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Archives of Thermodynamics

Archives of Thermodynamics

Description

The aim of the quarterly journal Archives of Thermodynamics is to disseminate knowledge between scientists and engineers worldwide and to provide a forum for original research conducted in the field of thermodynamics, heat transfer, fluid flow, combustion and energy conversion in various aspects of thermal sciences, mechanical and power engineering. Besides original research papers, review articles are also welcome.

The journal scope of interest encompasses in particular, but is not limited to:

  • Classical and extended non-equilibrium thermodynamics,
  • Thermodynamic analysis including exergy,
  • Thermodynamics of heating and cooling,
  • Thermodynamics of nuclear power generation,
  • Thermodynamics in defense engineering,
  • Advances in thermodynamics,
  • Experimental, theoretical and numerical heat transfer,
  • Heat and momentum transfer in multiphase flows and nanofluids,
  • Renewable energy sources including solar energy,
  • Hydrogen Energy,
  • Thermal Energy Conversion,
  • Energy Transition,
  • Advanced Energy Carriers,
  • Energy storage and efficiency,
  • Energy in buildings,
  • Secondary fuels and fuel conversion,
  • Combustion and emissions,
  • Thermal incineration of wastes and waste heat recovery,
  • Thermal and energy system analysis,
  • Combined and integrated energy systems,
  • Distributed energy generation,
  • Turbomachinery.


Appears since 1980, four issues per year.

Publication funding of this journal is provided by resources of the Polish Academy of Sciences and The Szewalski Institute of the Fluid-Flow Machinery of the Polish Academy of Sciences.

Scoring assigned by the Polish Ministry of Science and Higher Education: 140 points

IMPACT FACTOR 2022: 0.9

CiteScore metrics from Scopus, CiteScore 2022: 1.5

SCImago Journal Rank (SJR) 2022: 0.258

Source Normalized Impact per Paper (SNIP) 2022: 0.512

H-index: 17

Overall Rank/Ranking: 17629



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ISSN
ISSN 1231-0956, eISSN 2083-6023
Publishers
The Committee of Thermodynamics and Combustion of the Polish Academy of Sciences and The Institute of Fluid-Flow Machinery Polish Academy of Sciences
International Advisory Board

J. Bataille, Ecole Central de Lyon, Ecully, France

A. Bejan, Duke University, Durham, USA

W. Blasiak, Royal Institute of Technology, Stockholm, Sweden

G. P. Celata, ENEA, Rome, Italy

L.M. Cheng, Zhejiang University, Hangzhou, China

M. Colaco, Federal University of Rio de Janeiro, Brazil

J. M. Delhaye, CEA, Grenoble, France

M. Giot, Université Catholique de Louvain, Belgium

K. Hooman, University of Queensland, Australia

D. Jackson, University of Manchester, UK

D.F. Li, Kunming University of Science and Technology, Kunming, China

K. Kuwagi, Okayama University of Science, Japan

J. P. Meyer, University of Pretoria, South Africa

S. Michaelides, Texas Christian University, Fort Worth Texas, USA

M. Moran, Ohio State University, Columbus, USA

W. Muschik, Technische Universität Berlin, Germany

I. Müller, Technische Universität Berlin, Germany

H. Nakayama, Japanese Atomic Energy Agency, Japan

A. Nenarokomov, Moscow Aviation Institute, Russia

S. Nizetic, University of Split, Croatia

H. Orlande, Federal University of Rio de Janeiro, Brazil

M. Podowski, Rensselaer Polytechnic Institute, Troy, USA

A. Rusanov, Institute for Mechanical Engineering Problems NAS, Kharkiv, Ukraine

M. R. von Spakovsky, Virginia Polytechnic Institute and State University, Blacksburg, USA

A. Vallati, Sapienza University of Rome, Italy

H.R. Yang, Tsinghua University, Beijing, China



Honorary Editor
Jarosław Mikielewicz, The Szewalski Institute of Fluid-Flow Machinery PAS, Poland

Editor-in-Chief
Paweł Ocłoń, Cracow University of Technology, Cracow, Poland


Section Editors

Piotr Lampart, The Szewalski Institute of Fluid Flow Machinery PAS, Gdańsk, Poland

S. Polesek-Karczewska, The Szewalski Institute of Fluid Flow Machinery PAS, Gdańsk, Poland

I. Szczygieł, Silesian University of Technology, Gliwice, Poland

A. Szlęk, Silesian University of Technology, Gliwice, Poland


Members of Programme Committee

P. Furmański, Warsaw University of Technology, Poland

J. Badur, The Szewalski Institute of Fluid Flow Machinery PAS, Gdańsk, Poland

T. Chmielniak, Silesian University of Technology, Gliwice, Poland

D. Kardaś, The Szewalski Institute of Fluid Flow Machinery PAS, Gdańsk, Poland

R. Kobyłecki, Częstochowa University of Technology, Częstochowa, Poland

S. Pietrowicz, Wrocław University of Science and Technology, Wrocław, Poland

J. Wajs, Gdańsk University of Technology, Gdańsk, Poland


Managing Editor
Jarosław Frączak, The Szewalski Institute of Fluid Flow Machinery PAS, Poland

