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Air quality [Lecture notes]
Molen, M.K. van der \ Krol, M.C. \ Hove, L.W.A. van \ Visser, S. \ 2010
meteorology - atmosphere - air pollution - air quality - greenhouse effect - acid deposition - eutrophication - ozone - aerosols - textbooks - ozone layer

Used in course: MAQ-11306 Air Quality
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Air quality : practical manual [Lecture notes] - Edition July 2017
Molen, M.K. van der \ Krol, Maarten \ Hove, L.W.A. van \ 2017

Used in course: MAQ-11306 Air Quality
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Air quality and atmospheric chemistry [Lecture notes]
Krol, M. \ Hofschreuder, P. \ 2009
air pollution - air pollutants - air quality - nitrogen dioxide - atmosphere - monitoring - computer software - models - environmental monitoring

Used in course: MAQ-11306 Air Quality
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Air quality and atmospheric chemistry [Lecture notes]
Slanina, J. \ Krol, M. \ 2009
air quality - air pollution - chemistry - atmosphere - chemical compounds

Used in course: MAQ-11306 Air Quality
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Atmosphere-vegetation-soil interactions [Lecture notes] - Edition 2016/2017
Moene, A.F. \ Dam, J.C. van \ 2017

Used in course: MAQ-22806 Atmosphere-Vegetation-Soil Interactions
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Atmospheric boundary layer : integrating air chemistry and land interactions [Monograph]
Vilà-Guerau de Arellano, J. \ Heerwaarden, C.C. van \ Stratum, B.J.H. van \ Dries, K. van den \ 2015
atmospheric boundary-layer - atmosphere - physics - chemistry - plant physiology - vegetation - soil science - meteorology - agricultural meteorology - hydrology - textbooks - Atmospheric chemistry - Boundary layer (Meteorology)

This textbook provides an introduction to the interactions between the atmosphere and the land for advanced undergraduate and graduate students and a reference text for researchers in atmospheric physics and chemistry, hydrology, and plant physiology. The combination of the book, which provides the essential theoretical concepts, and the associated interactive Chemistry Land-surface Atmosphere Soil Slab (CLASS) software, which provides hands-on practical exercises and allows students to design their own numerical experiments, will prove invaluable for learning about many aspects of the soil-vegetation-atmosphere system. This book has a modular and flexible structure, allowing instructors to accommodate it to their own learning-outcome needs.


Used in course: MAQ-32306 Boundary-layer Processes; YEI-30306 Interdisciplinary Topics in Earth and Environment; MAQ-34806 Atmospheric Composition and Air Quality; MAQ-11306 Air Quality; MAQ-51306 Clouds in Present and Changing Climate; MAQ-31806 Atmospheric Modelling
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Atmospheric boundary layer: integrating chemistry and land interactions [Lecture notes]
Vilà-Guereau de Arellano, J. \ Heerwaarden, C.C. van \ Stratum, B.J.H. van \ Dries, K. van den \ 2014
atmospheric boundary-layer - boundary-layer meteorology - atmosphere - vegetation - soil

Used in course: MAQ-32306 Boundary-layer Processes
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Atmospheric chemistry and air quality : exercises and practicum manuals [Lecture notes]
Krol, M.C. \ Peters, W. \ Boersma, K.F. \ 2014
air pollutants - air pollution - emission - atmosphere

Used in course: MAQ-34806 Atmospheric Composition and Air Quality
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Atmospheric modelling [Lecture notes]
Steeneveld, G.J. \ Vilà, J. \ Kleczek, M. \ Dries, K. van den \ Holtslag, B. \ Sterk, M. \ Theeuwes, N. \ 2015
atmosphere - modeling - meteorology - climate - models

Used in course: MAQ-31806 Atmospheric Modelling
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Atmospheric science : an introductory survey [Monograph] - 2nd ed
Wallace, J.M. \ Hobbs, P.V. \ 2006
meteorology - atmosphere - thermodynamics - radiation - clouds - weather - boundary layer

