HelioWebTimothy W. Juliano
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A[Timothy W. Juliano]
AC["Associated Concepts (25)"]
AW["Authored Works (16)"]
CA["Linked Co-Authors (17)"]
CI["Linked Collaborating Institutions (12)"]
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AW== author ==>CA
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click AW "#authored-works"
click CA "#co-authors"
click CI "#collaborating-institutions"
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- ORCiD
- https://orcid.org/0000-0003-0417-0886
- OpenAlex ID
- https://openalex.org/A5019181347 (API record)
Associated Concepts [?]
- Physics
- Geography
- Meteorology
- Geology
- Environmental science
- Engineering
- Climatology
- Atmospheric sciences
- Thermodynamics
- Biology
- Aerospace engineering
- Mechanics
- Computer science
- Ecology
- Oceanography
- Chemistry
- Organic chemistry
- Quantum mechanics
- Mathematics
- Weather Research and Forecasting Model
- Mesoscale meteorology
- Boundary layer
- Astronomy
- Turbulence
- Cartography
Authored Works
sorted by decreasing year, and then by display-name
- The Role of Fire-induced Turbulence on Ember Transport
- The Organization and Vertical Structure of Shallow Convection in Marine Cold Air Outbreaks, based on the Cold-Air Outbreaks in the Marine Boundary Layer Experiment (COMBLE)
- The Effects of Fuel Characteristics on Simulated Fire Dynamics using WRF-Fire
- Synergistic Integration of Wildfire Models to Simulate Fire Spread in the Wildland Urban Interface
- Requirements, Uncertainties, and Challenges in Coupled Fire Weather - Fire Behavior Forecasting
- Large-Scale Dynamical Forcing Considerations for Lagrangian Large-Eddy Simulations of Arctic Cloud Transitions
- Impact of High-resolution Mesoscale and Atmospheric Stability on predicting Offshore Wind in the Northeast Atlantic Cluster
- A Data Assimilation Approach for Improved Operational Wildland Fire Forecasting using WRF-Fire
- Study of a polar low in Norwegian Sea using COMBLE observations and numerical modeling
- Smoke Aerosols Hinder Solar Irradiance Forecasts during the 2020 Western US Wildfires
- Modeled Boundary Layer and Cloud Properties Observed during the 28-29 March 2020 Cold-Air Outbreaks in the Marine Boundary Layer Experiment (COMBLE) Event
- Machine Learning, Process-Based Modeling, and Observational Data: the Wildfire Modeling Triangle
- Cloud and Environmental Conditions of the Late-March Marine Cold-Air Outbreak during COMBLE: An Observational Case Study
- Assessment of WRF-Fires Forecasting Skill on Large Wildfires
- An idealized study of fire emissions impact on pyroconvective clouds with WRF-Fire
- Advances, Challenges, and Opportunities, in Coupled Wildland Fire Simulations
Linked Co-Authors
- Bart Geerts
- Branko Kosović
- E. J. Hyer
- James T. Randerson
- Kasra Shamsaei
- Larry K. Berg
- Lulin Xue
- M. E. Frediani
- Marina Astitha
- Masih Eghdami
- Michael J. Koontz
- Mikhail Ovchinnikov
- Mukesh Kumar
- Neil P. Lareau
- Peng Wu
- Tirtha Banerjee
- Xinxin Ye
Linked Collaborating Institutions
- Duke University, North Carolina
- National Center for Atmospheric Research, Colorado
- Pacific Northwest National Laboratory
- Pennsylvania State University
- SUNY Buffalo, New York
- SUNY Oswego, New York
- University of California, Irvine
- University of California, Los Angeles
- University of Colorado, Boulder
- University of Connecticut
- University of Nevada, Reno
- University of Wyoming
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