| 1,500 | 82 | 51 |
| 下载次数 | 被引频次 | 阅读次数 |
阐述磷石膏的产排情况;全面总结磷石膏资源化综合利用途径,以及国内综合利用现状;分析目前磷石膏综合利用存在的问题,并提出一些建议,希望有助于推动磷石膏资源化利用。
Abstract:The production and discharge of phosphogypsum are introduced. The ways and present situation of comprehensive utilization of phosphogypsum are summarized comprehensively. The existing problems in comprehensive utilization of phosphogypsum are analyzed, and the development direction of phosphogypsum comprehensive utilization in the future is suggested in order to improve the comprehensive utilization efficiency of phosphogypsum.
[1]CANUT M C,JACOMINO M F.Microstructural analyses of phosphogypsum generated by Brazilian fertilizer industries[J].Materials Characterization,2008,59(4):365-373.
[2]闫贝.磷石膏低温催化分解及过程物相迀移研究[D].昆明:昆明理工大学,2014.
[3]郑绍聪,宁平,马丽萍,等.磷石膏在CO气氛下的热分解动力学[J].武汉理工大学学报,2010,32(18):66-69.
[4]NING P,ZHENG S C,MA L P.Kinetics and thermodynamics studies on the decompositions of phosphogypsum in different atmospheres[J].Advance Material Research,2011,160:842-848.
[5]MA L P,NIU X K,HOU J,et al.Reaction mechanism and influence factors analysis for calcium sulfide generation in the process of phosphogypsum decomposition[J].Thermochimica Acta,2011,526(1-2):163-168.
[6]SINGH M,GARG M,REHSI S S.Purifying phosphogypsum for cement manufacture[J].Construction and Building Materials,1993,7(1):3-7.
[7]庞英,杨敏.磷石膏中杂质及其影响作用浅析[J].中国建材科技,2008(1):67-68.
[8]庞英,杨林,杨敏,等.磷石膏中杂质的存在形态及其分布[J].贵州大学学报(自然科学版),2009,26(3):95-99.
[9]马林转,宁平,杨月红,等.磷石膏预处理工艺综述[J].磷肥与复肥,2007,22(3):62-63.
[10]余琼粉,宁平,杨月红.磷石膏的预处理及其资源化途径[J].江西农业学报,2008,20(2):109-111,114.
[11]杜亚雷.一氧化碳还原分解磷石膏的研究[D].昆明:昆明理工大学,2010.
[12]ALVA A K,SUMNER S M E.Amelioration of acid soil infertility by phosphogypsum[J].Plant and Soil,1990,128(2):127-134.
[13]MCS C,BVAN R.Calcium sulphate,phosphogypsum and calcium carbonate in the amelioration of acid subsoils for root growth[J].Plant and Soil,1997,192(1):37-48.
[14]PAPASTEFANOU C,STOULOS S,IOANNIDOU A,et al.The application of phosphogypsum in agriculture and the radiological impact[J].Journal of environmental radioactivity,2006,89(2):188-198.
[15]CESUR H,BALKAYA N.Zinc removal from aqueous solution using an industrial by-product phosphogypsum[J].Chemical Engineering Journal,2007,131(1):203-208.
[16]YANG X,ZHANG Z,WANG X,et al.Thermodynamic study of phosphogypsum decomposition by sulfur[J].Journal of Chemical Thermodynamics,2013,57(1):39-45.
[17]郑绍聪.循环流化床高硫煤还原分解磷石膏研究[D].昆明:昆明理工大学,2011.
[18]MA L P,NING P,ZHENG S C,et al.Reaction mechanism and kinetic analysis of the decomposition of phosphogypsum via a solid-state reaction[J].Ind eng chem Res,2010,49(8):3597-3602.
[19]MA L P,DU Y L,NIU X K,et al.Thermal and Kinetic analysis of the process of thermochemical decomposition of the phosphogypsum with CO and additives[J].Ind Eng Chem Res,2012,51(19):6680-6685.
[20]昆明理工大学.一种高硫煤分解磷石膏催化还原的方法:101462699[P].2009-06-24.
[21]YAN B,MA L P,MA J,et al.Mechanism Analysis of Ca,STransformation in Phosphogypsum Decomposition with Fe Catalyst[J].Ind Eng Chem Res,2014,53(18):7648-7654.
[22]YAN B,MA L P,XIE L,et al.Reaction Mechanism for Iron Catalyst in the Process of Phosphogypsum Decomposition[J].Ind Eng Chen Res,2013,52(49):17383-17389.
[23]林宗寿.过硫磷石膏矿渣水泥与混凝土[M].武汉:武汉理工大学出版社,2015.
[24]昆明理工大学.一种建筑墙体保温材料及其制备方法:107032725A[P].2017-08-11.
[25]昆明理工大学.一种耐火材料及其制备方法:106242595A[P].2016-12-21.
[26]昆明理工大学.一种用煤泥磷石膏冶金废渣合成陶粒的方法:101913846A[P].2016-12-15.
[27]昆明理工大学.磷石膏重结晶墙体材料的制备方法:102276228A[P].2011-12-14.
[28]昆明理工大学.一种磷石膏直接制备高纯度碳酸钙的方法:103232052A[P].2013-08-07.
[29]何问实.工业固废生态链的构建对区域物质流的影响[J].资源节约与环保,2014(3):47.
[30]朱美军,柳冬梅,吉秀芹.几种典型固体废弃物资源化利用链网构建研究[J].化工管理,2016(14):243-244.
[31]黄启飞,杨玉飞,王兴润,等.基于区域产业结构和物质流的大宗固体废物资源化技术研究[J].中国科技成果,2016(17):36.
基本信息:
中图分类号:TQ177.375
引用信息:
[1]马丽萍.磷石膏资源化综合利用现状及思考[J].磷肥与复肥,2019,34(07):5-9.
2019-07-15
2019-07-15