Relevant bibliographies by topics / Thermodynamics – Bibliography

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Academic literature on the topic 'Thermodynamics – Bibliography'

Author: Grafiati
Published: 4 June 2021
Last updated: 10 February 2022

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Journal articles on the topic "Thermodynamics – Bibliography"

1

Balducci, Giovanni, Andrea Ciccioli, Giovanni de Maria, Fiqiri Hoda, and Gerd M. Rosenblatt. "Teaching high-temperature materials chemistry at university (IUPAC Technical Report)." Pure and Applied Chemistry 81, no. 2 (2009): 299–338. http://dx.doi.org/10.1351/pac-rep-08-05-01.

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Over the last four to five decades, high-temperature materials chemistry (HTMC) has become a flourishing area of scientific and applied research, spurred by both a growing demand for new inorganic materials (e.g., oxide and non-oxide modern multifunctional ceramics, intermetallics, and oxidation-resistant alloys) able to withstand extreme thermal and chemical environments and by the recognition that chemical and physical behavior at high temperatures differs from, and cannot be extrapolated from, behavior at temperatures near room temperature. Despite the important role played by HTMC in modern advanced technology and the fundamental differences in behavior encountered at high temperatures, HTMC topics are rarely covered in chemistry and materials science programs at the university level because of a lack of readily accessible resource material - no textbook exists specifically devoted to HTMC topics. IUPAC's Inorganic Chemistry Division sponsored a project to address this gap, resulting in the present report. The report includes an introduction and seven sections covering historical background, chemical behavior of condensed-phase/gas-phase systems at high temperature, basic concepts of materials thermodynamics, experimental techniques, use of thermodynamic data and modeling, vaporization, and decomposition processes, and gas-solid reactions. The ninth section covers more specific topics, primarily concerning applications of high-temperature materials and processes. Each recommended topic is accompanied by a bibliography of helpful references, a short introduction or explanation including the areas of application, and some relevant teaching suggestions. An extensive annotated resource bibliography is an Appendix to the report available as supplementary material.
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2

Davies, R. Hugh, Alan T. Dinsdale, Torsten Markus, Stuart A. Mucklejohn, and Georges Zissis. "Requirements for Thermochemical Data in the Lighting Community." Zeitschrift für Naturforschung A 63, no. 7-8 (2008): 423–34. http://dx.doi.org/10.1515/zna-2008-7-807.

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The need for thermochemical data in the lighting industry is reviewed; these data are required not only in the research and development phase but also throughout the product life cycle. This review has lead to: a summary of commercially available integrated thermochemical databanks; a bibliography of thermodynamic databases available in electronic format; a list of collections of thermodynamic data that are highly valuable but not available in electronic format; a bibliography for chemical systems of specific interest to research into high intensity discharge lamps. The bibliographies will be of interest to those involved in molten salts and ionic liquids research as well as to those seeking information on alloys, oxide systems and nuclear materials. A review of the current state of ab initio calculations for the determination of thermochemical parameters is also included.
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Amel, Naceur, and Adjadj Fouzia. "Modeling of Liquid-Liquid Demixing Curve in Lead-Zinc Binary System." Diffusion Foundations 18 (September 2018): 49–54. http://dx.doi.org/10.4028/www.scientific.net/df.18.49.

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In this work we discussed the modeling of the demixing curve in the liquid state in the Lead – Zinc binary system. We are interested to recalculate the free energies relating on Pb-Zn alloys for several temperatures based on the thermodynamic data collected in the bibliography. This calculation allows us to trace the curve of phase separation from a program after obtaining the mole fractions corresponding to the common tangent to the curve of the free energy with two minima at different temperatures. To do this, we used the Matlab 7.1 as the programming language and the Redlich-Kister polynomial as a mathematical model of development. The results obtained are very satisfactory by comparing them with those of the bibliography.
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Mikhailov, Oleg V., and Denis V. Chachkov. "Quantum-Chemical Design of Molecular Structures of Tetra-, Penta- and Hexanuclear Metal Clusters Containing Aluminum and 3d-Element Atoms." Materials 13, no. 8 (2020): 1852. http://dx.doi.org/10.3390/ma13081852.

