今天在這里分享鹽礦領域學術文獻40篇，包含20篇國內(nèi)的論文文獻，4篇學位論文，16篇國外的論文文獻，對大家寫論文是有幫助的，作者通過論文選題，以及論文所投稿的期刊，可以形成自己的寫作思路，也可以快速選刊。

　　國內(nèi)鹽礦領域學術文獻20篇

　　[1] 庫水位變化速率對非飽和邊坡穩(wěn)定性影響分析研究[J]. 翁新海;王家鵬;翁郁馨.西部探礦工程,2022(04)

　　[2] 察爾汗鹽湖資源開發(fā)利用現(xiàn)狀及關鍵技術進展[J]. 熊增華;王石軍.化工礦物與加工,2021(01)

　　[3] 外包土工布暗管排鹽條件下水鹽運移規(guī)律[J]. 陳名媛;黃介生;曾文治;敖暢;劉丹;劉義.農(nóng)業(yè)工程學報,2020(02)

　　[4] 柴達木低品位固體鉀礦溶解轉化實驗及應用前景[J]. 王興富;王石軍;王羅海;田紅斌;劉萬平;劉斌山.化工礦產(chǎn)地質(zhì),2019(04)

　　[5] 對青海省鹽湖資源開發(fā)利用管理工作的探討[J]. 劉國新;李長俊.青海國土經(jīng)略,2019(02)

　　[6] 鹽湖鉀鹽資源現(xiàn)狀及提鉀工藝技術的進展[J]. 朱振光.智能城市,2018(23)

　　[7] Hydrochemical Dynamic Characteristics and Evolution of Underground Brine in the Mahai Salt Lake of the Qaidam Basin Qinghai-Tibet Plateau[J]. HU Shuya;ZHAO Quansheng;WANG Guangcai;ZHANG Jianwei;FENG Juan.Acta Geologica Sinica(English Edition),2018(05)

　　[8] 基于COMSOL軟件的綠洲鹽漬化土壤中多離子耦合運移模型構建[J]. 焦會青;盛鈺;趙成義;李保國.農(nóng)業(yè)工程學報,2018(15)

　　[9] 赤泥堿性陰離子浸出優(yōu)化及溶解行為(英文)[J]. 李曉飛;葉羽真;薛生國;江鈞;吳川;孔祥峰;William Hartley;李義偉.Transactions of Nonferrous Metals Society of China,2018(06)

　　[10] 鹽漬土溶出除鹽法中鹽運移的數(shù)學模型與特征[J]. 仇啟涵.中國環(huán)保產(chǎn)業(yè),2018(01)

　　[11] 西藏鹽湖的鉀鹽資源[J]. 劉喜方;鄭綿平.科技導報,2017(12)

　　[12] 察爾汗鹽湖鐵路以東固體鉀礦的溶采試驗[J]. 趙有璟;王敏;李錦麗;時歷杰;張宏韜;張萍;楊紅軍;許建新.應用化工,2016(02)

　　[13] 水力壓裂增水技術在青海鹵鹽礦開采中的試驗[J]. 李小杰;葉成明;李炳平;馮建月.探礦工程(巖土鉆掘工程),2015(11)

　　[14] 低品位鹽礦中K~+、Na~+的溶解動力學研究[J]. 王曉;姜虹;王愛麗.化學通報,2015(11)

　　[15] 氯化物型鹽湖低品位鉀礦溶浸開采的工藝條件[J]. 王曉;姜虹;王愛麗.青島科技大學學報(自然科學版),2015(05)

　　[16] 察爾汗鹽湖單級與增程驅動溶解固體鉀礦試驗對比研究[J]. 王文祥;李文鵬;安永會;郝愛兵;焦鵬程;劉成林;劉振英.地質(zhì)論評,2015(05)

　　[17] 低品位固體鉀礦驅動溶解開采擴大試驗研究[J]. 王曉;琚振闖;張聰.中國礦業(yè),2015(07)

　　[18] 鹽湖地下鹵水的開采技術及其展望[J]. 韓積斌;許建新;安朝;馬海州;韓鳳清.鹽湖研究,2015(01)

　　[19] 基于COMSOL的低滲性鹽土內(nèi)設砂柱洗鹽定量模擬[J]. 孫雪雁;李品芳;李保國;薛元霞;邵蕾.農(nóng)業(yè)機械學報,2014(07)

　　[20] 馬海鹽湖低品位、難利用鉀資源現(xiàn)狀與開發(fā)對策[J]. 邊紅利.蘇鹽科技,2013(04)

