Author : Purdue University. Thermophysical Properties Research Center
Publisher :
Page : 722 pages
File Size : 13,60 MB
Release : 1970
Category : Materials
ISBN :
Author : Eric C. Guyer
Publisher : CRC Press
Page : 710 pages
File Size : 39,86 MB
Release : 1999-02-01
Category : Technology & Engineering
ISBN : 9781560328117
Gives a foundation to the four principle facets of thermal design: heat transfer analysis, materials performance, heating and cooling technology, and instrumentation and control. The focus is on providing practical thermal design and development guidance across the spectrum of problem analysis, material applications, equipment specification, and sensor and control selection.
Author : A. Cezairliyan
Publisher : Springer Science & Business Media
Page : 639 pages
File Size : 13,14 MB
Release : 2012-12-06
Category : Science
ISBN : 1461532868
Building on the extensive coverage of the first volume, Volume 2 focuses on the fundamentals of measurements and computational techniques that will aid researchers in the construction and use of measurement devices.
Author : Purdue University. Thermophysical Properties Research Center
Publisher :
Page : 0 pages
File Size : 35,32 MB
Release : 1970
Category : Matter
ISBN :
Author : Craig Bohren
Publisher : Oxford University Press
Page : 609 pages
File Size : 47,57 MB
Release : 2023-05-01
Category : Nature
ISBN : 0198872720
Atmospheric Thermodynamics provides a comprehensive treatment of a subject that can often be intimidating. The text analyses real-life problems and applications of the subject, alongside of guiding the reader through the fundamental basics and covering the first and second laws and the ideal gas law, followed by an emphasis on moist processes in Earth's atmosphere. Water in all its phases is a critical component of weather and the Earth's climate system. With user-friendly chapters that include energy conservation and water and its transformations, the authors write with a willingness to expose assumptions and approximations usually absent in other textbooks. History is woven into the text to provide a context for the time evolution of thermodynamics and its place in atmospheric science and demonstrating how physical reasoning leads to correct explanations of everyday phenomena. Many of the experiments described were done using inexpensive instruments to take advantage of the earth's atmosphere as a freely accessible thermodynamics library. This second edition provides updated treatments of atmospheric measurements and substantially expanded sections that include atmospheric applications of the first and second laws and energy exchange between humans and their atmospheric environment. With 400+ thought provoking problems and 350 references with annotated notes and further reading suggestions, this second edition provides a basic understanding of the fundamentals of this subject while still being a comprehensive reference guide for those working in the field of atmospheric and environmental sciences.
Author : Purdue University. Thermophysical Properties Research Center
Publisher :
Page : 822 pages
File Size : 20,46 MB
Release : 1970
Category : Matter
ISBN :
Author : Robin E. Bentley
Publisher : Springer Science & Business Media
Page : 248 pages
File Size : 44,90 MB
Release : 1998
Category : Science
ISBN : 9789814021098
Volume 1 of the Handbook of Temperature Measurement, prepared by the CSIRO National Measurement Laboratory, Australia, details the principles and techniques involved in the measurement of humidity, in cryogenic and radiation thermometry and a variety of unconventional methods of temperature measurement. Other topics considered are thermal conductivity and the traceability of measurement. Authors in this volume include Mark J. Ballico, Edwin C. Morris, Gary Rosengarten, Anna Schneider, Glenda Sandars, Laurie M. Besley, Jeffrey Tapping, and Anthony J. Farmer.
Author : David C. Larsen
Publisher : Springer Science & Business Media
Page : 606 pages
File Size : 39,29 MB
Release : 2012-12-06
Category : Technology & Engineering
ISBN : 1468442651
The International Thermal Conductivity Conference was started in 1961 with the initiative of Mr. C. F. Lucks and grew out of the needs of researchers in the field. From 1961 to 1973 the Confer ences were held annually, and have been held biennially since 1975 when our Center for Information and Numerical Data Analysis and Synthesis (CINDAS) of Purdue University became the permanent Spon sor of the Conferences. These Conferences provide a broadly based forum for researchers actively working on the thermal conductivity and closely related properties to convene on a regular basis to ex change their ideas and experiences and report their findings and results. The Conferences have been self-perpetuating and are an example of how a technical community with a common purpose can transcend the invisible, artificial barriers between disciplines and gather togeth er in increasing numbers without the need of national publicity and continuing funding support, when they see something worthwi1e going on. It is believed that this series of Conferences not only will grow stronger, but will set an example for researchers in other fields on how to jointly attack their own problem areas.
Author : Purdue University. Thermophysical Properties Research Center
Publisher :
Page : 724 pages
File Size : 43,36 MB
Release : 1970
Category : Materials
ISBN :
Author : Franz E. Rosenberger
Publisher : Springer Science & Business Media
Page : 544 pages
File Size : 26,56 MB
Release : 2012-12-06
Category : Technology & Engineering
ISBN : 3642812759
The intrinsic properties of a solid, i. e. , the properties that result from its specific structure, can be largely modified by crystallographic and chem ical defects. The formation of these defects is governed by the heat and mass transfer conditions which prevail on and near a crystal-nutrient in terface during crystallization. Hence, both the growth of highly perfect crystals and the preparation of samples having predetermined defect-induced (extrinsic) properties require a thorough understanding of the reaction and transport mechanisms that govern crystallization from vapors, solutions and melts. Crystal growth, as a science, is therefore mostly concerned with the chemistry and physics of heat and mass transport in these fluid-solid phase transitions. Solid-solid transitions are, at this time, not widely employed for high quality single-crystal production. Transport concepts are largely built upon equilibrium considerations, i. e. , on thermodynamic and phase equilibrium concepts. Hence to supply a "workable" foundation for the succeeding discussions, this text begins in Chapter 2 with a concise treatment of thermodynamics which emphasizes applications to mate rials preparation. After working through this chapter, the reader should feel at ease with often (particularly among physicists) unfamiliar entities such as chemical potentials, fugacities, activities. etc. Special sections on ther mochemical calculations (and their pitfalls) and compilations of thermochemi cal data conclude the second chapter. Crystal growth can be called. in a wide sense, the science and technology of controlling phase transitions that lead to (single crystalline) solids.
