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海洋热力学
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{| class="wikitable" align="right" |- | style="background: #008080" align= center| '''<big>海洋热力学</big> ''' |- | [[File:0a924fa503604eeeb029eac4a90e1950.jpg|缩略图|居中|[http://pic.baike.soso.com/ugc/baikepic2/18071/20180210000954-1320554012_png_447_654_148875.jpg/0 原图链接][http://baike.sogou.com/v173248690.htm?fromTitle=%E6%B5%B7%E6%B0%B4%E7%83%AD%E5%8A%9B%E5%AD%A6 来自 搜狗 的图片]]] |- | style="background: #008080" align= center| |- | align= light| |} 《海水热力学》是1981年海洋出版社出版的图书,作者是崔清晨、[[戴望镠]]。 =='''目录'''== '''内容简介''' '''图书目录''' =='''内容简介'''== 本书把海水看作是一种多组分电解质溶液,应用热力学的一般原理讨论海水中水与各种电解质的相互作用和变化规律,以揭示海水中所发生的化学过程的实质。全书(共分两册)非常详细地论述了海水中各组分——水和电解质的所有偏克分子量。 在第一册中,前二章概述了热力学和数学方面的一些必要的基础知识,以后各章论述了熵、体积、[[膨胀系数]]和压缩系数;在第二册中将论述自由能、焓和比热。本书可为从事海洋化学和电解质溶液方面研究的科技人员及大专院校师生了解和研究有关问题时参考。 =='''图书目录'''== '''译者的话''' 前言 第1章基础知识:某些热力学概念和方程.............................................................(1) 1.1引言...........................................................................................................(1) 1.2热力学定律..........................................................................................(1) 1.3可逆过程与平衡..........................................................................................(4) 1.4溶液...........................................................................................................(6) 1.5化学势.........................................................................................................(8) 1.6化学势的微商...............................................................................................(10) 1.7一般偏克分子方程........................................................................................(11) 1. 8组成不变的溶液(内平衡体系)的某些有用的热力学关系式...................................(15) 1.9平衡常数和标准态......................................................................................(17) 1.10海水溶液...............................................................................................(22) 参考文献........................................................................................................(26) 第2章几点数学注解.............................................................................................(28) 2.1引言.......................................................................................................(28) 2.2偏微分.........................................................................................................(28) 2.3全微分.......................................................................................................(30) 2.4用数字模拟计算机系统求解微分方..程.........................................................(31) 2.5单位...........................................................................................................(32) 参考文献...........................................................................................................(33) 第3章熵............................................................................................................(34) 3.1引言.........................................................................................................(34) 3.2平衡条件下的熵交换............................................................................(34) 3.3熵随温度的变化......................................................................................(34) 3.4纯物质的绝对熵............................................................................................(35) 3.5熵随压力的变化...........................................................................................(37) 3.6电解质溶液..................................................................................................(38) 3.7二元溶液.....................................................................................................(38) 3.8电解质偏克分子熵的计算......................................................................(50) 3.9与标准偏克分子熵(spme)的相关关系.............................................................(56) 3.10二元溶液中海水组分的偏克分子熵(pme) .....................................................(58) 3.11海水的熵、海水中的水和海水中的溶质的熵.......................................................(60) 3.12压力对纯水熵的影响.....................................................................................(62) 3.13熵随压力的变化...........................................................................................(64) 3.14海水中的水.........................................................................................(71) 参考文献..........................................................................................................(78) 附录3 .........................................................................................................(81) 附录3参考文献.................................................................................................(90) 第4章偏克分子体积:化学势对压力的微商........................................................(92) 4.1基本方程.....................................................................................................(92) 4.2表观克分子体积(amv) .................................................................................(93) 4.3多组分溶液..................................................................................................(99) 4.4海水溶液...................................................................................................(105) 4.5离子的偏克分子体积.......................................................................................(114) 4.6海盐....................................................................................(123) 4.7海水中水的表观比容(asv)和偏克分子体积......................................................(133) 参考文献............................................................................................................(137) 附录4 .............................................................(140) 附录4参考文献..............................................................................(146) 第5章膨胀系数:偏克分子体积对温度的微商......................................................(147) 5.1基本方程....................................................................................................(147) 5.2离子的偏克分子膨胀系数.................................................................................(149) 5.3任意温度下海水中各种盐的偏克分子体积的计算................................................(149) 5.4海水溶液......................................................................................................(153) 5.50—30℃范围内海盐的平均偏克分子体积.............................................................(154) 5.6海盐的平均偏克分子膨胀系数和平均表观克分子膨胀系数........................................(157) 5.7水和海水的热膨胀...................................................(164) 参考.文...献............................................................................(175) 附录...5........................................................................................(177) 附录5参考文...献................................................................................(180) 第6章压缩系数:偏克分子体积对压力的微商......................................................(181) 6.1基本方程式................................................................................................(181) 6.2二元溶液.......................................................................................................(183) 6.3泰特方程与泰特一吉布.森..方..程....................................................(192) 6.4由体积压缩数据估算偏克分子体积随压力的变.....................................................(201) 6.5压力直到1000巴时海盐的偏克分子体积................................................................(204) 6.6由声速的测定结果求压缩系数............................................................................(208) 6.7水的等温压缩.系..数...............................................................(213) 6.8海水的等温压缩系数.....................................................................(233) 6.9海盐的平均表观克分子压缩系数..................................................................(239) 6.10海盐的平均偏克分子压缩系数...........................................................................(241) 6.11海水中电解质的偏克分子压缩系数...................................................................(246) 6.12光学性质和压缩系数....................................................................................(249) 参考文献..........................................................................................................(261) 附录6 ..............................................................................................................(267) 附录6参考文献..................................................................................................(271)
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