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Various data on the structural and thermodynamic characteristics of polynuclear metal clusters containing atoms of aluminum and various d-elements with the general formula AlnMm where (n + m) is 4, 5, or 6, and which can be precursors for the formation of nanoparticles of elemental metals or intermetallic compounds, have been systematized and discussed. It has been noted that each of these metal clusters in principle is able to exist in very diverse structural isomers, differing significantly among themselves in terms of the total energy and spin multiplicity of the ground state, the number of which is determined by both the specific values of n and m, and the nature of d-elements in their compositions. The presence of very complex dynamics with respect to the changes of the individual thermodynamic characteristics of the metal clusters under consideration as well as the thermodynamic parameters of the reactions of their formation, depending on the nature of the d-element, were also ascertained. In the main, the given review is devoted to the authors’ works published over the last 10 years. Bibliography – 96 references.
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Noriega-Sánchez, Carlos Javier. "A review of working fluid mixtures for low temperature power cycles and their thermodynamic modeling." Revista Ingenio 18, no. 1 (2021): 62–69. http://dx.doi.org/10.22463/2011642x.2340.

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This paper summarizes a bibliographic review of the main articles published in recent years in the power cycles area, with special emphasis on working fluid mixtures. Likewise, the most relevant theoretical fundaments for performing the mathematical modeling of this class of working fluids and, therefore, obtaining their thermodynamic properties, as well as the experimental methods used in the characterization of the phase equilibrium that allow obtaining the adjustment parameters are covered in this article.
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Da Silva, Geilson Rodrigues, and Nádia Cristina Guimarães Errobidart. "Termodinâmica e Revolução industrial: Uma abordagem por meio da História Cultural da Ciência." História da Ciência e Ensino: construindo interfaces 19 (July 27, 2019): 71–97. http://dx.doi.org/10.23925/2178-2911.2019v19p71-97.

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ResumoO Ensino de Ciências ainda apresenta vertentes que prezam por práticas pautadas predominantemente na repetição e memorização de exercícios. Essa abordagem leva a dificuldades de aprendizagem dos discentes, bem como, o desinteresse pela ciência e pelo seu processo de construção. Uma das formas de romper com essa abordagem trata-se da utilização da História Cultural Científica no qual a ciência é vista como integrante da cultura humana. Assim sendo, objetivamos elaborar um material didático em formato de texto narrativo histórico que contemplasse a abordagem cultural científica da Termodinâmica pautados nas abordagens internalista e externalista. Para isso utilizamos da pesquisa bibliográfica em fontes secundárias, com o intuito de elucidar as contribuições culturais e científicas da Revolução Industrial para o desenvolvimento da Termodinâmica. Deste modo, foi possível elucidar as necessidades sociais que foram predominantes para o aperfeiçoamento das máquinas térmicas e a evolução dos processos técnicos para os científicos que culminaram nas leis da Termodinâmica. Diante disso, a visão internalista e externalista, foram abordadas de forma integradas permitindo que a narrativa histórica seja uma possibilidade de abordagem da História Cultural Científica.Palavras-chave: Estudo do Calor; História da Ciência; Máquinas Térmicas.AbstractThe teaching of science still presents aspects that emphasize practices based predominantly on repetition and memorization of exercises. This approach leads to learning difficulties of students, as well as the lack of interest in science and its construction process. One of the ways to break with this approach is the use of scientific Cultural history in which science is seen as a member of human culture. Thus, we aim to elaborate a didactic material in a historical narrative format that contemfaced the scientific cultural approach of thermodynamics based on internalist and externalist approaches. For this we use the bibliographic research in secondary sources, with the aim of eluciding the cultural and scientific contributions of the Industrial Revolution for the development of thermodynamics. Thus, it was possible to elucidates the social needs that were predominant for the improvement of the thermal machines and the evolution of the technical processes for the scientific ones that culminated in the laws of thermodynamics. In view of this, the internalist and Externalist vision, were approached in an integrated way allowing the historical narrative to be a possibility of approaching the scientific Cultural historyKeywords: Heat Study; History of Science; Industrial Revolution.
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Khalfa, Aouda, Senia Mellouk, Kheira Marouf-Khelifa, and Amine Khelifa. "Removal of catechol from water by modified dolomite: performance, spectroscopy, and mechanism." Water Science and Technology 77, no. 7 (2018): 1920–30. http://dx.doi.org/10.2166/wst.2018.071.

