张梦萌;陈昕;付晓雷;

• 1:东华理工大学化学生物与材料科学学院

摘要(Abstract)：

粉煤灰是煤炭燃烧过程中产生的一种工业废渣,具有排放量大、污染性强等特点,如何高效利用粉煤灰对节约土地资源、保护环境、实施可持续发展战略方针具有极其重要的意义。综述粉煤灰在耐高温材料、耐磨材料、吸附材料、催化材料及吸波材料等领域的应用进展。在此基础上,对粉煤灰应用于高附加值功能材料的未来研究方向提出展望。

关键词(KeyWords)： 粉煤灰;功能材料;催化;吸波

Abstract:

Keywords:

基金项目(Foundation): 江西省教育厅科学技术研究项目（GJJ170428）

作者(Author): 张梦萌;陈昕;付晓雷;

Email:

DOI: 10.14024/j.cnki.1004-244x.20190816.002

参考文献(References)：

• [1]韩桂泉，李京伟，杜博，等.粉煤灰的综合利用现状与展望[J].中国资源综合利用，2006,24(7):12-14.
• [2]吕瑶姣，张季爽，裴清清，等.活化粉煤灰的结构和组成研究[J].中国环境科学，1996(1):51-55.
• [3]黄军同，黄朝晖，吴小贤，等.利用铝灰和粉煤灰铝热还原氮化制备镁铝尖晶石-刚玉-Sialon复相材料[J].稀有金属材料与工程，2009,38(S2):1255-1258.
• [4]朱桂花，吕硕，韩金鹏，等.球形粉煤灰基高温定形复合相变蓄热材料的制备与性能[J].煤炭转化，2018,41(2):73-79
• [5]李健铎，马丽萍，刘红盼，等.粉煤灰为基制备耐火材料的研究[J].硅酸盐通报，2017,36(5):1656-1660.
• [6]REN Sue,TAO Xin,XU Xiqing,et al.Preparation and characteristic of the fly ash cenospheres/mullite composite for hightemperature application[J].Fuel,2018,233:336-345.
• [7]AMRUTHA,NAYAK G,NARASIMHAN C M,et al.High temperature performance of self-compacting high-volume fly ash concrete mixes[J].Journal of Structural Fire Engineering,2011,2(2):81-90.
• [8]ARIZMENDI-MORQUECHO A,CHáVEZ-VALDEZ A,AL-VAREZ-QUINTANA J.High temperature thermal barrier coatings from recycled fly ash cenospheres[J].Applied Thermal Engineering,2012,48:117-121.
• [9]王庆平，闵凡飞，吴玉程，等.粉煤灰/铝-镁合金复合材料的微观组织及摩擦磨损性能[J].中国有色金属学报，2012,22(4):1039-1044.
• [10]周万良，胡松涛，詹炳根.粉煤灰掺量对矿渣-水泥胶砂耐磨性和强度的影响[J].硅酸盐通报，2018,37(3):844-848.
• [11]李苗苗，陈平，王辉，等.粉煤灰微珠填充环氧树脂复合涂层耐磨性能的研究[J].材料导报，2017,31(4):36-40.
• [12]熊党生.粉煤灰填充聚氯乙烯复合材料的摩擦学特性研究[J].摩擦学学报，2003,23(2):154-157.
• [13]HORSZCZARUK E,BRZOZOWSKI P.Effects of fluidal fly ash on abrasion resistance of underwater repair concrete[J].Wear,2017,376/377:15-21.
• [14]DINAHARAN I,NELSON R,VIJAY S J,et al.Microstructure and wear characterization of aluminum matrix composites reinforced with industrial waste fly ash particulates synthesized by friction stir processing[J].Materials Characterization,2016,118:149-158.
• [15]范涛，苏玉军，李忠磊，等.粉煤灰颗粒增强铝基复合材料的耐磨性研究[J].北华航天工业学院学报，2014,24(2):15-17.
• [16]?ZTüRK B,MUTLU T.Effects of zinc borate and fly ash on the mechanical and tribological characteristics of brake friction materials[J].Tribology Transactions,2016,59(4):622-631.
• [17]贺龙强，付克明，胡鹏.改性粉煤灰处理废水中铬（Ⅵ）的研究[J].煤炭技术，2018,37(7):324-326.
• [18]王英明，姜亮，董彦博，等.粉煤灰基地质聚合物制备及其对Cu2+的吸附性能[J].洁净煤技术，2018,24(5):120-125.
• [19]李建军，但宏兵，谢蔚，等.粉煤灰磁性吸附剂的制备及磷吸附机理[J].无机化学学报，2018,34(8):1455-1462.
• [20]孙德帅，郑强强，张晓东，等.粉煤灰对阴离子水溶性混合染料的吸附动力学[J].环境科学，2014,35(7):2590-2595.
• [21]LIN Lidan,LIN Yan,LI Chunjie,et al.Synthesis of zeolite/hydrous metal oxide composites from coal fly ash as efficient adsorbents for removal of methylene blue from water[J].International Journal of Mineral Processing,2016,148(1):32-40.
• [22]WANG Bangda,ZHOU Yuexi,LI Lei,et al.Novel synthesis of cyano-functionalized mesoporous silica nanospheres(MSN)from coal fly ash for removal of toxic metals from wastewater[J].Journal of Hazardous Materials,2018,345:76-86.
