معرفی کتاب «Carbon Dioxide Thermodynamic Properties Handbook: Covering Temperatures from -20° to 250°C and Pressures up to 1000 Bar» نوشتهٔ Anwar, Sara, Carroll, John J.، منتشرشده توسط نشر John Wiley & Sons ; Scrivener Publishing در سال 2016. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.
The classic book on corrosion science and engineering-now in a valuable new edition The ability to prevent failures by managing corrosion is one of the main global challengesof the twenty-first century. However, most practicing engineers and technologists have only a basic understanding of how they can actively participate in this urgent economic and environmental issue. Now, students and professionals can turn to this newly revised edition of the trusted Corrosion and Corrosion Control for coverage of the latest developments in the field, including advances in knowledge, new alloys for corrosion control, and industry developments in response to public demand. This Fourth Edition presents an updated overview of the essential aspects of corrosion science and engineering that underpin the tools and technologies used for managing corrosion, enhancing reliability, and preventing failures. Although the basic organization of the book remains unchanged from the previous edition, this new update includes: \* An introduction to new topics, including the element of risk management in corrosion engineering and new advanced alloys for controlling corrosion \* Expanded discussions on electrochemical polarization, predicting corrosion using thermodynamics, steel reinforcements in concrete, and applications of corrosion control technologies in automotive, nuclear, and other industries \* A stronger emphasis on environmental concerns and regulations in the context of their impact on corrosion engineering \* A discussion of the challenge of reliability in nuclear reactors; stainless steels; the concept of critical pitting temperature; and information on critical pitting potential (CPP) Complemented with numerous examples to help illustrate important points, Corrosion and Corrosion Control, Fourth Edition enables readers to fully understand corrosion and its control and, in turn, help reduce massive economic and environmental loss. It is a must-read for advanced undergraduates and graduate students in engineering and materials science courses, as well as for engineers, technologists, researchers, and other professionals who need information on this timely topic
With new graphical data added to this revision of the original classic, this volume is still the largest and most comprehensive collection of thermodynamic data on carbon dioxide ever produced, the ONLY book of its kind in print. With carbon dioxide sequestration gaining in popularity around the world in the scientific and engineering communities, having this data in an easy-to-access format is more useful and timely than ever.
With data that is accurate down to within a fraction of a degree, this handbook offers, in one volume, literally thousands of data points that any engineer or chemist would need when dealing with carbon dioxide. Not available in other formats, these easy-to-read tables are at your fingertips and are accessed within seconds and does away with the need for constantly working with mathematical formulas.
Carbon dioxide is used in many fields, across many industries, including the oil and gas industry and food processing. Even coffee is decaffeinated using carbon dioxide! Though CO2 has many uses in industry, it is also one of the most offensive of the greenhouse gases, on which many scientists and engineers are working to eradicate in the future production of power and fuel.
This data is useful for any scientist or engineer in any of these fields, but it is also useful for the chemical engineering or petroleum engineering student.
With new graphical data added to this revision of the original classic, this volume is still the largest and most comprehensive collection of thermodynamic data on carbon dioxide ever produced, the ONLY book of its kind in print. With carbon dioxide sequestration gaining in popularity around the world in the scientific and engineering communities, having this data in an easy-to-access format is more useful and timely than ever. With data that is accurate down to within a fraction of a degree, this handbook offers, in one volume, literally thousands of data points that any engineer or chemist would need when dealing with carbon dioxide. Not available in other formats, these easy-to-read tables are at your fingertips and are accessed within seconds and does away with the need for constantly working with mathematical formulas. Carbon dioxide is used in many fields, across many industries, including the oil and gas industry and food processing. Even coffee is decaffeinated using carbon dioxide! Though CO2 has many uses in industry, it is also one of the most offensive of the greenhouse gases, on which many scientists and engineers are working to eradicate in the future production of power and fuel. This data is useful for any scientist or engineer in any of these fields, but it is also useful for the chemical engineering or petroleum engineering student. Content: Half Title page Title page Copyright page Dedication Acknowledgement Preface to Second Edition Preface to First Edition Introduction Derived Properties Linear Interpolation Sample Calculations Conversion Factors References Chapter 1: Density (kg/m3) of Saturated Carbon Dioxide Chapter 2: Enthalpy (J/mol) of Saturated Carbon Dioxide Chapter 3: Entropy (J/molK) of Saturated Carbon Dioxide Chapter 4: Heat Capacity, CP, (J/molK) of Saturated Carbon Dioxide Chapter 5: Density (kg/m3) of Carbon Dioxide as a Function of Temperature and Pressure Chapter 6: Enthalpy (J/mol) of Carbon Dioxide as a Function of Temperature and PressureChapter 7: Entropy (J/molK) of Carbon Dioxide as a Function of Temperature and Pressure Chapter 8: Heat Capacity, CP, (J/molK) of Carbon Dioxide as a Function of Temperature and Pressure Appendix -- Graphical Data Density Compressibility Factor Reduced Density Enthalpy Joule-Thomson Coefficient References Sara Anwar And John J. Carroll. Includes Bibliographical References. Mode Of Access: World Wide Web.