基本介紹
- 書名:鎢礦物原料鹼分解的基礎理論及新工藝
- 作者:李洪桂
- ISBN:7-81061-016-3
- 頁數:246(頁)
- 定價:¥20.00(元)
- 出版社:中南大學出版社
- 出版時間:1997-12
- 開本:32開
圖書信息,內容簡介,圖書目錄,
圖書信息
【作 者】:李洪桂
【出 版 社】:中南大學出版社
【出版時間】:1997-12
【ISBN】:7-81061-016-3
【字 數】:198(千字)
【頁 碼】:246(頁)
【定 價】:¥20.00(元)
【開 本】:32開
內容簡介
本書全面歸納了作者在我國豐產元素鎢的礦物原料鹼分解方面的理論研究成果,以及在此基礎上開發的並已在國內鎢冶金企業廣為採用的新工藝——鎢礦物原料機械活化(俗稱熱球磨)鹼分解工藝方面的研究成果。本書可作為稀有金屬冶金企業特別是鎢冶金企業技術人員、冶金工程專業的教師、研究生、本科生及有關的研究人員的參考書。
圖書目錄
前言………………………………………………………………(1)
Ⅰ.基礎理論研究關於鎢礦物原料氫氧化鈉分解的若干基本理論問題的分析………………李洪桂(1)
白鎢礦鹼分解過程的熱力學…………………孫培梅等(11)
白鎢礦鹼分解過程的熱力學和動力學………李運姣等(19)
氫氧化鈉與黑鎢礦反應的動力學……………李 軍等(30)
Na2WO4在NaOH-H2O系中的溶解度……李洪桂等(41)
Na2WO4-NaOH-H2O系的蒸氣壓…………李洪桂等(54)
Na2WO4-NaOH-H2O系的密度………………劉志立(61)
鎢礦物原料鹼分解過程中伴生的鉬、錫礦物的行為……………………………………李洪桂等(72)
CaCO3、CaF2對鎢礦物原料鹼分解的影響…李洪桂等(84)
鎢礦物原料NaOH分解過程中抑制雜質的基礎理論研究………………………………………………李洪桂等(91)
Ⅱ.新工藝研究
鎢礦物原料鹼分解的新工藝研究……………………李洪桂等(99)
Caustic Decomposition of Scheelite and Scheelite-Wolframite Concentrates Through Mechanical Activation …………………………………Li Honggui et al.(108)
機械活化鹼分解高鈣黑鎢精礦………………劉茂盛等(119)
Sttldy on Mechanically Activated leaching of Scheelite with Caustic Soda on a Commercial Scale………………………………………Li Yunjiao et al.(129)
機械活化鹼分解高鈣、高雜質鎢細泥……………孫培梅等(139)
機械活化NaOH分解白鎢精礦的研究…………孫培梅等(147)
機械活化NaOH分解白鎢精礦的工業試驗……………………李運姣等(156)
機械活化蘇打溶液分解自鎢中礦的小型試驗………………………………………劉茂盛等(165)
Soda Decomposition of Low-grade Tungsten Concentrate Through Mechanical Activation………………………Zhao Zhongwei et.al.(173)
鎢細泥蘇打溶液分解過程中雜質的行為…………孫培梅等(181)
柿竹園鎢細泥碳酸鈉分解過程中雜質的抑制……………………………… 李運姣等(191)
振動熱球磨鹼分解鎢礦物原料………………蘇鵬摶等(201)
鹼法熱球磨工業實踐中磨球運動狀態的分析……………………………………… 趙中偉(208)
Treatment of.Ammonia Leaching Slag in the Metalllargical Process of Tungsten……………… Sun Peimei et al.(220)
附錄…………………………………………………………(224)
附表1 NaOH溶液的密度(kg·L-1)…………………(234)
附表2 氯化鈉在氫氧化鈉水溶液中的溶解度………(236)
附表3 氫氧化鈉溶液的沸點…………………………………(241)
附表4 被氯化鈉飽和的氫氧化鈉溶液的沸點………(242)
附表5 NaOH濃溶液在不同溫度時的平均活度係數…………………………(243)
附表6 氫氧化鈉的溶解熱……………………………(244)
附圖1 氫氧化鈉水溶液的沸點………………………………(245)
附圖2 氫氧化鈉溶液的蒸汽壓曲線…………………(246)
Contents
Preface …………………………(1)
Ⅰ.Fundamental studie
Analysis on some Fundamental Problems about the Caustic Decomposition of Tungsten Comcentrates…………………Li Honggui(1)
Thermodynamic Study on Caustic Decomposition of Scheelite Concentrate……………………Sun Peimei et.al.(11)
Thermodynamic and Kinetic Studies on the Alkaline Decomposition of Scheelite Concentrate…………………Li yunjiao et.al.(19)
Kinetics of the Reaction between Wolfranite and NaOH Solution……………………Li Jun et.al.(30)
Solubility of Na2WO4 in NaOH-H2O System……………………Li Honggui et.al.(41)
Vapour Pressure of the Na2WO4-NaOH-H2O System……………………Li Honggui et.al.(54)
Density of the Na2WO4-NaOH-H2O System……………………Liu Zhili(61)
