|Table of Contents|

[1] Yang Liqiong, Wang Jianlong, Zhang Xiaoran, Che Wu, et al. Adsorption characteristics of Pbfrom urban stormwater runoff by construction wastes [J]. Journal of Southeast University (English Edition), 2014, 30 (2): 212-219. [doi:10.3969/j.issn.1003-7985.2014.02.014]
Copy

Adsorption characteristics of Pbfrom urban stormwater runoff by construction wastes()
Share:

Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:
30
Issue:
2014 2
Page:
212-219
Research Field:
Civil Engineering
Publishing date:
2014-06-20

Info

Title:
Adsorption characteristics of Pbfrom urban stormwater runoff by construction wastes
Author(s):
Yang Liqiong1 Wang Jianlong1 Zhang Xiaoran2 Che Wu3
1Key Laboratory of Urban Stormwater System and Water Environment of Ministry of Education, Beijing Universityof Civil Engineering and Architecture, Beijing 100044, China
2Beijing Cooperative Innovation Research Center on Architectural Energy Saving and Emission Reduction, Beijing Universityof Civil Engineering and Architecture, Beijing 100044, China
3Beijing Climate Change Response Research and Education Center, Beijing University of Civil Engineeringand Architecture, Beijing 100044, China
Keywords:
stormwater runoff heavy metal construction waste adsorption
PACS:
TU993.1
DOI:
10.3969/j.issn.1003-7985.2014.02.014
Abstract:
Construction wastes were selected as the adsorbents, and static and dynamic adsorption batch experiments were carried out to investigate the adsorption of Pb to construction wastes with different particle size gradations in the simulated stormwater runoff system. The experimental results show that the pseudo-second-order kinetics model can better characterize the adsorption process of Pb than the pseudo-first-order kinetics model. The adsorption equilibrium data can be well fitted by the Freundlich isotherm model. The construction wastes with different tested size gradations can greatly remove Pb from stormwater runoff and their average removal rate can reach up to 99%. The construction wastes with narrow size distribution can better remove Pb but with worse permeability than those with wide size distribution. The particle size gradation of construction wastes greatly influences the equilibrium time, rate and the capacity of Pb adsorption. The equilibrium adsorption rate and capacity are 18.1 μg/min and 5.5 μg/g, respectively, for the construction wastes with the size of 2.36 to 4.75 mm, which are the greatest among the different size gradations. The present study provides a scientific basis for effectively controlling Pb pollution from stormwater runoff and the construction wastes resource utilization.

References:

