Solar and Infrared Radiation Measurements, Second Edition

Author:   Frank Vignola (University of Oregon, Eugene, USA) ,  Joseph Michalsky (US Department of Commerce/NOAA, Boulder, Colorado, USA) ,  Thomas Stoffel (National Renewable Energy Laboratory, Louisville, Colorado, USA)
Publisher:   Taylor & Francis Ltd
Edition:   2nd edition
ISBN:  

9781138096295


Pages:   516
Publication Date:   12 August 2019
Format:   Hardback
Availability:   In Print   Availability explained
This item will be ordered in for you from one of our suppliers. Upon receipt, we will promptly dispatch it out to you. For in store availability, please contact us.

Our Price $357.00 Quantity:  
Add to Cart

Share |

Solar and Infrared Radiation Measurements, Second Edition


Add your own review!

Overview

The rather specialized field of solar and infrared radiation measurements has become increasingly important due to the increased demands by the renewable energy and climate change research communities for data with higher accuracy and increased temporal and spatial resolutions. Recent advances in radiometry, measurement systems, and information dissemination also have increased the need for refreshing the literature available for this topic. This book provides the reader with an up-to-date review of the important aspects of solar and infrared radiation measurements: radiometer design; equipment installation, operation, maintenance, and calibration; data quality assessment parameters; and the knowledge necessary to properly interpret and apply the measured data to a variety of topics. Each of the authors has more than 40 years of experience with this subject, primarily as the result of developing and operating multiple measurement stations, working with the industry to improve radiometry, and conducting various research projects. The book’s scope and subject matter have been designed to help a wide audience gain a general understanding of this subject and to serve as a technical reference. A student new to the field will benefit from the review of terminology and the historical perspective for radiometry before addressing more detailed topics in radiometry that we hope will be of interest to the more experienced reader. Describes the strengths and weaknesses of irradiance instruments Provides detailed information on how to assess uncertainty in measurements Offers comprehensive background information needed to understand the use of solar instrumentation Discusses design concepts for shadowband radiometers, sky imagers, and satellite-based estimates of solar irradiance at the Earth’s surface Includes chapter-end questions, references, and useful links

Full Product Details

Author:   Frank Vignola (University of Oregon, Eugene, USA) ,  Joseph Michalsky (US Department of Commerce/NOAA, Boulder, Colorado, USA) ,  Thomas Stoffel (National Renewable Energy Laboratory, Louisville, Colorado, USA)
Publisher:   Taylor & Francis Ltd
Imprint:   CRC Press
Edition:   2nd edition
Weight:   1.316kg
ISBN:  

9781138096295


ISBN 10:   1138096296
Pages:   516
Publication Date:   12 August 2019
Audience:   College/higher education ,  General/trade ,  Tertiary & Higher Education ,  General
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print   Availability explained
This item will be ordered in for you from one of our suppliers. Upon receipt, we will promptly dispatch it out to you. For in store availability, please contact us.

Table of Contents

Chapter 1 Measuring Solar and Infrared Radiation Chapter 2 Definitions and Terminology Chapter 3 Historic Milestones in Solar and Infrared Radiation Measurement Chapter 4 Direct Normal Irradiance Chapter 5 Broadband Global Irradiance Chapter 6 Diffuse Irradiance Chapter 7 Solar Spectral Measurements Chapter 8 Albedo Chapter 9 Measuring Solar Radiation on a Tilted Surface Chapter 10 Shadowband Radiometers Chapter 11 Infrared Measurements Chapter 12 Net Radiation Measurements Chapter 13 Radiometer Calibrations Chapter 14 Ancillary Measurements Chapter 15 Solar Monitoring Station Best Practices Chapter 16 Solar Radiation Estimates Derived from Satellite Images and Auxiliary Measurements Appendix A: Measurement Uncertainty Principles Appendix B: Modeling Solar Radiation Appendix C: Sunshine Duration Appendix D: Sun Path Charts Appendix E: Solar Position Algorithms Appendix F: Useful Conversion Factors Appendix G: Sources for Equipment Appendix H: BORCAL Report Appendix I: Failure Modes Appendix J: How to Build a Pyranometer with a Solar Cell or Photodiode Appendix K: Content Required for a Comprehensive Datafile Appendix L: Solar Radiation Databases Answers to Chapter Questions

