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Chlorine. International Thermodynamic Tables of the Fluid State PDF

169 Pages·1985·2.401 MB·English
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INTERNATIONAL UNION OF PURE AND APPLIED CHEMISTRY IUPAC Secretariat: Bank Court Chambers, 2-3 Pound Way Cowley Centre, Oxford OC4 3UF, UK International Thermodynamic Tables of the Fluid State Volume 1 Argon Volume 2 Ethylene Volume 3 Carbon Dioxide Volume 4 Helium Volume 5 Methane Volume 6 Nitrogen Volume 7 Propylene (Propene) Volume 8 Chlorine (Tentative Tables A full list of titles in the Chemical Data Series is to be found on page 161 NOTICE TO READERS Dear Reader An Invitation to Publish in and Recommend the Placing of a Standing Order to Volumes Published in this Valuable Series If your library is not already a standing/continuation order customer to this series, may we recommend that you place a standing/continuation order to receive immediately upon publication all new volumes. Should you find that these volumes no longer serve your needs, your order can be cancelled at any time without notice. The Editors and the Publisher will be glad to receive suggestions or outlines of suitable titles, reviews or symposia for editorial consideration: if found acceptable, rapid publication is guaranteed. ROBERT MAXWELL Publisher at Pergamon Press INTERNATIONAL UNION OF PURE AND APPLIED CHEMISTRY IUPAC Secretariat: Bank Court Chambers, 2-3 Pound Way Cowley Centre, Oxford OC4 3UF, UK International Thermodynamic Tables of the Fluid State Volume 1 Argon Volume 2 Ethylene Volume 3 Carbon Dioxide Volume 4 Helium Volume 5 Methane Volume 6 Nitrogen Volume 7 Propylene (Propene) Volume 8 Chlorine (Tentative Tables A full list of titles in the Chemical Data Series is to be found on page 161 NOTICE TO READERS Dear Reader An Invitation to Publish in and Recommend the Placing of a Standing Order to Volumes Published in this Valuable Series If your library is not already a standing/continuation order customer to this series, may we recommend that you place a standing/continuation order to receive immediately upon publication all new volumes. Should you find that these volumes no longer serve your needs, your order can be cancelled at any time without notice. The Editors and the Publisher will be glad to receive suggestions or outlines of suitable titles, reviews or symposia for editorial consideration: if found acceptable, rapid publication is guaranteed. ROBERT MAXWELL Publisher at Pergamon Press INTERNATIONAL UNION OF PURE AND APPLIED CHEMISTRY CHEMICAL DATA SERIES NO. 31 DIVISION OF PHYSICAL CHEMISTRY COMMISSION ON THERMODYNAMICS THERMODYNAMIC TABLES PROJECT Chlorine International Thermodynamic Tables of the Fluid State — 8 Tentative Tables S. ANGUS B . ARMSTRONG K. M. de REUCK IUPAC Thermodynamic Tables Project Centre Imperial College of Science and Technology, London, UK PERGAMON PRESS OXFORD • NEW YORK • TORONTO • SYDNEY • PARIS • FRANKFURT U.K. Pergamon Press Ltd., Headington Hill Hall, Oxford OC3 OBW, England U.S.A. Pergamon Press Inc., Maxwell House, Fairview Park, Elmsford, New York 10523, U.S.A. CANADA Pergamon Press Canada Ltd., Suite 104, 150 Consumers Road, Willowdale, Ontario 123 1P9, Canada AUSTRALIA Pergamon Press (Rust.) Pty. Ltd., P.O. Box 544, Potts Point, N.S.W. 2011, Australia FRANCE Pergamon Press SARL, 24 rue des Ecoles, 75240 Paris, Cedex 05, France FEDERAL REPUBLIC Pergamon Press GmbH, Hammerweg 5, OF GERMANY D-6242 Kronberg-Taunus, Federal Republic of Germany Copyright © 1985 International Union of Pure and Applied Chemistry All Rights Reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any means: electronic, electrostatic, magnetic tape, mechanical, photocopying, recording or otherwise, without permission in writing from the copyright holders. First edition 1985 Library of Congress Cataloging in Publication Data (Revised for vol. 8) Thermodynamic Tables Project. International thermodynamic tables of the fluid state. (Chemical data series ; no. 16- ) Vol. 2- edited and compiled by S. Angus, B. Armstrong, and K. M. de Reuck. Text in English; preface and introduction in English, French, German, and Russian. Vol. 3- published by: Oxford ; New York : Pergamon Press. Vol. 1- lack series statement. Includes bibliographies. Contents: [v. 1] Argon — [ n. 2] Ethylene — [etc.] — v. 8. Chlorine. 