Current Trends in the Representation of Physical Processes in Weather and Climate Models

Current Trends in the Representation of Physical Processes in Weather and Climate Models

 
Edition number: 1st ed. 2019
Publisher: Springer
Date of Publication:
Number of Volumes: 1 pieces, Book
 
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Product details:

ISBN13:9789811333958
ISBN10:9811333955
Binding:Hardback
No. of pages:372 pages
Size:235x155 mm
Weight:911 g
Language:English
Illustrations: 15 Illustrations, black & white; 162 Illustrations, color
99
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Short description:

This book focuses on the development of physical parameterization over the last 2 to 3 decades and provides a roadmap for its future development. It covers important physical processes: convection, clouds, radiation, land-surface, and the orographic effect. The improvement of numerical models for predicting weather and climate at a variety of places and times has progressed globally. However, there are still several challenging areas, which need to be addressed with a better understanding of physical processes based on observations, and to subsequently be taken into account by means of improved parameterization. And this is all the more important since models are increasingly being used at higher horizontal and vertical resolutions. Encouraging debate on the cloud-resolving approach or the hybrid approach with parameterized convection and grid-scale cloud microphysics and its impact on models? intrinsic predictability, the book offers a motivating reference guide for all researchers whose work involves physical parameterization problems and numerical models.

Long description:
This book focuses on the development of physical parameterization over the last 2 to 3 decades and provides a roadmap for its future development. It covers important physical processes: convection, clouds, radiation, land-surface, and the orographic effect. The improvement of numerical models for predicting weather and climate at a variety of places and times has progressed globally. However, there are still several challenging areas, which need to be addressed with a better understanding of physical processes based on observations, and to subsequently be taken into account by means of improved parameterization. And this is all the more important since models are increasingly being used at higher horizontal and vertical resolutions. Encouraging debate on the cloud-resolving approach or the hybrid approach with parameterized convection and grid-scale cloud microphysics and its impact on models? intrinsic predictability, the book offers a motivating reference guide for all researchers whose work involves physical parameterization problems and numerical models.
Table of Contents:

Model systematic errors in the annual cycle of monsoon: Inferences from process-based diagnostics.- Challenges in tropical numerical weather prediction at ECMWF.- Convection Initiation in Climate Models using the Heated Condensation Framework: A Review.- Cloud Microphysics Across Scales for Weather and Climate.- Microphysical representations and their consistency with in-situ and remote-sensing observations.- Convective Available Potential Energy and Precipitation in a Cloud Resolving Model Simulation of Indian Summer Monsoon.- A Gray Zone GCM with Full Representation of Cloud Microphysics.- The Stochastic Multi-cloud Model (SMCM) convective parameterization in the CFSv2 : Scopes and Opportunities.- The IITM Earth System Model (ESM): Development and Future Roadmap.- Cumulus friction in the Asian monsoon of a global model with 7km mesh.- Difficulties in the subgrid-scale redistribution of moisture of a global cloud-resolving model.- Challenges of improving the stratiform process in a coupled climate model with Indian monsoon perspective.- Current and Future Activities in Modelling & Data Assimilation at NCMRWF.- Microphysics in Goddard Multi-scale Modeling Systems: A Review.- Stochastic Representation of NCEP GEFS to Improve Subseasonal Forecast.- New Pathways for Moist Convection Parameterisation.- Land Surface Processes.