为促进海绵城市建设及固体废弃物资源化,利用铜尾矿、膨润土为填充料,再生烧结砖作骨料,以水泥为胶凝材料,制备同时具有“吸、蓄、渗、净”等功能的渗蓄生态建筑材料。采用正交试验对材料配合比进行优化设计,并研究在最优配合比基础上该材料的植物生长及水质净化效果。试验结果表明:铜尾矿、膨润土用量分别为15.0%和7.5%,水灰比W/C取0.90时,材料28 d抗压强度>4.0 MPa,渗透系数>4.0 cm/s,吸水率>21.0%;采用泥浆覆盖法培养出的碱茅和四季青效果较好,可分别作为水利工程和海绵城市建设的最优选择;经材料净化后,悬浮物(SS)、化学需氧量(COD)、总磷(TP)和氨氮(NH3-N)等杂质浓度分别降低约53.3%,29.6%,51.9%,25.6%,且培养植被后对水溶性杂质的净化效果更强,经材料吸附的磷、氨氮等部分物质对植被生长更有利。
Abstract
In the light of sponge city construction and solid waste resource utilization, we prepared ecological building material using copper mine tailings and bentonite as filler, recycled sintered bricks as aggregate, and cement as cementitious material. The material has functions of absorption, storage, infiltration and purification. We further optimized the mix proportion of the material through orthogonal experiment and investigated the plant growth and water purification effects of the material at optimum mix ratio. Results demonstrate that with a 15% and 7.5% dosage of copper mine tailings and bentonite, respectively, and a water cement ratio at 0.90, the functional eco-material boasts a 28-d compressive strength over 4.0 MPa, permeability coefficient greater than 4.0 cm/s, and water absorption more than 21.0%. The material also has good effect in cultivating Puccinellia distans Parl. and folium Ilex chinensis by mud mulching method, which can be used for water conservancy project and sponge city construction respectively. Filtered by the material, SS, COD, TP, and NH3-N reduces by 53.3%, 29.6%, 51.9%, and 25.6%, respectively. The purification effect of the material after plant cultivation is stronger for water-soluble impurities. Theoretically, substances such as TP and NH3-N adsorbed by the material are more beneficial to vegetation growth.
关键词
功能性渗蓄生态建筑材料 /
抗压强度 /
渗透系数 /
吸水率 /
水质净化
Key words
functional eco-material /
compressive strength /
permeability coefficient /
water absorption rate /
water purification
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参考文献
[1] LIU J, SAMPLE D J, BELL C, et al. Review and Research Needs of Bioretention Used for the Treatment of Urban Stormwater [J]. Water, 2014, 6(4): 1069-1099.
[2] 章林伟.中国海绵城市建设与实践[J].给水排水,2018,54(11):1-5.
[3] 王 浩,梅 超,刘家宏.海绵城市系统构建模式[J].水利学报,2017,48(9):1009-1014,1022.
[4] XIA J, ZHANG Y Y, XIONG L H, et al. Opportunities and Challenges of the Sponge City Construction Related to Urban Water Issues in China[J]. Science China Earth Sciences, 2017, 60(4):652-658.
[5] ÖZALP F,YILMAZ H D,KARA M, et al. Effects of Recycled Aggregates from Construction and Demolition Wastes on Mechanical and Permeability Properties of Paving Ston, Kerb and Concrete Pipes[J]. Construction and Building Materials,2016,110:17-23.
[6] ALIABDO A A, ABD ELMOATY A E M, FAWZY A M. Experimental Investigation on Permeability Indices and Strength of Modified Pervious Concrete with Recycled Concrete Aggregate[J]. Construction and Building Materials, 2018, 193: 105-127.
[7] MULLANEY J, LUCKE T, TRUEMAN S J. The Effect of Permeable Pavements with an Underlying Base Layer on the Ecophysiological Status of Urban Trees[J]. Urban Forestry & Urban Greening, 2015, 14(1): 686-693.
[8] LI J, ZHANG Y, LIU G, et al. Preparation and Performance Evaluation of an Innovative Pervious Concrete Pavement[J]. Construction and Building Materials,2017,138: 479-485.
[9] ONUAGULUCHI O, EREN Ö. Durability-related Properties of Mortar and Concrete Containing Copper Tailings as a Cement Replacement Material[J]. Magazine of Concrete Research, 2012, 64(11):1015-1023.
[10]SHABAB M E, SHAHZADA K, GENCTURK B, et al. Synergistic Effect of Fly Ash and Bentonite as Partial Replacement of Cement in Mass Concrete[J]. KSCE Journal of Civil Engineering, 2016, 20(5): 1987-1995.
[11]杨 魁,李 贞.蒙脱石吸水膨胀结构特征分析[J].硅酸盐通报,2010,29(5):1154-1158.
[12]吴哲超,祝宝东,王 鉴,等.黏土矿物/聚合物复合高吸水材料研究进展[J].硅酸盐通报,2015,34(9):2557-2561,2568.
[13]袁 鹏,吴大清,林种玉,等.硅藻土表面羟基的漫反射红外光谱(DRIFT)研究[J].光谱学与光谱分析,2001(6):783-786.
[14]肖利萍,潘纯林,邓特钢.膨润土在水处理中的应用研究与展望[J].水资源与水工程学报,2010,21(4):28-33.
[15]张 辉,陈 政,高 毅,等.铜尾矿对水溶液中磷的吸附与解吸[J].农业环境科学学报,2010,29(8):1542-1546.
基金
国家自然科学基金项目(51362021);江西省水利厅科技项目(KT201648)
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