-Sphere (FV3) and developed at both NASA and NOAA, is used in NOAA's Global Forecast System (GFS) and in limited-area models for regional weather and air qual…
View article: Review of &amp;#8220;Development and evaluation of an advanced National Air Quality Forecast Capability using the NOAA Global Forecast System version 16&amp;#8221; by Campbell et al.
Review of &#8220;Development and evaluation of an advanced National Air Quality Forecast Capability using the NOAA Global Forecast System version 16&#8221; by Campbell et al. Open
Abstract. A new dynamical core, known as the Finite-Volume Cubed-Sphere (FV3) and developed at both NASA and NOAA, is used in NOAA's Global Forecast System (GFS) and in limited-area models for regional weather and air qual…
View article: The California Fire Dynamics Experiment (CalFiDE): Developing Validation Data Sets for Coupled Fire-Atmosphere Simulations
The California Fire Dynamics Experiment (CalFiDE): Developing Validation Data Sets for Coupled Fire-Atmosphere Simulations Open
The California Fire Dynamics Experiment (CalFiDE) is a 6-week study of wildfire behavior and its response to spatially and temporally evolving wind fields in California, USA. It is the result of a partnership between the Chemical Sciences …
View article: Lidar Instrumentation for the California Fire Dynamics Study
Lidar Instrumentation for the California Fire Dynamics Study Open
The California Fire Dynamics Study (CalFiDE) is a collaborative effort between the Chemical Sciences Laboratory (CSL) at National Oceanic and Atmospheric Administration (NOAA), Wildfire Interdisciplinary Research Center (WIRC) at San Jose …
View article: Development and evaluation of an advanced National Air Quality Forecast Capability using the NOAA Global Forecast System version 16
Development and evaluation of an advanced National Air Quality Forecast Capability using the NOAA Global Forecast System version 16 Open
A new dynamical core, known as the Finite Volume Cubed-Sphere (FV3) and developed at both NASA and NOAA, is used in NOAA’s Global Forecast System (GFS) and in limited area models (LAMs) for regional weather and air quality applications. NO…
View article: A Limited Area Modeling Capability for the Finite‐Volume Cubed‐Sphere (FV3) Dynamical Core and Comparison With a Global Two‐Way Nest
A Limited Area Modeling Capability for the Finite‐Volume Cubed‐Sphere (FV3) Dynamical Core and Comparison With a Global Two‐Way Nest Open
The development of a limited area model (LAM) capability for the nonhydrostatic Finite‐Volume Cubed‐Sphere (FV3) dynamical core is described and compared with a globally nested approach featuring two‐way feedback. Comparisons of the comput…
View article: Single Column Model Evaluations of Mixing Length Formulations and Constraints for the sa-TKE-EDMF Scheme
Single Column Model Evaluations of Mixing Length Formulations and Constraints for the sa-TKE-EDMF Scheme Open
View article: THE IMPACT OF COASTAL TERRAIN ON OFFSHORE WIND AND IMPLICATIONS FOR WIND ENERGY
THE IMPACT OF COASTAL TERRAIN ON OFFSHORE WIND AND IMPLICATIONS FOR WIND ENERGY Open
The development of offshore wind energy is moving forward as one of several options for carbon-free energy generation along the populous US east coast. Accurate assessments of the wind resource are essential and can significantly lower fin…
View article: Assessing State-of-the-Art Capabilities for Probing the Atmospheric Boundary Layer: The XPIA Field Campaign
Assessing State-of-the-Art Capabilities for Probing the Atmospheric Boundary Layer: The XPIA Field Campaign Open
To assess current capabilities for measuring flow within the atmospheric boundary layer, including within wind farms, the U.S. Department of Energy sponsored the eXperimental Planetary boundary layer Instrumentation Assessment (XPIA) campa…