1. Thermodynamics — Tables — Collected works. I. Angus, S. (Selby) II. Armstrong, B. III. Reuck, K. M. de. IV. Series: IUPAC chemical data series ; no. 16, etc. V. Title. QD505.T48 1976 541.3'69 76-18256 British Library Cataloguing in Publication Data International thermodynamic tables of the fluid state. — (Chemical data series/International Union of Pure and Applied Chemistry; no. 31) 8 : Chlorine : tentative tables 1. Fluids — Thermal properties — Tables 2. Thermodynamics — Tables I. Angus, S. II. Armstrong, B. III. De Reuck, K. M. IV. Series 536'.7 QC145.4.T5 ISBN 0-08-030713-2 Printed in Great Britain by A. Wheaton & Co. Ltd., Exeter Dedicated to the memory of J. B. Armstrong 1944-1982 by his fellow-authors S. Angus and K. M. de Reuck PREFACE The Thermodynamic Tables Project was inaugurated in 1963 by the Commission on Thermodynamics and Thermochemistry of the Division of Physical Chemistry with the object of compiling internationally agreed values of the equilibrium thermodynamic properties of liquids and gases of interest to both scientists and technologists. The range to be covered for each fluid is that for which there exist reliable experimental data, and the agreed values will be issued as tables upon the basis of which users may produce equations suited to their own special requirements, if the wide-ranging equations given are not ap- propriate for their purposes. Tables on argon, ethylene, carbon dioxide, helium, methane, nitrogen and propylene have already appeared based on these principles. It has become evident that there are a considerable number of important fluids for which the existing data, and any data which can be expected in the foreseeable future, are not adequate to form the basis of extensive tables using the above criteria. So, from time to time, other volumes will be produced when it is felt that a combination of data and estima- tion can be used to construct tentative tables which are an improvement on those currently available. These tables for chlorine are the first such tentative tables. The general policy of the Project is formulated by a Sub-Committee appointed by IUPAC and currently consisting of: Dr. H. V. Kehiaian (Chairman) Dr. A. D. Kozlov Dr. S. Angus Dr. S. Malanowski Prof. J. Kestin Prof. K. Watanabe Prof. F. Kohler Dr. H. J. White, Jr. The work of the Project is co-ordinated and assisted by a small permanent Project Centre under the direction of Dr. S. Angus, located at Imperial College of Science and Technology, London. Paris H. V. Kehiaian May 1982 on behalf of the IUPAC Sub-Committee on Thermodynamic Tables. c LIST OF FIGURES 1. Distribution of available experimental Pp T data. 11 2. Comparison of some selected experimental vapour pressure data with corresponding states estimations. 19 3. Comparison of available saturated liquid density data with corresponding states estima- tions. 19 4. Comparison of available saturated vapour density data with corresponding states estimations. 19 5. Comparison of experimental Pp T data for fluorine, by Prydz and Straty, with cor- responding states estimations. 22 6. Comparison of experimental isochoric heat capacity data for fluorine, by Prydz and Goodwin, with corresponding states estimations. 22 7. Distribution of estimated isochoric heat capacity data. 22 8. Comparison of speed of sound data from the IUPAC methane tables with correspond- ing states estimations. 23 9. Comparison of experimental speed of sound data for propylene, by Soldatenko and Dregulyas, with corresponding states estimations. 23 10. Distribution of estimated speed of sound data. 23 11. Comparison of experimental Pp T data for fluorine, by Prydz and Straty, with values calculated from Deiters' equation. 26 12. Distribution of estimated Pp T data. 26 13. Variation of the saturation density near the critical point showing the experimental results of Tsekhanskaya, Polyakova and Kozlovskaya. 36 14. Comparison of experimental vapour pressure data with values calculated from the equation of state. 