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Concise Handbook of Fluorocarbon Gases. Sina EbnesajjadЧитать онлайн книгу.

Concise Handbook of Fluorocarbon Gases - Sina  Ebnesajjad


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is defined as straight chain, branched chain, or cyclic, saturated, as in the paraffin; or unsaturated, as in the olefins and alkynes. Cyclic fluorocarbons are not discussed in this book because their limited commercial applications.

      More specifically the term fluorocarbon refers to small molecule of fluorinated alkane and olefin compounds. Fluorinated polymers and fluoropolymers are used to refer to, mostly, olefinic macromolecules of fluorinated thermoplastics and elastomers. Partially fluorinated refers to a material that contains residual C-H or other bonds. Perfluorinated refers to the absence of hydrogen in a chemical due to complete fluorine substitution. Other atoms such as oxygen, sulfur and nitrogen may be present in the structure of the perfluorinated chemicals, often in small quantities.

      Commercial is the guiding beacon for the selection of the contents of the present book. The focus is on fluorochemicals produced and consumed in commercial applications. An important aspect of the commercial consumption of fluorocarbons is their impact on the ozone layer as a result of emissions of those chemicals. The issue came to surface when chlorofluorocarbons were discovered to deplete atmospheric ozone layer. That discovery has resulted in decades of development of replacement compounds and elimination of all ozone depleting fluorocarbons.

      Table 1.1 Examples of commercial fluorochemicals.

Product Size of molecule Example of compound Example of application
Fluorocarbons Small HFC-134a (1,1,1,2-tetrafluoroethane) Refrigerant, Propellant for aerosols, Blowing agent for foams
Thermoplastic Fluoropolymers (TPF) and Fluoroelastomers (FE) Large macromolecules Polyvinylidene fluoride (TPF), copolymer of vinylidene fluoride/tetrafluoroethylene Tubes, pump bodies (TPF), seals and gaskets (FE)
Fluorinated Coating - Dispersion (D), powder (P) Large macromolecules Polytetrafluoroethylene coatings,Tetrafluoroethylene/perfluoroalkylvinylether copolymer powder Interior surface of oil pipelines (D),Corrosion resistant (P)

      The terms ozone depletion refer to the destruction of atmospheric ozone by the decomposition products of certain gases. Ozone by its action filters out low wavelength ultraviolet light waves known as “UV B” which are hazardous to humans, and some plants and wildlife. Destruction of the atmospheric ozone reduces its filtration action thus allowing an increase in the UV B light waves that reach the earth surface. The First generation of fluorocarbon gases were discovered to be strong causes of ozone depletion. A great deal of global regulatory changes, research, publication, development and replacement have taken place since the 1980s. These issues are discussed in detail in the rest of this book.

      Most public and technical discussions about ozone layer and depletion are not quantitative. Nevertheless, atmospheric ozone has been measured to allow factual analysis of changes in the ozone layer. The Dobson Unit (DU) is the unit of measure for total ozone ranging from 100 to 500. If one were to take all the ozone in a column of air stretching from the surface of the earth to space (Figure 1.1) and bring all that ozone to 0°C and pressure of one atmosphere, the column would be about 0.3 centimeters thick. Thus, the total ozone would be 0.3 atm-cm. To make the units easier to work with, the “Dobson Unit” is defined to be 0.001 atm-cm, 0.3 atm-cm would be 300 DU [5].

      Incidentally, Dobson Unit is named after Gordon Miller Bourne Dobson (1889-1976) who was a British physicist and meteorologist. Professor Dobson was an ingenious experimentalist who devoted much of his life to the observation and study of atmospheric ozone. He made measurements at a number of locations in Europe to study the relation between ozone distribution and synoptic meteorological variables. The results of Dobson’s studies turned out to be of great importance. They lead to an understanding of the structure and circulation of the stratosphere including the ozone layer [7].

      Statistics on the production and consumption of fluorocarbons illustrate the continued growth of those products. A major study published by the US Government in February 2020 sheds light on the global development, trade and consumption of fluorocarbon gases and their alternatives. This study is the result of collaboration of Department of Energy’s National Renewable Energy Laboratory and Oak Ridge National Laboratory [8] Some of the highlights of this study are described in the next Section (1.2.1).

       1.2.1 Refrigerants: Market Trends and Supply Chain Assessment

      This section has been adopted with some modifications from a Department of energy study published in May 2020 [8]. The conclusions of the reported study are listed in this section. The term refrigerants has a broad meaning in this report because most of the refrigeration gases are also used in non-refrigeration applications.

      The global refrigerants market is large and is projected to grow rapidly as developing countries in warmer areas of the globe continue to grow, become more affluent, and consume more and more air conditioning, refrigeration, foam, and aerosol products and services. Innovations in the global refrigerants market is often led by major U.S. companies; however, the markets for their products are global. Understanding this global market landscape is a critical component for maintaining U.S. leadership in innovation and manufacturing in a strategically important industry.

      Key Findings from the National Renewable Energy Laboratory (NREL)/Oak Ridge National Laboratory (ORNL) include:

       Refrigerant markets are global and growing rapidly. 2010–2050: 4.5x increase in air conditioning for non-Organization of Economic Coordination and Development (OECD) countries (developing economies) and 1.3x increase for OECD countries (developed economies).

       Regional, national, and international commitments will create large market opportunities for innovative refrigerants and products that use them.

       U.S.-based companies are leaders in intellectual property and production of advanced refrigerants (Figure 1.2).

       China has aggressively expanded production of conventional refrigerants for domestic use as well as export.

       Refrigerants are used in large quantities for more than just cooling (Figure 1.3).

       Foam production, aerosols, fire suppression, and chemical production are important end uses for these materials.

       Vapor compression systems primarily use fluorocarbon refrigerants. This is the most difficult and impactful area for refrigerant innovation (Figure 1.4).

       Alternative refrigerants to fluorocarbons are well established.

       The refrigerant market is defined as all materials used in applications where fluorocarbons are used: vapor compression, foam blowing, aerosols, chemical feedstock, fire suppression,


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