Reviews

Author Information

Frank Vignola is the director of the University of Oregon Solar Energy Center and runs the Solar Radiation Monitoring Laboratory (SRML). He received his B.A. in physics at the University of California–Berkeley in 1967 and his Ph.D. in physics at the University of Oregon in 1975, with his thesis on elementary particle physics. He decided to apply his skills to more practical applications and started working in solar energy in 1977 at the University of Oregon. Dr. Vignola helped establish and manage the SRML solar radiation monitoring network that has created the longest-running high-quality solar radiation data set in the United States. He has organized and participated in many workshops on solar resource assessment and has written and contributed to approximately 100 papers on solar resource assessment. He was technical chair of the 1994 and 2004 conferences of the American Solar Energy Society (ASES) and for several years chaired the Technical Review Committee for ASES that managed the publication of several white papers on solar energy. He is currently associate editor for solar resource assessment for the Solar Energy Journal. To help facilitate the use of solar energy, he created and maintains a solar resource assessment website that is accessed by over 150,000 users a year. In addition, he has served on the boards of ASES and the Solar Energy Industries Association and is past president of the Oregon Solar Energy Industries Association (OSEIA). Dr. Vignola has helped pass solar tax credit and net metering legislation in Oregon and was author of Oregon’s law requiring 1.5% of the capital for solar in new public buildings. Joseph Michalsky received his B.S. in physics at Lamar University and M.S. and Ph.D. in physics at the University of Kentucky. He began his career with Battelle Memorial Institute that operates the Department of Energy’s Pacific Northwest National Laboratory. Following that he was with the Atmospheric Sciences Research Center a part of the State University of New York in Albany. He then joined the Global Monitoring Division within the Earth System Research Laboratory in the Office of Oceanic and Atmospheric Research (OAR) a part of the National Oceanic and Atmospheric Administration (NOAA). He continued his research part-time for a few years with the University of Colorado’s Cooperative Institute for Research in Environmental Sciences. Now fully retired he continues to dabble in atmospheric research of his own choosing. His early career focused on astronomical research before taking on problems in solar energy. His focus in the major part of his career has been in the solar energy and atmospheric sciences. Dr. Michalsky has over 100 refereed publications in astronomy, solar energy, and atmospheric science. Thomas Stoffel received his B.S. in aerospace engineering from the University of Colorado–Boulder and an M.S. in meteorology from the University of Utah. He began his professional career as an aerospace engineer at the U.S. Air Force Propulsion Laboratory simulating gas turbine engine performance and infrared radiation signatures. He returned to school to pursue his interests in radiative transfer and atmospheric science. Upon graduation, he worked at what is now the National Oceanic and Atmospheric Administration Earth System Research Laboratory to analyze urban–rural differences in solar radiation. In 1978, he began his career in renewable energy at the Solar Energy Research Institute (now the National Renewable Energy Laboratory) operated for the U.S. Department of Energy in Golden, Colorado. Progressing from his start as an associate scientist to retiring as a principal group manager, he and his team of scientists and engineers were responsible for the development and dissemination of solar resource information for the advancement of solar technologies and climate change research. This included the development of the Solar Radiation Research Laboratory (SRRL), which continues to provide research-quality solar resource measurements, radiometer calibrations, and systems for data acquisition and quality assessment (https://www.nrel.gov/grid/solar-resource/renewable-resource-data.html). He has authored or contributed to more than 80 publications addressing various aspects of solar and infrared radiation measurements.

Tab Content 6

Author Website:  

Customer Reviews

Recent Reviews

No review item found!

Add your own review!

Countries Available

All regions
Latest Reading Guide

ls

Shopping Cart
Your cart is empty
Shopping cart
Mailing List