[1] 钱荷雯,魏超平.利用磷石膏制造建筑材料的研究[J].新型建筑材料,1994(2):26-31. QIAN H W,WEI C P.Study on utilization of phosphogypsum for manufacture and building materials production[J]. New Building Materials,1994(2):26-31.
[2] 周强武.耐水磷石膏砖的制备与研究[D].贵阳:贵州大学,2009. ZHOU Q W. Preparation and study on water-resistant phosphogypsum brick[D]. Guiyang:Guizhou University,2009.
[3] 杨沛浩.磷石膏的综合利用[J].中国资源综合利用,2009(1):13-15. YANG P H. Comprehensive utilization of phosphogypsum[J].China Resources Comprehensive Utilization,2009(1):13-15.
[4] 郭翠香,石磊,牛冬杰,等.浅谈磷石膏的综合利用[J].中国资源综合利用,2006,24(2):29-32. GUO C X,SHI L,NIU D J,et al.Discussion on comprehensive utilization of phosphogypsum[J].China Resources Comprehensive Utilization,2006,24(2):29-32.
[5] 酒少武,陈延信,李辉,等.磷石膏脱水反应动力学研究[J].应用化工, 2011,40(3):381-386. JIU S W,CHEN Y X,LI H,et al.Kinetic study of the thermal dehydration of phosphogypsum[J].Applied Chemical Industry,2011,40(3):381-386.
[6] KHALIL A.Kinetics of gypsum dehydration[J]. Thermochimica Acta,1982,55(2):201-208.
[7] HUDSON-LAMB D L,STRYDOM C A,POTGIETER J H.The thermal dehydration of natural gypsum and pure calcium sulphate dihydrate(gypsum)[J].Thermochimica Acta,1996,282/283:483-492.
[8] 余红发,裴锐,任岩.石膏脱水动力学机理及不同脱水相的性能[J].沈阳建筑工程学院学报,1998(10):380-383. YU H F,PEI R,REN Y.Gypsum dehydration kinetics mechanism and performance of different dehydration phase[J]. Journal of Shenyang Jianzhu University,1998(10):380-383.
[9] STRYDOM C A,HUDSON-LAMB D L,POTGIETER J H,et al. The thermal dehydration of synthetic gypsum[J].Thermochimica Acta,1995,269/270(1):631-638.
[10] ARⅡ T,FUJⅡ N.Controlled-rate thermal analysis kinetic study in thermal dehydration of calcium sulfate dihydrate[J].Journal of Analytical & Applied Pyrolysis,1997,39(2):129-143.
[11] 酒少武,杨爱武,陈延信.磷石膏与纯石膏脱水反应的动力学对比研究[J].理化检验:化学分册,2015,51(10):1373-1377. JIU S W,YANG A W,CHEN Y X.Comparative study on kinetics of dehydration reaction of pure gypsum and phosphogypsum[J].Physical Testing and Chemical Analysis(Part B:Chemical Analysis),2015,51(10):1373-1377.
[12] CRIADO J M,ORTEGA A.A study of the influence of particle size on the thermal decomposition of CaCO3 by means of constant rate thermal analysis[J].Thermochimica Acta,1992,195(4):163-167.
[13] 吕太,张翠珍,吴超.粒径和升温速率对煤热分解影响的研究[J].煤炭转化,2005,28(1):17-20. LU T,ZHANG C Z,WU C.Study on the effect of particle size and heating rate on coal thermal decomposition[J]. Coal Conversion,2005,28(1):17-20.
[14] TAYLOR L S,ORK P.Effect of particle size and temperature on the dehydration kinetics of trehalose dehydrate[J].International Journal of pharmaceutics,1998,167:215-221.
[15] 黄钰香,庞承焕,吴博,等.聚乙烯的热降解动力学研究[J].合成材料老化与应用,2012,41(4):9-15. HUANG Y X,PANG C H,WU B,et al.Thermal degradation kinetic of polyethylene by TG method[J].Synthetic Materials Aging and Application,2012,41(4):9-15.
[16] OZAWA T.A new method of analyzing thermogravimetric data[J].Bulletin of the Chemical Society of Japan,1965,38(11):1881-1886.
[17] KISSINGER H E. Reaction kinetics in differential thermal analysis[J]. Analytical Chemistry,1957,29(11):1702-1706.
[18] 胡荣祖.热分析动力学[M].北京:科学出版社,2008. HU R Z. Thermal analysis kinetics[M].Beijing:Science Press,2008.
[19] SKVARA F,SESTAK J.Computer calculation of the mechanism and associated kinetic data using a non-isothermal integral method[J].Journal of Thermal Analysis and Calorimetry,1975,8(3):477-489.
[20] 蔡正千.热分析[M].北京:高等教育出版社,1993. CAI Z Q.Thermal analysis[M]. Beijing:Higher Education Press,1993.
[21] 王宏霞.烟气脱硫石膏中杂质离子对其结构与性能的影响[D].北京:中国建筑材料科学研究总院,2012. WANG H X.Effect of impuriyies on the structure and properties of flue-gas desulfurization gypsum[D]. Beijing:China Bulding Materials Academy,2012. |