Behaviours of Accompanying Molybdenum and Tin Minerals in the Alkaline Decompostion of Tungsten Concentrate………………Li Honggui et.al.(72)
Influence of CaCO3 and CaF2 on the Caustic Decomposing Process of Tungsten Concentrates……………………Li Honggui et.al.(84)
Fundamental Studies on the Inhibition of Impurities in Caustic Decomposition of Tungsten Concentrates…………………Li Honggui(91)
Ⅱ.Studies on new technology
A New Technology of Caustic Decomposition of Tungsten Concentrates……………………Li Honggui et.al.(99)
Caustic Decomposition of Scheelite and Scheelite-Wolframite Concentrates through Mechanical Activation……………………Li Honggui et.al.(108)
Caustic Decomposition of Wolframite with High Calcium through Mechanical Activation……………………Liu Maosheng et.al(119)
Study on Mechanically Activated Leaching of Scheelite with Caustic Soda on a Commercial Scale……………………Li Yunjiao et.al(129)
Caustic Decomposition of Low-grade Tungsten Concentrate with High Calcium and High Impurities………………Sun Peimei et.al.(139)
Laboratory Study on Caustic Decomposition of Scheelite Concentrate through Mechanical Activation………………Sun Peimei et.al.(147)
Commercial Tests of the Caustic Decomposition of Scheelite through Mechanical Activation……………………Li Yunjiao et.al.(156)
Laboratory Study on Soda Decomposition of Scheelite Concentrate through Mechanical Activation………………Liu Maosheng et.al.(165)
Soda Decomposition of Low-grade Tungsten Concentrate through Mechanincal Activation……………………Zhao Zhongwei et.al.(173)
Behaviours of Impurities in the Soda Decomposition of low-grade Tungsten Concentrate……………………Sun Peimei et.al.(181)
Inhibition of Impurities in the Soda Decomposition of low-grade Tungsten Concentrate from Shi Zhuyuan Mine………………Li Yunjiao et.al.(191)
Caustic Decomposition of Tungsten Concentrate in Vibrating Thermo-miller……………………Su Pengtuan et.al.(201)
Analysis on the Motion of Balls in the Caustic Decompositing Thermo-miller on a Commercial scale……………………Zhao Zhongwei(208)
Treatment of Ammonia Leaching Slag in the Metallurgical Process of Tungsten……………………Sun Peimei et.al.(220)
Appendex…………………………………………(234)
Table 1 Density of NaOH Solution……………………(234)
Table 2 Solubility of Sodium Chloride in Aqeous Solution of NaOH……………………(236)
Table 3 Boiling Point of NaOH Aqeous Solution……………………(241)
Table 4 Boiling Point of NaOH Aqeous Solutio Saturated with Soldium Chloride……………………(242)
Table 5 Average Activity Coefficient of NaOH Solution at Different Temperature……………………(243)
Table 6 Heat of Dissolution of NaOH……………………(244)
Fig 1 Boiling Point of Aqeous Solution of NaOH……………………(245)
Fig 2 Vapor Pressure of Aqeous Solution of NaOH……………………(246)