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Abstract Dolomite was treated at 800 °C (D800), characterized, and used in the adsorptive removal of catechol (1,2-dihydroxybenzene) from aqueous solutions. The performances of the D800 sample, named dolomitic solid, were compared with those of the raw material. A bibliographic review shows that the data on the adsorption of phenolic compounds by dolomites are non-existent. Kinetic data, equilibrium isotherms, thermodynamic parameters, and pH influence were reported. Special attention was paid to the spectroscopic study, before and after adsorption. The purpose was to understand the mechanism of catechol uptake on dolomitic materials. Kinetics follows the pseudo-second order model. The Redlich–Peterson isotherm provides the best correlation of our isotherms. Affinity follows the sequence: D800 ≫ raw dolomite. The process is spontaneous at low temperatures and exothermic. After catechol adsorption, the shape of the band in the 3,600−3,000 cm−1 range and its red shift towards 3,429 cm−1 reflect a deep involvement of OH groups both of D800 and catechol, which confirm hydrogen bonding via their respective OH. On this basis, a schematic illustration was proposed. The understanding of the phenolic compound–dolomitic solid interactions constitutes a fundamental approach to developing the application of these materials in wastewater treatment.
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Malyasova, A. S., and O. I. Koifman. "Scientific activity of Ya.K. Syrkin at the Faculty of Chemistry of the IvanovoVoznesensk Polytechnic Institute and in the Ivanovo Institute of Chemistry and Technology (1918–1932)." Fine Chemical Technologies 15, no. 4 (2020): 73–81. http://dx.doi.org/10.32362/2410-6593-2020-15-4-71-81.

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Objectives. Preserving the continuity of scientific schools and increasing scientific motivation is critical for educating new generations of researchers. One way to solve this problem is to promote the historically significant achievements of outstanding scientists working in the field, without which the foundations of modern chemical technologies cannot be imagined. The field of physical chemistry benefited immensely from the contributions made by Professor Yakov Kivovich Syrkin. This article is devoted to the analysis of the growth of Ya.K. Syrkin as a scientist and discusses his main scientific contributions to physical and quantum chemistry. Methods. The article was prepared using archival materials, bibliographic references, original texts of articles, and scientific reports. Results. The article details and documents the main scientific achievements of Ya.K. Syrkin during his work at the Ivanovo-Voznesensk Polytechnic Institute and the Ivanovo Institute of Chemistry and Technology between 1918 and 1932, showing his growth and development as a young scientist through his interactions with teachers and colleagues. Syrkin’s research on chemical equilibrium, reaction kinetics, thermodynamics, catalysis, solution theory, solvate effects, and colloidal systems are presented herein. Conclusions. A retrospective analysis of the career of Ya.K. Syrkin shows the scope of his research interests and his ability to build on the foundations provided by great predecessors such as Gibbs, Van’t Hoff, Arrhenius, Ostwald, and Nernst. A comprehensive study of fundamental and applied aspects of physical chemistry guided Syrkin’s approach to understanding the importance of molecular structure and the nature of chemical bonds in all observed chemical phenomena.
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9

Herrera-Romero, JV, and Dario Colorado-Garrido. "Comparative Study of a Compression–Absorption Cascade System Operating with NH3-LiNO3, NH3-NaSCN, NH3-H2O, and R134a as Working Fluids." Processes 8, no. 7 (2020): 816. http://dx.doi.org/10.3390/pr8070816.

