Page 69 - 《精细化工》2020年第7期

P. 69

第 7 期李嘉丽，等: 地质聚合物在重金属处理中的应用进展 ·1351·

2+
Immobilization of heavy metal Pb with geopolymer[J]. Environmental [35] LI S, HUANG X, MUHAMMAD F, et al. Waste solidification/
Science (环境科学), 2011, 32(5): 1447-1453. stabilization of lead-zinc slag by utilizing fly ash based geopolymers[J].
[22] HUANG X, ZHUANG R L, MUHAMMAD F, et al. Solidification/ RSC Advances, 2018, 8(57): 32956-32965.
stabilization of chromite ore processing residue using alkali-activated [36] PANDA L, RATH S S, RAO D S, et al. Thorough understanding of
composite cementitious materials[J]. Chemosphere, 2017, 168: 300-308. the kinetics and mechanism of heavy metal adsorption onto a
[23] State Environmental Protection Administration. Identification standards pyrophyllite mine waste based geopolymer[J]. Journal of Molecular
for hazardous wastes-identification for extraction toxicity: GB 5085.3— Liquids, 2018, 263: 428-441.
2007[S]. Beijing: China Standard Press (中国标准化出版社), 2007: [37] EL-ESWED B I, ALDAGAG O M, KHALILI F I. Efficiency and
4-25. mechanism of stabilization/solidification of Pb(Ⅱ), Cd(Ⅱ), Cu(Ⅱ),
[24] ZHENG L, WANG W, GAO X B. Solidification and immobilization Th(Ⅳ) and U(Ⅵ) in metakaolin based geopolymers[J]. Applied Clay
of MSWI fly ash through aluminate geopolymerization: Based on partial Science, 2017, 140: 148-156.
charge model analysis[J]. Waste Management, 2016, 58: 270-279. [38] ANDREJKOVIČOVÁ S, SUDAGAR A, ROCHA J, et al. The effect
[25] MALEKI A, HAJIZADEH Z, SHARIFI V, et al. A green, porous and of natural zeolite on microstructure, mechanical and heavy metals
eco-friendly magnetic geopolymer adsorbent for heavy metals adsorption properties of metakaolin based geopolymers[J]. Applied
removal from aqueous solutions[J]. Journal of Cleaner Production, Clay Science, 2016, 126: 141-152.
2019, 215: 1233-1245. [39] ZHANG M T, YANG C H, ZHAO M, et al. Immobilization potential
[26] HUANG X, MUHAMMAD F, YU L, et al. Reduction/ of Cr(Ⅵ) in sodium hydroxide activated slag pastes[J]. Journal of
immobilization of chromite ore processing residue using composite Hazardous Materials, 2017, 321: 281-289.
materials based geopolymer coupled with zero-valent iron[J]. Ceramics [40] JIN M T, HUANG C J, CHEN L, et al. Immobilization of MSWI fly
International, 2018, 44(3): 3454-3463. ash with geopolymers[J]. Advanced Materials Research, 2010, 150:
[27] SUN T, CHEN J Y, LEI X R, et al. Detoxification and 1564-1569.
immobilization of chromite ore processing residue with metakaolin- [41] FERNÁNDEZ-PEREIRA C, LUNA-GALIANO Y, PÉREZ-CLEMENTE
based geopolymer[J]. Journal of Environmental Chemical Engineering, M, et al. Immobilization of heavy metals (Cd, Ni or Pb) using
2014, 2(1): 304-309. aluminate geopolymers[J]. Materials Letters, 2018, 227: 184-186.
[28] JIN M T (金漫彤), LIAO M Y (廖梦运), ZHENG Z D (郑子丹), et [42] ZHANG J G, PROVIS J L, FENG D W, et al. Geopolymers for
2+
2+
6+
al. Effects of Na 2O/SiO 2 ratio on thermal properties of fly ash-straw- immobilization of Cr , Cd , and Pb [J]. Journal of Hazardous
metakaolin composite geopolymers[J]. Journal of Chemical Engineering Materials, 2008, 157(2/3): 587-598.
of Chinese Universities (高校化学工程学报), 2017，31(1): 211-221. [43] CHENG T W, LEE M L, KO M S, et al. The heavy metal adsorption
[29] LEE S, VAN RIESSEN A, CHON C M, et al. Impact of activator characteristics on metakaolin-based geopolymer[J]. Applied Clay
type on the immobilisation of lead in fly ash-based geopolymer[J]. Science, 2012, 56: 90-96.
Journal of Hazardous Materials, 2016, 305: 59-66. [44] JAVADIAN H, GHORBANI F, TAYEBI H, et al. Study of the
[30] LÓPEZ F J, SUGITA S, TAGAYA M, et al. Metakaolin-based adsorption of Cd(Ⅱ) from aqueous solution using zeolite-based
geopolymers for targeted adsorbents to heavy metal ion separation[J]. geopolymer, synthesized from coal fly ash; kinetic, isotherm and
Journal of Materials Science and Chemical Engineering, 2014, 2(7): thermodynamic studies[J]. Arabian Journal of Chemistry, 2015, 8(6):
16-27. 837-849.
[31] ONUTAI S, KOBAYASHI T, THAVORNITI P, et al. The adsorption [45] KÜNZEL C. Metakaolin based geopolymers to encapsulate nuclear
of cadmium ions on fly ash based geopolymer particles[J]. Key waste[D]. London: Imperial College London, 2013.
Engineering Materials, 2018, 766: 65-70. [46] AL-ZBOON K, AL-HARAHSHEH M S, HANI F B. Fly ash-based
[32] LIAO X W (廖希雯), CHEN J (陈杰), FAN T F (范天凤), et al. Soil geopolymer for Pb removal from aqueous solution[J]. Journal of
of heavy metal composite pollution by geological polymer Hazardous Materials, 2011, 188(1/2/3): 414-421.
stabilization[J]. Chinese Journal of Environmental Engineering (环境 [47] ZHAO Y (赵悦), ZHAO C L (赵春雷), WANG R (王锐), et al.
工程学报), 2018, 12(7): 2056-2065. Research progress on adsorbents for the adsorption and separation of
[33] VU T H, VAN TRAN M. A review on immobilisation of toxic wastes uranium from aqueous solution[J]. Fine Chemicals (精细化工),
using geopolymer technique[C]//Engineering Information Institute. 2018, 35(4): 549-555.
Proceedings of the 4th Congrès International de Géotechnique- [48] YUAN H C (袁鸿昌), JIANG R Z (江尧忠). The development of
Ouvrages-Structures, 2017: 299-309. geopolymer and its future application in our country[J]. Bulletin of
[34] ZHANG Y S, SUN W, SHE W, et al. Synthesis and heavy metal the Chinese Ceramic Society (硅酸盐通报), 1998, 17(2): 46-51.
immobilization behaviors of fly ash based gepolymer[J]. Journal of [49] SUN D S (孙道胜), WANG A G (王爱国), HU P H (胡普华).
Wuhan University of Technology(Materials Science Edition), 2009, Research of geopolymer and its applications and development
24(5): 819-825. prospects[J]. Materials Review (材料导报), 2009, 23(7): 64-68.

64 65 66 67 68 69 70 71 72 73 74