36 15. Comparison of estimated vapour pressure data with values calculated from the equa- tion of state. 38 16. Comparison of experimental saturated liquid density data with values calculated from the equation of state. 38 17. Comparison of experimental saturated vapour density data with values calculated from the equation of state. 38 18. Comparison of estimated enthalpy of evaporation data with values calculated from the equation of state. 40 19. Variation of isobaric heat capacity in the liquid phase at saturation, showing the avail- able experimental results. 40 20. Boundaries of Tables, (a) in R T coordinates, (b) in pT coordinates. 59 21. Tolerances on density. 159 22. Tolerances on speed of sound. 160 xi TABLES IN TEXT A. Measurements of the critical point parameters. 2 B. Available vapour pressure data. 5 C. Available saturated density data. 8 D. Available P p T data. 10 E. Selected input data used in constructing the preliminary and final equation of state. 31 F. Available calculations of the ideal gas properties. 43 G. Increments of entropy and enthalpy from the perfect crystal at zero temperature to the ideal gas at 298.15 K and 1 atm pressure. 46 H. Numerical values of the coefficients N of the equation of state, (20). 50 I. Contributary terms of the equation of state, (20), for the calculation of properties. 51 J. Numerical values of the coefficients f of equations (16), (17) and (18). 52 K. Numerical values of the coefficients of auxiliary equations (13), (14) and (15), representing properties along the two-phase boundaries. 57 xii SYMBOLS This list of symbols follows the recommendations of the IUPAC Manual of Symbols and Terminology for Physico-Chemical Quantities and Units(70). The subscript "m", indicating "molar", has been omitted, since no ambiguity arises. Symbol Physical Quantity R Gas constant T Thermodynamic temperature* P Pressure 3 Molar volume 3 Specific volume R Molar density U Molar internal energy H Molar enthalpy S Molar entropy G Molar Gibbs free energy B Second virial coefficient C Molar heat capacity Z Compression factor, Realfaktor f Fugacity w Speed of sound T T /T c w V / V c M Joule-Thomson coefficient, (aT /8P ) H U Ratio of heat capacities, (C /C1) Subscripts P, V, etc. at constant pressure, volume, etc. g in the gas phase 1 in the liquid phase c at the critical point t at the triple point s along the saturation curve m along the melting curve R dimensionless value data experimental results, or input data derived from calculation calc values calculated from a given equation Superscripts id Ideal gas state ic Ideal crystal * In equations, for T is substituted the numerical value of the temperature on IRTS-68 xiii UNITS AND CONVERSION FACTORS The units used in these tables are given in the left-hand column; and conversion factors, including a change from molar to specific quantities, are based on the assumption that one mole of chlorine molecules has a mass of 0.070906 kg(68). To convert from To Multiply by Pressure in 'Pa Pressure in Pa 106 Pressure in bar 10 Pressure in atm 9.869 23 Pressure in kgf cm-2 10.197 2 Pressure in lbf in-2 145.038 Pressure in mmHg 7500.62 -1 Molar volume in Molar volume in m3 mol 10-6 cm3 mol Specific volume in m3 kg-1 .000 014 103 Specific volume in cm3 g-1 .014 103 -1 Specific volume in ft31b .000 225 91 Density in Density in mol m-3 103 mol dm-3 Density in kg m-3 70.906 0 Density in g cm-3 .070 906 0 Density in lb ft-3 4.426 517 -1 Molar energy in Specific energy in J kg 14.103 J mol-M Specific energy in MPa cm3 g- .014 103 -1 Specific energy in cal g .003 370 72 th -1 Specific energy in ca1 g .003 368 5 1T Specific energy in BTU lb- 1 .006 063 -1 Molar energy in cal mo1 .239 006 th Molar entropy in Specific entropy in J K-1 1 14.103 J K-1mol-1 Specific entropy in MPa ckmg3- K-i g-1 .014 103 -1 Specific entropy in cal K- 1 g .003 370 72 th -1 g-1 Specific entropy in ca1 K .003 368 5 1T -1 Specific entropy in BTU °F 1 lb .003 368 5 -1 -1 Molar entropy in cal K mol .239 006 th Molar enthalpy in Conversion factors as for molar energy -1 J mol Molar heat capacity Conversion factors as for molar entropy -1 in J K-1mo1 xiv

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