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This research presents a comprehensive bibliographic review from 2006 through 2020 about the state of the art of the compression–absorption cascade systems for refrigeration. In consequence of this review, this research identifies the significant development of systems that consider lithium bromide as a working fluid; however, the use of other working fluids has not been developed. This study is motivated toward the development of a parametric analysis of the cascade system using NH3-LiNO3, NH3-NaSCN and NH3-H2O in the absorption cycle and R134a in the compression cycle. In this study, the effect of the heat source temperature, condensation temperature in the compression cycle, the use of heat exchangers in the system (also known as economizers) and their contribution to the coefficient of performance is deepened numerically. The economizers evaluated are the following: an internal heat exchanger, a refrigerant heat exchanger, a solution refrigerant heat exchanger, and a solution heat exchanger. Mass and energy balance equations—appropriate equations to estimate the thermophysical properties of several refrigerant–absorbent pairs—were used to develop a thermodynamic model. The studied heat source temperature range was from 355 to 380 K, and the studied condensation temperature range in the compression cycle was from 281 to –291 K; additionally, the importance of each economizer on the coefficient of performance was numerically estimated. In this way, NH3-NaSCN solution in the absorption cycle and R134a in the compression cycle provided promising numerical results with the highest COPs (coefficient of performance).
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10

Mudrova, N. A. "V. K. Semenchenko's book collection in stocks of the Central Scientific Library of the Ural Branch of the Russian Academy of Sciences." Bibliosphere, no. 2 (June 30, 2017): 59–66. http://dx.doi.org/10.20913/1815-3186-2017-2-59-66.

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Preserving the historical-cultural heritage is an actual problem of fundamental scientific research. A special place in this heritage is the book culture including libraries - state, public, private, personal ones. Book collections of scientists refer to the special section of libraries. A holistic view of the outstanding researcher book collections allows complementing and enriching ideas about the researcher creative laboratory, as well as providing additional materials on the history of science, book culture and, even widly, the history of Russia. The article is devoted to the collection of books from the library of a Russian physicist-chemist, Professor of the Physical Faculty of Moscow State University, Doctor of Chemical Sciences, V. K. Semenchenko, who is a major specialist in chemistry of thermodynamics, theory of electrolyte solutions, surface tension. This study is research continuation carried on in the Central Scientific Library of the Ural Branch of the Russian Academy of Sciences (CSL UB RAS) to investigate scientific and cultural heritage of the Urals and Russi. The research methodological basis is modern concepts of the history of book business in a broad socio-cultural perspective using the following techniques: bibliographic, functional, analytical-thematic, paleographic, systematic, bio-bibliographic and others. The small collection of V. K. Semenchenko’s books (100 units) entered the collection of CSL UB RAS in 1993 under the mediation of Academician Vladimir Pavlovich Skripov, Director of the Institute of Thermophysics of the Ural Branch of the Russian Academy of Sciences, who was a former student and postgraduate of V. K. Semenchenko. The composition of the book collection is represented in the chart. There are many works of famous scholars, Rus- sian and Soviet classics of science of the XX century (books included in Digital Library «Russian Scientific Heritage») in V. K. Semenchenko’s collection. 42 volumes of the library have autographs of their owner V. K. Semenchenko. The books have inscriptions of authors, friends and relatives addressed to V. K. Semenchenko. The book collection uniqueness is evident due to book «Theory of atom» by of V. K. Semenchenko presented to the library by the researcher’s daughter. The book page-proofs (layout) were done in 1941. This book remained in a single copy. Many books and authors of V. K. Semenchenko’s books collection are of interest in terms of studying the history of the world science development. Thus, studying the book collection of a physicists contributes to investigating the acquisition history and stocks composition of CSL UB RAS, book culture, Russian and world science, and, in general, into the country historical and cultural heritage preservation.
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Books on the topic "Thermodynamics – Bibliography"

1

Cheynet, Bertrand. Thermodynamic properties of inorganic materials: A literature database covering the period 1970-1987. Elsevier, 1989.