• [23]AN Chunjiang,YANG Siqi,HUANG Guche,et al.Removal of sulfonated humic acid from aqueous phase by modified coal fly ash waste:Equilibrium and kinetic adsorption studies[J].Fuel,2016,165:264-271.
• [24]石建稳，艾慧颖，王旭，等.TiO2/粉煤灰光催化降解双氯芬酸钠研究[J].环境科学学报，2014,34(2):370-376.
• [25]王慧龙，齐慧萍，魏晓娜，等.以工业粉煤灰为原料制备TiO2/SiO2-Al2O3气凝胶三元复合光催化剂及其催化性能[J].催化学报，2016,37(11):2025-2033.
• [26]张耀君，张科，康乐，等.一种生态友好粉煤灰基地质聚合物的合成及光催化性能[J].无机化学学报，2017,33(1):16-25.
• [27]THIRUNARAYANAN G,MAYAVEL P,THIRUMURTHY K.Fly-ash:H2SO4catalyzed solvent free efficient synthesis of some aryl chalcones under microwave irradiation[J].Spectrochimica Acta Part A:Molecular and Biomolecular Spectroscopy,2012,91:18-22.
• [28]PRADHAN P,CHAKRABORTY R.Fly ash supported Ni-Fe solid acid catalyst for efficient production of diesel additive:intensification through far-infrared radiation[J].Asia-Pacific Journal of Chemical Engineering,2016,11(1):4-13.
• [29]BEPARI S,PRADHAN N C,DALAI A K.Selective production of hydrogen by steam reforming of glycerol over Ni/Fly ash catalyst[J].Catalysis Today,2017,291:36-46.
• [30]毛倩瑾，于彩霞，葛凯勇，等.粉煤灰空心微珠的改性及其吸波特性[J].清华大学学报（自然科学版），2005,45(12):1672-1675.
• [31]贾治勇，王群，周美玲，等.Ni-Co合金包覆空心微珠及其吸波性能[J].功能材料，2006,37(1):143-145.
• [32]左锦中，江静华，马爱斌，等.粉煤灰空心微珠的Co-Ni-P化学镀及镀层的吸波性能[J].材料保护，2011,44(4):15-18.
• [33]LI Qin,PANG Jianfeng,WANG Bing,et al.Preparation,characterization and microwave absorption properties of bariumferrite-coated fly-ash cenospheres[J].Advanced Powder Technology,2013,24(1):288-294.
• [34]TAO Huiqing,YAO Jianfeng,ZHANG Lixiong,et al.Preparation of magnetic ZSM-5/Ni/fly-ash hollow microspheres using fly-ash cenospheres as the template[J].Materials Letters,2009,63(2):203-205.
• [35]CHE Ruxin,WANG Chunxia,NI Yingjuan,et al.Preparation and microwave absorbing properties of the core-nanoshell composite absorbers with the magnetic fly-ash hollow cenosphere as core.[J].Journal of Environmental Sciences,2011,23(11):74-77.
• [36]GUJRAL P,VARSHNEY S,DHAWAN S K.Designing of multiphase fly ash/MWCNT/PU composite sheet against electromagnetic environmental pollution[J].Journal of Electronic Materials,2016,45(6):3142-3148.
• [37]VARSHNEY S,OHLAN A,JAIN V K,et al.In situ synthesis of polypyrrole-gamma-Fe2O3-fly ash nanocomposites for protection against emi pollution[J].Industrial and Engineering Chemistry Research,2014,53(37):14282-14290.
• [38]WANG Jintao,WANG Hongfei,GENG Guihong.Flame-retardant superhydrophobic coating derived from fly ash on polymeric foam for efficient oil/corrosive water and emulsion separation[J].Journal of Colloid and Interface Science,2018,525:11-20.
• [39]曹新鑫，霍国洋，王优，等.不同配比粉煤灰/聚丙烯复合材料的性能[J].机械工程材料，2014,38(4):35-38.
• [40]SINGH K,SINGH S,SINGH S P,et al.Gamma radiation shielding and health physics characteristics of diaspore-flyash concretes[J].Journal of Radiological Protection,2015,35(2):401-414.
• [41]SINGH K,SINGH S,DHALIWAL A S,et al.Gamma radiation shielding analysis of lead-flyash concretes[J].Applied Radiation and Isotopes,2015,95:174-179.
• [42]MANN H S,BRAR G S,MANN K S,et al.Experimental investigation of clay fly ash bricks for gamma-ray shielding[J].Nuclear Engineering&Technology,2016,48(5):1230-1236.