　　國內(nèi)博士碩士論文4篇

　　[1] 鹽類礦床水壓致裂水溶開采的多場耦合理論及應用研究[D]. 梁衛(wèi)國.太原理工大學,2004

　　[1] 硫酸鹽漬土路基鹽凍脹變形理論修正及應用[D]. 蔡曉宇.北京交通大學,2015

　　[2] 溶劑溶解鹽湖低品位固體鉀鹽的動力學研究[D]. 姜虹.青海大學,2015

　　[3] 察爾汗鹽湖開發(fā)引起的地下水污染對生態(tài)環(huán)境的影響評價[D]. 孫亞喬.長安大學,2004

　　國外鹽礦領域學術文獻16篇

　　[1] The optimum interwell distance analysis of two-well-horizontal salt cavern construction[J]. Ban Fansheng;Yuan Guangjie;Wan Jifang;Peng Tianji.Energy Sources, Part A: Recovery, Utilization, and Environmental Effects.2021

　　[2] Modeling of coupled transfer of water, heat and solute in saline loess considering sodium sulfate crystallization[J]. Xu Jian;Lan Wei;Ren Chang;Zhou Xiangang;Wang Songhe;Yuan Jun.Cold Regions Science and Technology.2021

　　[3] Simulation study on the mining conditions of dissolution of low grade solid potash ore in Qarhan Salt Lake.[J]. Li Ruiqin;Liu Chenglin;Jiao Pengcheng;Hu Yufei;Liu Wanping;Wang Shijun.Scientific reports.2021

　　[4] Pore-Scale Mixing and the Evolution of Hydrodynamic Dispersion in Porous Media.[J]. Puyguiraud Alexandre;Gouze Philippe;Dentz Marco.Physical review letters.2021

　　[5] Kinetics of static immersed leaching of low-grade sea-type evaporites based on theoretical and experimental investigation of unsteady-state mass transfer[J]. Huaigang Cheng;;Lixiang Wu;;Fangqin Cheng.Journal of Cleaner Production.2020

　　[6] The effect of solvent chemistry on potassium dissolution extraction from low-grade solid potash ore in Qarhan Salt Lake, China[J]. Ruiqin Li;;Chenglin Liu;;Pengcheng Jiao;;Wanping Liu;;Deguo Tang;;Shijun Wang.Applied Geochemistry.2020

　　[7] The present situation, existing problems, and countermeasures for exploitation and utilization of low-grade potash minerals in Qarhan Salt Lake, Qinghai Province, China[J]. Ruiqin Li;;Chenglin Liu;;Pengcheng Jiao;;Wanping Liu;;Shijun Wang.Carbonates and Evaporites.2020

　　[8] Study on the influence of hydro-thermal-salt-mechanical interaction in saturated frozen sulfate saline soil based on crystallization kinetics[J]. Jing Zhang;;Yuanming Lai;;Jifeng Li;;Yanhu Zhao.International Journal of Heat and Mass Transfer.2020

　　[9] Loosely coupled SaltMod for simulating groundwater and salt dynamics under well-canal conjunctive irrigation in semi-arid areas[J]. Wei Mao;;Jinzhong Yang;;Yan Zhu;;Ming Ye;;Jingwei Wu.Agricultural Water Management.2017

　　[10] Research on Mineral Resources and Environment of Salt Lakes in Qinghai Province based on System Dynamics Theory[J]. Rui Kong;;Fangfang Xue;;Jing Wang;;Haiyan Zhai;;Lina Zhao.Resources Policy.2017

　　[11] Lithium extraction from Chinese salt-lake brines: opportunities, challenges, and future outlook[J]. Song Jian Feng;Nghiem Long D.;Li Xue Mei;He Tao.Environmental Science: Water Research & Technology.2017

　　[12] Numerical Simulation of Coupled Water and Salt Transfer in Soil and a Case Study of the Expansion of Subgrade composed by Saline Soil[J]. Dongyong Wang;;Jiankun Liu;;Xu Li.Procedia Engineering.2016

　　[13] Potash flotation practice for carnallite resources in the Qinghai Province, PRC[J]. Xuming Wang;J.D. Miller;Fangqin Cheng;Huaigang Cheng.Minerals Engineering.2014

　　[14] Global Lithium Availability: A Constraint for Electric Vehicles?[J]. Paul W. Gruber;Pablo A. Medina;Gregory A. Keoleian.Journal of Industrial Ecology.2011

　　[15] Formation and chemical evolution of magnesium chloride brines by evaporite dissolution processes - Implications for evaporite geochemistry[J]. Krupp RE.Geochimica et Cosmochimica Acta: Journal of the Geochemical Society and the Meteoritical Society.2005

　　[16] A SIMPLE MODEL RELATING SOIL WATER CHARACTERISTIC CURVE AND SOIL SOLUTE BREAKTHROUGH CURVE 1[J]. Quanjiu Wang;;Robert Horton;;Jaehoon Lee.Soil Science.2002