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溶液环境对两种菱镁矿阴离子捕收剂浮选泡沫性能的影响

Effect of solution environment on the foam properties of two anionic collectors in magnesite flotation
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摘要 浮选体系中浮选泡沫各项性能直接影响其与矿物颗粒间的相互作用.采用DFA 100动态泡沫分析仪,研究了不同pH值和Mg^(2+)环境下磷酸酯盐捕收剂的起泡性能、泡沫稳定性以及泡沫结构等的性能差异,并与传统油酸盐捕收剂进行了对比分析.结果表明,同为菱镁矿捕收剂,十六烷基磷酸酯钾(CP)捕收剂相较于传统油酸钠(NaOl)捕收剂,在pH值和Mg^(2+)浓度变化时的泡沫适应性更强,且在菱镁矿浮选中显示出更大的优势.具体来说,在相同质量浓度条件下,CP捕收剂溶液表面张力变化相对缓慢,且在所研究pH值和Mg^(2+)浓度范围内均显示相对更适宜的起泡能力和泡沫稳定性,泡沫结构也更稳定.单矿物浮选试验结果表明,菱镁矿上浮率与溶液环境对两种捕收剂泡沫性能的影响结果具有一致性.在pH值小于6.0或Mg^(2+)质量浓度超过30 mg·L^(-1)时,传统NaOl体系中菱镁矿上浮困难,浮选泡沫性能差,而CP体系中菱镁矿上浮率均保持在60%以上.本研究为磷酸酯类捕收剂在菱镁矿浮选中的应用提供了理论依据和实践指导. The properties of flotation foam within a flotation system play a crucial role in its interaction with mineral particles,directly impacting the efficiency and selectivity of the entire flotation process.Currently,most collectors exhibit favorable foaming properties,and the formation and characteristics of the foam in the collector system significantly affect the regulation of the mineral flotation process.Given the poor selectivity of conventional anionic collectors in magnesite flotation,developing new collectors has become a hot topic in mineral processing research.Investigating the relationship between foam properties and flotation outcomes is significant for optimizing the mineral flotation process and enhancing the utilization rate of mineral resources.Previous research has revealed that potassium cetyl phosphate can selectively adsorb on magnesite surfaces,enabling effective flotation separation of magnesite from calcium-bearing gangue minerals.This suggests significant application prospects for potassium cetyl phosphate as a new anionic collector in froth flotation purification of magnesite ores.However,to our knowledge,the foam properties of this collector have not been extensively studied.This study employs the DFA 100 Dynamic Foam Analyzer to systematically investigate the foam properties of two anionic magnesite collectors.Key performance differences,including foaming characteristics,foam stability,and structural integrity under various pH conditions and different Mg^(2+)concentrations resulting from mineral dissolution,were examined.A comparative analysis relative to the conventional sodium oleate collector systems was also conducted.The results indicate that,under identical mass concentration conditions,the surface tension of the cetyl phosphate ester collector varies more gently.As a novel anionic magnesite collector,CP demonstrates significantly superior foam adaptability under changing pH values and Mg^(2+)concentrations compared to the traditional sodium oleate(NaOl)collector.Specifically,within the studied ranges of pH values and Mg^(2+)concentrations,cetyl phosphate exhibits superior foaming propensity and more pronounced foam stability.Notably,the foam structure generated by cetyl phosphate is more stable,with inhibited foam coalescence observed at elevated pH values.By contrast,the NaOl collector loses its foaming ability in solution environments with pH values below 8.0 and Mg^(2+)concentrations exceeding 20 mg·L^(-1).Single-mineral flotation tests further confirm the consistency between the flotation rate of magnesite and the impact of the solution environment on the foam properties of both collectors.Under conditions where the pH is below 6.0 or the Mg^(2+)concentration exceeds 30 mg·L^(-1),traditional collector NaOl struggles to capture mineral particles during magnesite flotation.By contrast,the flotation rate of magnesite with the cetyl phosphate collector remains above 60%.The experiments also revealed that the microstructure of foam generated by the cetyl phosphate collector has a more uniform size distribution and a more compact foam layer structure.These characteristics are crucial for improving the collection efficiency of mineral particles and enhancing the selectivity of the flotation process.This study provides a solid theoretical foundation for the application of phosphate ester collectors in magnesite flotation through an in-depth analysis of foam microstructure and a comprehensive comparative assessment of foam properties between phosphate ester and oleate collectors under varying solution conditions.Furthermore,this study offers valuable practical insights for efficient collector selection and flotation process optimization in industrial applications.These insights contribute to advancing magnesite flotation upgrading technology and processes.The results presented in this paper also serve as an important reference for optimizing the theory and practice of calcium and magnesium salt minerals.This is significant for the development of flotation technology.
作者 徐长明 何东升 唐远 叶利峰 李智力 付艳红 XU Changming;HE Dongsheng;TANG Yuan;YE Lifeng;LI Zhili;FU Yanhong(School of Resources and Safety Engineering,Wuhan Institute of Technology,Wuhan 430073,China;Hubei Key Laboratory of Resources and Eco-Environment Geology,Hubei Geological Bureau,Wuhan 430034,China)
出处 《工程科学学报》 EI 北大核心 2025年第1期25-32,共8页 Chinese Journal of Engineering
基金 国家自然科学基金资助项目(52104263) 湖北省技术创新计划重点研发专项(2023BCB079) 资源与生态环境地质湖北省重点实验室开放基金项目(HBREGKFJJ-202311) 武汉工程大学研究生教育创新基金项目(CX2023186)。
关键词 浮选 泡沫性能 溶液环境 磷酸酯捕收剂 菱镁矿 flotation foam property solution environment phosphate ester collector magnesite
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