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2

Goldberg, R. N. A bibliography of sources of thermodynamic data for the systems: CO₂₊NH₃₊H₂O, CO₂₊H₂S₊H₂O, H₂S₊NH₃₊H₂O, and CO₂₊NH₃₊H₂S₊H₂O. U.S. Dept. of Commerce, Center for Chemical Physics, National Measurement Laboratory, National Bureau of Standards, 1985.

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Goldberg, Robert N. A bibliography of sources of thermodynamic data for the systems: CO₂+NH₃+H₂O, CO₂+H₂S+H₂O, H₂S+NH₃+H₂O, and CO₂+NH₃+H₂S+H₂O. U.S. Dept. of Commerce, National Bureau of Standards, 1985.

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Goldt, Rainer. Thermodynamik als Textem: Der Entropiesatz als poetologische Chiffre bei E.I. Zamjatin. Liber, 1995.

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Abraham, Tamir, ed. Mixing and excess thermodynamic properties: A literature source book : supplement 2. Elsevier, 1986.

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Goldberg, R. N. A bibliography of sources of thermodynamic data for the systems: CO2 [plus] NH3 [plus] H2O, CO2 [plus] H2S [plus] H2O, H2S [plus] NH3 [plus] H2O, and CO2 [plus] NH3 [plus] H2S [plus] H2O. National Bureau of Standards, 1985.

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Thermodynamic properties of the alkaline earth metal hydroxides (MOH). U.S. Dept. of Commerce, National Bureau of Standards, 1987.

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Thermodynamic Tables, Bibliography, and Property File. Elsevier, 2013. http://dx.doi.org/10.1016/c2013-0-12165-4.

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R, Staples B., and Design Institute for Physical Property Data (U.S.), eds. Bibliographies of industrial interest: Thermodynamic measurements on the systems CO₂-H₂O, CuCl₂-H₂O, H₂SO₄-H₂O, NH₃-H₂O, H₂S-H₂O, ZnCl₂-H₂O, and H₃PO₄-H₂O. U.S. Dept. of Commerce, National Bureau of Standards, 1986.

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Book chapters on the topic "Thermodynamics – Bibliography"

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"Bibliography." In Thermodynamics. Elsevier, 2016. http://dx.doi.org/10.1016/b978-1-78548-176-5.50019-4.

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"Bibliography." In Thermodynamics. Princeton University Press, 2009. http://dx.doi.org/10.1515/9781400826971.175.

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"Bibliography." In Introductory Statistical Thermodynamics. Elsevier, 2011. http://dx.doi.org/10.1016/b978-0-12-384956-4.00021-5.

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"Bibliography." In Materials and Thermodynamics. John Wiley & Sons, Inc., 2017. http://dx.doi.org/10.1002/9781119425540.biblio.

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"Bibliography." In Advanced Thermodynamics for Engineers. Elsevier, 1997. http://dx.doi.org/10.1016/b978-034067699-8/50020-x.

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"Bibliography." In Advanced Thermodynamics for Engineers. Elsevier, 2015. http://dx.doi.org/10.1016/b978-0-444-63373-6.16001-0.

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"Bibliography." In Chemical Thermodynamics of Thorium. OECD, 2008. http://dx.doi.org/10.1787/9789264056688-20-en.

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"Bibliography." In Finite Physical Dimensions Optimal Thermodynamics. Elsevier, 2018. http://dx.doi.org/10.1016/b978-1-78548-233-5.50013-4.

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"BIBLIOGRAPHY." In Molecular Thermodynamics of Nonideal Fluids. Elsevier, 1988. http://dx.doi.org/10.1016/b978-0-409-90088-0.50023-0.

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"Bibliography." In Finite Physical Dimensions Optimal Thermodynamics 1. Elsevier, 2017. http://dx.doi.org/10.1016/b978-1-78548-232-8.50015-7.

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Conference papers on the topic "Thermodynamics – Bibliography"

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Gkountas, Apostolos A., Anastassios M. Stamatelos, and Anestis I. Kalfas. "Thermodynamic Modeling and Comparative Analysis of Supercritical Carbon Dioxide Brayton Cycle." In ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/gt2017-63990.