Wydawnictwo IMP

The Szewalski Institute of Fluid Flow Machinery PAS

Fiszera 14, 80-952 Gdańsk, Poland

telephone: +48 58 5225 141, fax: +48 58 3416 144

e-mail: jfrk@imp.gda.pl; redakcja@imp.gda.pl

http://www.imp.gda.pl/archives-of-thermodynamics/

https://www.journals.pan.pl/ather

 

 

For articles published in Archives of Thermodynamics, the authors transfer copyright to publisher.


The Archives of Thermodynamics is published in formula: Open Access Gratis.
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Content

Archives of Thermodynamics | 2018 | vol. 39 | No 2

1 Characteristics of single wood particle pyrolysis using particle image velocimetry
Dariusz Kardaś , Jacek Kluska , Karol Ronewicz
Archives of Thermodynamics | 2018 | vol. 39 | No 2
Keywords: pyrolysis particle image velocimetry gas cushion
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Abstract

This study examines the pyrolysis of a single cylindrical wood particle using particle image velocimetry (PIV). The pyrolysis was conducted inside a pyrolysis reactor designed for this purpose. The experimental setup presented in this paper is capable of effectively characterizing the intensity of pyrolysis based on velocity distribution in the vicinity of wood particles. The results of the gas velocity distribution show that evaporation of moisture has as a major impact on the formation of the gas cushion as devolatilization.
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Authors and Affiliations

Dariusz Kardaś
Jacek Kluska
Karol Ronewicz
2 Effect of diffusion and internal heat source on a two-temperature thermoelastic medium with three-phase-lag model
Othman Mohamed I. , Said Samia M.
Archives of Thermodynamics | 2018 | vol. 39 | No 2
Keywords: diffusion Green-Naghdi theory internal heat source Three-phase-lag model Two-temperature
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Abstract

The purpose of this paper is to depict the effect of diffusion and internal heat source on a two-temperature magneto-thermoelastic medium. The effect of magnetic field on two-temperature thermoelastic medium within the three-phase-lag model and Green-Naghdi theory without energy dissipation i discussed. The analytical method used to obtain the formula of the physical quantities is the normal mode analysis. Numerical results for the field quantities given in the physical domain are illustrated on the graphs. Comparisons are made with results of the two models with and without diffusion as well as the internal heat source and in the absence and presence of a magnetic field.
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Authors and Affiliations

Othman Mohamed I.
Said Samia M.
3 Design and investigations of the ethanol microturbine
Krzysztof Kosowski , Marian Piwowarski , Robert Stępień , Wojciech Włodarski
Archives of Thermodynamics | 2018 | vol. 39 | No 2
Keywords: micropower generation microturbine ORC power plants
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Abstract

The paper presents the results of the design analysis and experimental investigations of the microturbine set consisting of the microturbine with partial admission and permanent magnet generator. The microturbine was designed for operation with the vapour of ethanol as a working fluid. Microturbine unit was tested for different parameters of the working fluid and varying the electrical load. The examples and the comparison between experiment results and numerical simulations are shown and discussed in the paper.
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Authors and Affiliations

Krzysztof Kosowski
Marian Piwowarski
Robert Stępień
Wojciech Włodarski
4 Impact of subgrid modelling and numerical method on autoignition simulation of two-phase flow
Jakub Stempka
Archives of Thermodynamics | 2018 | vol. 39 | No 2
Keywords: Discretization schemes Convective terms WENO TVD Spray combustion
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Abstract

The present work focuses on analyses of the autoignition delay time predicted by the large eddy simulation (LES) method by applying different subgrid scales (SGS) models and two different discretization schemes. The analysed flow configuration is a two-phase chemically reacting turbulent flow with monodispersed evaporating fuel droplets. The impact of numerical procedure is investigated in a 3D flow domain with a temporally evolving mixing layer that constituted between the streams of fuel and oxidizer that moved in opposite directions. The upper stream of cold gas carries a dispersed fuel spray (ethanol at 300 K). The lower stream is a hot air at 1000 K. Three commonly used in LES, SGS models are investigated, namely: classical Smagorinsky model, model proposed by Vreman and the σ-model proposed by Nicoud. Additionally, the impact of two discretization schemes, i.e., total variation diminishing (TVD) and weighted essentially nonoscillatory (WENO) is analysed. The analysis shows that SGS model and discretization scheme can play a crucial role in the predictions of the autoignition time. It is observed that for TVD scheme the impact of SGS model is rather small. On the contrary, when the WENO scheme is applied the results are much more dependent on the SGS model.
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Authors and Affiliations