[1] Hu A B, Li Z F, Zhang S H, et al. Progress of the research of urban road rainwater runoff quality [J]. Water and Wastewater Engineering, 2010, 36(3): 123-127.(in Chinese)
[2] Davis A P, Shokouhian M, Ni S. Loadings of lead, copper, cadmium, and zinc in urban runoff from specific sources [J]. Chemosphere, 2001, 44(5): 997-1009.
[3] Hu A B, Zhang S H, Chen J G. Progress on the improvement of urban stormwater runoff quality by bioretention [J]. Environmental Pollution and Control, 2011, 33(1): 74-82.(in Chinese)
[4] Sun X L, Davis A P. Heavy metal fates in laboratory bioretention systems [J]. Chemosphere, 2007, 66(9): 1601-1609.
[5] Davis A P, Shokouhian M, Sharma H, et al. Laboratory study of biological retention for urban storm water management [J]. Water Environmental Research, 2001, 73(1): 5-14.
[6] Davis A P, Shokouhian M, Sharma H, et al. Water quality improvement through bioretention: lead, copper, and zinc removal [J]. Water Environmental Research, 2003, 75(1): 73-82.
[7] Pitchera S K, Sladea R C T, Ward N I. Heavy metal removal from motorway stormwater using zeolites [J]. Science of the Total Environment, 2004, 334-335: 161-166.
[8] Modina H, Perssona K M, Andersson A, et al. Removal of metals from landfill leachate by sorption to activated carbon, bone meal and iron fines [J]. Journal of Hazardous Materials, 2011, 189(3): 749-754.
[9] Guan Z Q, Jin C J, Ren J, et al. Adsorption characteristics of pinecone to Cu2+, Pb2+ and Zn2+ in wastewater [J]. Industrial Water and Wastewater, 2010, 41(4): 59-63.(in Chinese)
[10] Zhang Z L, Kuang Q, Jia X S. Study on the kinetics and thermodynamics of Pb2+, Cu2+, Cr3+, Cd2+, Ni2+ adsorption onto peanut hull [J]. Ecology and Environmental Sciences, 2010, 19(12): 2927-2977.(in Chinese)
[11] Wang X, Sun K W. Study on comprehensive utilization of crushed brick [J]. China Resources Comprehensive Utilization, 2008, 26(10): 34-35.(in Chinese)
[12] Yuan Y, Sun K W. Primary discussion of mechanicalchemical activation on construction waste slag [J]. China Resources Comprehensive Utilization, 2009, 27(1): 32-33.(in Chinese)
[13] Okochi N C, McMartin D W. Laboratory investigations of stormwater remediation via slag: effects of metals on phosphorus removal [J]. Journal of Hazardous Materials, 2011, 187(1/2/3): 250-257.
[14] Aksu Z. Application of biosorption for the removal of organic pollutants: a review [J]. Process Biochemistry, 2005, 40(3/4): 997-1026.
[15] Kragovic’M, Dakovic’ A, Sekulic’ˇ, et al. Removal of lead from aqueous solutions by using the natural and Fe(Ⅲ)-modified zeolite [J]. Applied Surface Science, 2012, 258(8): 3667-3673.
[16] Liu S Y, Gao J, Yang Y J, et al. Adsorption intrinsic kinetics and isotherms of lead ions on steel slag [J]. Journal of Hazardous Materials, 2010, 173(1/2/3): 558-562.
[17] Zou W H, Chen Z Z, Han R P, et al. Removal of copper cation and lead cation from aqueous solution by manganese-oxide-coated-sand [J]. Acta Scientiae Circumstantiae, 2005, 25(6): 779-784.(in Chinese)
[18] Tien C T, Huang C P. Formation of surface complexes between heavy metals and sludge particles[C]//Trace Metals in the Environmental. 1. Heavy Metals in the Environment. Amsterdam: Elsevier, 1991: 295-311.
[19] Li X M, Zheng W, Wang D B, et al. Removal of Pb(Ⅱ)from aqueous solutions by adsorption onto modified areca waste: kinetic and thermodynamic studies [J]. Desalination, 2010, 258(1/2/3): 148-153.
[20] Motsi T, Rowson N A, Simmons M J H. Kinetic studies of the removal of heavy metals from acid mine drainage by natural zeolite [J]. International Journal of Mineral Processing, 2011, 101(1/2/3/4): 42-49.
[21] Chen C, Wang J L. Characteristics and kinetics of Zn2+biosorption by Saccharomyces cerevisiae [J]. Journal of Tsinghua University: Science and Technology, 2006, 46(12): 2069-2072.(in Chinese)
[22] Shavandi M A, Haddadian Z, Ismail M H S, et al. Removal of Fe(Ⅲ), Mn(Ⅱ)and Zn(Ⅱ)from palm oil effluent(POME)by natural zeolite[J]. Journal of the Taiwan Institute of Chemical Engineers, 2012, 43(5): 750-759.
[23] Nehrenheim E, Gustafsson J P. Kinetic sorption modeling of Cu, Ni, Zn, Pb and Cr ions to pine bark and blast furnace slag by using batch experiments [J]. Bioresource Technology, 2008, 99(6): 1571-1577.
[24] Bulut Y, Tez Z. Adsorption studies on ground shells of hazelnut and almond [J]. Journal of Hazardous Materials, 2007, 149(1): 35-41.
[25] Ho Y S, McKay G. Pseudo-second order model for sorption processes [J]. Process Biochem, 1999, 34: 451-465.
[26] Li Y H, Zhu Y Q, Zhao Y M, et al. Different morphologies of carbon nanotubes effect on the lead removal from aqueous solution [J]. Diamond and Related Materials, 2006, 15: 90-94.
[27] Wang W H, Wong M H, Leharne S, et al. Fractionation and biotoxicity of heavy metals in urban dusts collected from Hong Kong and London [J]. Environmental Geochemistry and Health, 1998, 20(4): 185-198.
[28] Chen H Y, Yang Y J, Tan X D, et al. Preparation of activated charcoal from pyrolusite-added sewage sludge and adsorption of lead ion in wastewater [J]. Chinese Journal of Environmental Engineering, 2010, 4(11): 2473-2478.(in Chinese)
[29] Fu R J, Xue W P, Ma C, et al. Adsorption of Cu2+ and Ni2+ by active carbon of peanut shell [J]. Journal of Dalian Polytechnic University, 2009, 28(3): 200-203.(in Chinese)
[30] Rozada F, Otero M, Moran A, et al. Adsorption of heavy metals onto sewage sludge-derived materials [J]. Bioresource Technology, 2008, 99(14): 6332-6338.
[31] Liu Y, Xiao D, Guo L H, et al. Adsorption of metal ions on natural vermiculite [J]. Journal of Sichuan University: Engineering Science Edition, 2006, 38(3): 92-96.(in Chinese)

Memo

Memo:
Biographies: Yang Liqiong(1988—), female, graduate; Wang Jianlong(corresponding author), male, doctor, associate professor, wjl_xt@163.com.
Foundation items: The National Natural Science Foundation of China(No.51208022), the National Science and Technology Major Project of China(No.2011ZX07301-004-01).
Citation: Yang Liqiong, Wang Jianlong, Zhang Xiaoran, et al. Adsorption characteristics of Pb from urban stormwater runoff by construction wastes[J].Journal of Southeast University(English Edition), 2014, 30(2):212-219.[doi:10.3969/j.issn.1003-7985.2014.02.014]
Last Update: 2014-06-20