Wallace and Hobbs' original edition of "Atmospheric Science" helped define the field nearly 30 years ago, and has served as the cornerstone for most university curriculums. Now students and professionals alike can use this updated classic to understand atmospheric phenomena in the context of the latest discoveries and technologies, and prepare themselves for more advanced study and real-life problem solving. "Atmospheric Science, Second Edition", has been completely revamped in terms of content and appearance. t contains new chapters on atmospheric chemistry, the Earth system,climate, and the atmospheric boundary layer, as well as enhanced treatment of atmospheric dynamics, weather forecasting, radiative transfer, severe storms, and human impacts, such as global warming. The authors illustrate concepts with colorful state-of-the-art imagery and cover a vast amount of new information in the field. They have also developed several online materials for instructors who adopt the text. 1. Introduction and Overview 2. The Earth System 3. Atmospheric Thermodynamics 4. Radiative Transfer 5. Atmospheric Chemistry 6. Cloud Microphysics 7. Atmospheric Dynamics 8. Weather Systems 9. The Atmospheric Boundary Layer 10. Climate Dynamics


Used in course: MAQ-21806 Meteorology and Climate
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Atmospheric science for environmental scientists [Monograph]
Hewitt, C.N. \ Jackson, A.V. \ 2009
atmosphere - climatology - meteorology - biogeochemistry - air pollution - climatic change - textbooks - air quality - Environmental sciences - Atmospheric physics - Environmental sciences

This book gives undergraduate and graduate students and professionals working in the science and policy of pollution, climate change and air quality a broad and up-to-date account of our understanding of the processes that occur in the atmosphere, how these are changing as Man’s relentless use of natural resources continues and what effects these changes are having on the Earth’s climate and the quality of the air we breath.


Used in course: MAQ-11306 Air Quality
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Boundary layer processes [Lecture notes] - Edition 2015-2016
Vilà, Jordi \ Ouwersloot, Huug \ Barbaro, Eduardo \ Heerwaarden, Chiel van \ Górska, Monica \ Docio, Alesandro \ Benedict, Imme \ Bleijenberg, Daniël \ Kalverla, Peter \ Schneider, Linda \ Sterenborg, Gert \ 2015

Used in course: MAQ-32306 Boundary-layer Processes
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Class : design a research plan 'the research cycle' [Video recording]
2015
organization of research - atmospheric boundary-layer - atmosphere - physics - chemistry - plant physiology - vegetation - soil science - meteorology - agricultural meteorology - hydrology

In this clip is explained how to use CLASS to design a research plan the strategy is to build your research plan step-by-step from simple ideas to more complex ones, a four-step research cycle has been developed which will lead you through the process of designing your own plan. The clip relates to the CLASS model and the book Atmospheric Boundary Layer - Integrating Air Chemistry and Land Interactions (https://doi.org/10.1017/CBO9781316117422, restricted acces wur).


Used in course: MAQ-32306 Boundary-layer Processes; YEI-30306 Interdisciplinary Topics in Earth and Environment; MAQ-34806 Atmospheric Composition and Air Quality; MAQ-11306 Air Quality; MAQ-51306 Clouds in Present and Changing Climate; MAQ-31806 Atmospheric Modelling
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Fundamentals of atmospheric modeling [Monograph] - 2nd edCompanion website
Jacobson, M.Z. \ 2005
atmosphere - meteorology - physics - textbooks - numerical methods

This edition includes a wide range of new numerical techniques for solving problems in areas such as cloud microphysics, ocean-atmosphere exchange processes and atmospheric radiative properties. It also contains improved descriptions of atmospheric physics, dynamics, radiation, and aerosol and cloud processes. Preface; 1. Introduction; 2. Atmospheric structure, composition, and thermodynamics; 3. The continuity and thermodynamic energy equations; 4. The momentum equation in Cartesian and spherical coordinates; 5. Vertical-coordinate conversions; 6. Numerical solutions to partial differential equations; 7. Finite-differencing the equations of atmospheric dynamics; 8. Boundary-layer processes; 9. Radiative energy transfer; 10. Gas-phase species, chemical reactions, and reaction rates; 11. Urban, free-tropospheric, and stratospheric chemistry; 12. Methods of solving chemical ordinary differential equations; 13. Particle components, size distributions, and size structure; 14. Aerosol emissions and nucleation; 15. Coagulation; 16. Condensation, evaporation, deposition, and sublimation; 17. Chemical equilibrium and dissolution processes; 18. Cloud thermodynamics, dynamics, and microphysics; 19. Aqueous chemistry; 20. Sedimentation and dry deposition; 21. Model design, application, and testing; Appendix A. Conversions, constants, and symbols; Appendix B. Tables; References; Index.