Jakub Stempka
5 Hybrid cascade refrigeration systems for refrigeration and heating
Archives of Thermodynamics | 2018 | vol. 39 | No 2
Keywords: Ejector cycle Heat pump Comparison Refrigerant Coefficient of performance Irreversibility Exergy loss Second law efficiency
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Abstract

In this study a cooling ejector cycle coupled to a compression heat pump is analyzed for simultaneous cooling and heating applications. In this work, the influence of the thermodynamic parameters and fluid nature on the performances of the hybrid system is studied. The results obtained show that this system presents interesting performances. The comparison of the system performances with hydrofluorocarbons (HFC) and natural fluids is made. The theoretical results show that the a low temperature refrigerant R32 gives the best performance.
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6 Thermal analysis of generalized Burgers nanofluid over a stretching sheet with nonlinear radiation and non uniform heat source/sink
Ganesh Kumar K. , B.J. Gireesha , G.K. Ramesh
Archives of Thermodynamics | 2018 | vol. 39 | No 2
Keywords: Burgers nanofluid Non-uniform heat source/sink Non-linear radiation Magnetic field Stretching surface
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Abstract

The work deals with the heat analysis of generalized Burgers nanofluid over a stretching sheet. The Rosseland approximation is used to model the non-linear thermal radiation and incorporated non-uniform heat source/sink effect. The governing equations reduced to a set of nonlinear ordinary differential equations under considering the suitable similarity transformations. The obtained ordinary differential equations equations are solved numerically by Runge-Kutta-Fehlberg order method. The effect of important parameters on velocity, temperature and concentration distributions are analyzed and discussed through the graphs. It reveals that temperature increases with the increase of radiation and heat source/sink parameter.
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Authors and Affiliations

Ganesh Kumar K.
B.J. Gireesha
G.K. Ramesh
7 Pressure drop related to flow maldistribution in a model minichannel plate heat exchanger
Michał Klugmann , Paweł Dąbrowski , Dariusz Mikielewicz
Archives of Thermodynamics | 2018 | vol. 39 | No 2
Keywords: pressure drop Transient flow Minichannel plate heat exchanger Flow maldistribution
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Abstract

The paper describes issues related to pressure drop that accompanies the phenomenon of maldistribution of working fluid between the channels of a model minichannel plate heat exchanger. The research concerns a single exchanger’s plate containing 51 (in every geometry) parallel rectangular minichannels of hydraulic diameters 461 μm, 571 μm, 750 μm, and 823 μm. In addition, more complex geometry has been investigated, equipped with additional diagonal channels (so called extended geometry). The moment of the liquid phase transition through the heat exchanger was recorded at the flow rates ranging from 0.83 g/s to 13.33 g/s in the inlet manifold. The paper discusses the total pressure drop as a function of the flow rate and the characteristic dimension of minichannels, as well as the pressure drop as a function of the time of the fluid passage through the main part of the measuring section in which measurements were done. The resulting profiles correlate with the images of the flow distribution between channels recorded using the fast shutter speed camera, that allows to draw a further conclusions about the specifics of the maldistribution process. The impact of the total pressure drop on the actual range of optimum operating conditions of the heat exchanger was analyzed.
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Authors and Affiliations

Michał Klugmann
Paweł Dąbrowski
Dariusz Mikielewicz
8 Contents
Archives of Thermodynamics | 2018 | vol. 39 | No 2
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Instructions for authors

Archives of Thermodynamics publishes original papers which have not previously appeared in other journals. The journal does not have article processing charges (APCs) nor article submission charges. The language of the papers is English. The paper should not exceed the length of 25 pages. All pages should be numbered. The plan and form of the papers should be as follows:

1. The heading should specify the title (as short as possible), author, his/her complete affiliation, town, zip code, country and e-mail. Please indicate the corresponding author. The heading should be followed by Abstract of maximum 15 typewritten lines and Keywords.

2. More important symbols used in the paper can be listed in Nomenclature, placed below Abstract and arranged in a column, e.g.:
u – velocity, m/s
v – specific volume, m/kg etc.
The list should begin with Latin symbols in alphabetical order followed by Greek symbols also in alphabetical order and with a separate heading. Subscripts and superscripts should follow Greek symbols and should be identified with separate headings. Physical quantities should be expressed in SI units ( Système International d’Unités).

3. All abbreviations should be spelled out first time they are introduced in the text.

4. The equations should be each in a separate line. Standard mathematical notation should be used. All symbols used in equations must be clearly defined. The numbers of equations should run consecutively, irrespective of the division of the paper into sections. The numbers should be given in round brackets on the righthand side of the page.