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Supercritical CO2 cycles is a promising technology for the next generation power conversion cycles. Supercritical CO2 Brayton cycles offer equivalent or higher cycle efficiency when compared with steam cycles at similar temperatures. This paper presents an investigation of the sCO2 recompression cycle, where recompressing a fraction of the flow without heat rejection, results in an increase in thermal efficiency. A thermodynamic analysis of a 600 MWth power cycle has been carried out, in order to study the effect of the most significant design parameters on the components performance and cycle efficiency, using two different simulation tools to model the recompression system. An iterative model using basic thermodynamic equations describing the system’s components was employed in this direction. The system was also modeled by means of commercial process modeling software for comparison. Hence, useful results regarding the operating pressures and temperatures of the cycle and how they affect the recuperators, the compressor and the turbine performance have been derived. Finally, a comparative analysis of the results of the two simulation tools and those of a reference cycle from the bibliography is carried out, showing deviations in the range of 2.8 to 4%.
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Carmona, Mauricio, Gabriel Caicedo, Humberto Gómez Vega, and Antonio Bula. "Reduced Model for a Thermal Analysis of a Flat Plate Solar Collector With Thermal Energy Storage Using Phase Change Material (PCM)." In ASME 2015 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/imece2015-51865.

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In conventional solar water heaters, the thermal energy storage is accomplished by increasing the sensible heat in a fluid. Therefore, the accumulation capacity of sensible heat is proportional to the mass storage and the increase of temperature, so that an increase in the requirements involves a bigger tank volume. Phase change materials (PCM) stored energy at constant temperature (or at least in a fairly narrow range of temperature) while the phase change is produced, they are presented as an alternative to compensate the solar heat supply periods and the thermal demand with a better heat accumulation per volume unit. In contrast, these systems require more complicated thermal analysis and designs than the traditional systems by sensible heat with a single phase. The selection of PCM, its content and location on the device will have a determining effect on the overall performance of the solar collector. This implies that the heat exchanger must be designed for each specific application. Currently, there are no commercial devices for heating water by solar energy using thermal accumulation with PCM. However, preliminary studies in lab scale have shown significant increases in efficiencies and supply capacity. Several authors have been performed experimental and numerical studies in solar collectors including PCM technology, but, due to the complexity of the phenomena and the high consumptions of resources for both approaches, it has not been possible to evaluate different configurations that lead to optimized designs for selection, location and amount of PCM. This fact shows the need to develop simplified models that consider the main physical phenomena in the operation, in order to support the experimental and numerical techniques to determine the comprehensive thermal behavior. This kind of models can be used to estimate the performance for different configurations and boundary conditions in a fast way, to make possible in a posterior stage a detailed evaluation with numerical analysis or an experimental technique. In this paper, a simplified comprehensive model for assessing thermal performance of a flat-plate solar collector with PCM is presented with incorporation of specialized semi-empirical correlations. The model takes into account the main thermodynamic and heat transfer processes in the device, including the internal and external convection effects, conduction, solar radiation analysis, radiation, losses and interactions between surfaces, material solid-liquid phase change and conjugated problems in gas-liquid-solid zones. Due to the numerous existing design alternatives, consideration of an excessive number of options in the final design can lead to long development times and process inefficiencies. Therefore, a methodology of design that includes fast calculations of the main thermal parameters is highly regarded, since this can reduce the number of study cases and thus obtain optimal configurations from the simplified models. The performance of the reduced model, including a sensibility analysis of several input data, is compared qualitatively with results obtained in a traditional collector for a typical cycle available in bibliography. Integrated simplified models are developed to perform a coarse preliminary design of flat solar collectors with incorporation of PCM technology, and thus serve as a pre-evaluator of the different configurations.
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Reports on the topic "Thermodynamics – Bibliography"

1

Golderberg, Robert N., and D. K. Steckler. A bibliography of sources of thermodynamic data for the systems. National Bureau of Standards, 1985. http://dx.doi.org/10.6028/nbs.sp.699.

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