Used in course: MAQ-31806 Atmospheric Modelling
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Inleiding atmosfeer [Lecture notes]
Kroon, L.J.M. \ Holtslag, A.A.M. \ Krol, M.C. \ 2017

Used in course: MAQ-10306 Introduction Atmosphere
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Introduction to atmospheric chemistry [Monograph]Table of contents
Jacob, D.J. \ 1999
atmosphere - chemistry - physics - atmospheric pressure - greenhouse effect - ozone - air pollution - textbooks

The autor's aim is to show students how to use basic principles of physics and chemistry to describe a complex system such as the atmosphere. He also seeks to give students an overview of the current state of research and the work that led to this point. Jacob begins with atmospheric structure, design of simple models, atmospheric transport, and the continuity equation, and continues with geochemical cycles, the greenhouse effect, aerosols, stratospheric ozone, the oxidizing power of the atmosphere, smog and acid rain. Each chapter concludes with a problem set based on recent scientific literature.


Used in course: MAQ-34806 Atmospheric Composition and Air Quality
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Mesoscale meteorological modelling [Lecture notes]
Holtslag, B. \ Steeneveld, G.J. \ Krikken, F. \ Dries, K. van den \ Sterk, M. \ 2011
meteorology - mathematical models - textbooks

Used in course: MAQ-31806 Atmospheric Modelling
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Meteorolgy and climate : study guide [Lecture notes] - Edition January 2018
Holtslag, Bert \ Steeneveld, Gert-Jan \ Heusinkveld, Bert \ 2018

Used in course: MAQ-21806 Meteorology and Climate
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Meteorology for scientists and engineers : a technical companion book with Ahrens' Meteorology Today [Monograph] - 2nd edTable of contents
Stull, R. \ 2000
meteorology - scientists - engineers - atmosphere - radiation - weather - air pollution - textbooks

The Second Edition lets professors quantify the concepts in Ahren's METEOROLOGY TODAY, SEVENTH EDITION like never before. This book can serve as a technical companion to Ahren's text or as a stand-alone text. It provides the mathematical equations needed for a higher level of understanding of meteorology. The organization is mapped directly to the Ahrens book, making Stull's text a perfect companion. More than a lab manual or workbook, this text contains detailed math and physics that expand upon concepts presented in Ahrens' text, as well as numerous solved problems. This text demonstrates how to use mathematical equations (algebra, geometry, trigonometry, and finite differential equations) to explain the dominant characteristics of certain atmospheric phenomena and processes. Features: --- More than a problems book, the extensive narrative provides students with understanding of the math and detail (graphs, diagrams, maps and boxes) that explain important weather events. --- Focus Boxes feature important historical developments in meteorology to demonstrate the process of science. --- Solved Example boxes provide students with worked out problems to show students a good example of the problem solving process.


Used in course: MAQ-21806 Meteorology and Climate
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Parameterization schemes : keys to understanding numerical weather prediction models [Monograph]
Stensrud, D.J. \ 2007
weather - prediction - models - atmosphere - meteorology - textbooks - Numerical weather forecasting

Numerical weather prediction models play an increasingly important role in meteorology, both in short- and medium-range forecasting and global climate change studies. The most important components of any numerical weather prediction model are the subgrid-scale parameterization schemes, and the analysis and understanding of these schemes is a key aspect of numerical weather prediction. This book provides in-depth explorations of the most commonly used types of parameterization schemes that influence both short-range weather forecasts and global climate models. Several parameterizations are summarised and compared, followed by a discussion of their limitations. Review questions at the end of each chapter enable readers to monitor their understanding of the topics covered, and solutions are available to instructors at www.cambridge.org/9780521865401. Contents: 1. Why study parameterization schemes? 2. Land surface-atmosphere parameterizations 3. Soil-vegetation-atmosphere parameterizations 4. Water-atmosphere parameterizations 5. Planetary boundary layer and turbulence parameterizations 6. Convective parameterizations 7. Microphysics parameterizations 8. Radiation parameterizations 9. Cloud cover and cloudy sky radiation parameterizations 10. Orographic drag parameterizations 11. Thoughts on the future


Used in course: MAQ-31806 Atmospheric Modelling
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