5. Particular attention should be paid to the differentiation between capital and small letters. If there is a risk of confusion, the symbols should be explained (for example small c) in the margins. Indices of more than one level (such as Bfa) should be avoided wherever possible.

6. Computer-generated figures should be produced using bold lines and characters. No remarks should be written directly on the figures, except numerals or letter symbols only. Figures should be as small as possible while displaying clearly all the information requires, and with all lettering readable. The relevant explanations can be given in the caption.

7. The figures, including photographs, diagrams, etc., should be numbered with Arabic numerals in the same order in which they appear in the text. Each figure should have its own caption explaining the content without reference to the text.

8. Computer files on an enclosed disc or sent by e-mail to the Editorial Office are welcome. The manuscript should be written as a MS Word file – ∗.doc, ∗.docx or LATEX file – ∗.tex. For revised manuscripts after peer review process, figures should be submitted as separate graphic files in either vector formats (PostScript (PS), Encapsulated PostScript (EPS), preferable, CorelDraw (CDR), etc.) or bitmap formats (Tagged Image File Format (TIFF), Joint Photographic Experts Group (JPEG), etc.), with the resolution not lower than 300 dpi, preferably 600 dpi. These resolutions refer to images sized at dimensions comparable to those of figures in the print journal. Therefore, electronic figures should be sized to fit on single printed page and can have maximum 120 mm x 170 mm. Figures created in MS World, Exel, or PowerPoint will not be accepted. The quality of images downloaded from websites and the Internet are also not acceptable, because of their low resolution (usually only 72 dpi), inadequate for print reproduction.

9. The references for the paper should be numbered in the order in which they are called in the text. Calling the references is by giving the appropriate numbers in square brackets. The references should be listed with the following information provided: the author’s surname and the initials of his/her names, the complete title of the work (in English translation) and, in addition:

(a) for books: the publishing house and the place and year of publication, for example:
[1] Holman J.P.: Heat Transfer. McGraw-Hill, New York 1968.

(b) for journals: the name of the journal, volume (Arabic numerals in bold), year of publication (in round brackets), number and, if appropriate, numbers of relevant pages, for example:
[2] Rizzo F.I., Shippy D.I.: A method of solution for certain problems of transient heat conduction . AIAA J. 8(1970), No. 11, 2004–2009.

For works originally published in a language other than English, the language should be indicated in parentheses at the end of the reference.

Authors are responsible for ensuring that the information in each reference is complete and accurate.

10. As the papers are published in English, the authors who are not native speakers of English are obliged to have the paper thoroughly reviewed language-wise before submitting for publication.


Manuscript submission

Manuscripts to be considered for publication should be electronically submitted to the Editorial Office via the online submission and reviewing system, the Editorial System, at http://www.editorialsystem.com/aot. Submission to the journal proceeds totally on line and you will be guided stepwise throughout the process of the creation and uploading of your files. The body of the text, tables and figures, along with captions for figures and tables should be submitted separately. The system automatically converts source files to a single PDF file article, for subsequent approval by the corresponding Author, which is then used in the peer-review process. All correspondence, including notification confirming the submission of the manuscripts to the Editorial Office, notification of the Editorsñs decision and requests for revision, takes place by e-mails. Authors should designate the corresponding author, whose responsibility is to represent the Authors in contacts with the Editorial Office. Authors are requested not to submit the manuscripts by post or e-mail.
The illustrations may be submitted in color, however they will be printed in black and white in the journal, so the grayscale contributions are preferable. Therefore, the figure caption and the entire text of the paper should not make any reference to color in the illustration. Moreover the illustration should effectively convey author’s intended meaning when it is printed as a halftone. The illustrations will be reproduced in color in the online publication.


Further information

All manuscripts will undergo some editorial modification. The paper proofs (as PDF file) will be sent by e-mail to the corresponding author for acceptance, and should be returned within two weeks of receipt. Within the proofs corrections of minor and typographical errors in: author names, affiliations, articles titles, abstracts and keywords, formulas, symbols, grammatical error, details in figures, etc., are only allowed, as well as necessary small additions. The changes within the text will be accepted in case of serious errors, for example with regard to scientific accuracy, or if authors reputation and that of the journal would be affected. Submitted material will not be returned to the author, unless specifically requested. A PDF file of published paper will be supplied free of charge to the Corresponding Author. Submission of the manuscript expresses at the same time the authors consent to its publishing in both printed and electronic versions.


Transfer of Copyright Agreement

Submission of the manuscript means that the authors automatically agree to assign the copyright to the Publisher. Once a paper has been accepted for publication, as a condition of publication, the authors are asked to send by email a scanned copy of the signed original of the Transfer of Copyright Agreement, signed by the Corresponding Author on behalf of all authors to the Managing Editor of the Journal. The copyright form can be downloaded from the journal’s website at http://www.imp.gda.pl/archives-of-thermodynamics/ under Notes for Contributors.

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