최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기한국물환경학회지 = Journal of Korean Society on Water Environment, v.38 no.2, 2022년, pp.82 - 94
장하린 (조선대학교 환경공학과) , 문덕현 (조선대학교 환경공학과)
In this study, chemically modified biochar (NSBP500, KSBP500, OSBP500) derived from starfish was utilized to improve the adsorption ability of the SBP500 (Starfish Biochar Pyrolyzed at 500℃) in a solution contaminated with heavy metals. According to the biochar modification performance evalua...
Ahmad, M., Rajapaksha, A. U., Lim, J. E., Zhang, M., Bolan, N., Mohan, D., Vithanage, M., Lee, S. S., and Ok, Y. S. (2014). Biochar as a sorbent for contaminant management in soil and water: A review, Chemosphere, 99, 19-33.
Al-Degs, Y. S., El-Barghouthi, M. I., Issa, A. A., Khraisheh, M. A., and Walker, G. M. (2006). Sorption of Zn(II), Pb(II), and Co(II) using natural sorbents: Equilibrium and kinetic studies, Water Research, 40, 2645-2658.
Alidoust, D., Kawahigashi, M., Yoshizawa, S., Sumida, H., and Watanabe, M. (2015). Mechanism of cadmium biosorption from aqueous solutions using calcined oyster shells, Journal of Environmental Management, 150, 103-110.
An, Q., Jiang, Y. Q., Nan, H. Y., Yu, Y., and Jiang, J. N. (2019). Unraveling sorption of nickel from aqueous solution by KMnO 4 and KOH-modified peanut shell biochar: Implicit mechanism, Chemosphere, 214, 846-854.
An, S. K., Song, W. J., Park, Y. M., Yang, H. A., and Kweon, J. H. (2020). Effects of chemical modification on surface characteristics and 2,4-dichlorophenol adsorption on activated carbon, Journal of Korean Society of Water and Wastewater, 34(6), 425-435.
Aziz, H. A., Adlan, M. N., and Ariffin, K. S. (2008). Heavy metals (Cd, Pb, Zn, Ni, Cu and Cr(III)) removal from water in Malaysia: Post treatment by high quality limestone, Bioresource Technology, 99, 1578-1583.
Cai, G. B., Chen, S. F., Liu, L., Jiang, J., Yao, H. B., Xu, A. W., and Yu, S. H. (2009). 1,3-Diamino-2-hydroxypropane-N,N,N0,N0-tetraacetic acid stabilized amorphous calcium carbonate: Nucleation, transformation and crystal growth, CrystEngComm, 12(1), 234-241.
Chen, J. P., Wu, S., and Chong, K. H. (2003). Surface modification of a granular activated carbon by citric acid for enhancement of copper adsorption, Carbon, 41, 1979-1986.
Cheng, N., Wang, B., Wu, P., Lee, X., Xing, Y., Chen, M., and Gao, B. (2021). Adsorption of emerging contaminants from water and wastewater by modified biochar: A review, Environmental Polllution, 273, 116448.
Cunha, D. L., Pereira, G. F. C., Felix, J. F., Aguiar, J. A., and De Azevedo, W. M. (2014). Nanostructured hydrocerussite compound (Pb 3 (CO 3 ) 2 (OH) 2 ) prepared by laser ablation technique in liquid environment, Materials Research Bulletin, 49, 172-175.
Dai, Y., Sun, Q., Wang, W., Lu, L., Liu, M., Li, J., Sun, Y., Zhang, K., Xu, J., Zheng, W., Hu, Z., Yang, Y., Gao, Y. Y., Chen, Y., Zhang, X., Gao, F., and Zhang, Y. (2018). Utilizations of agricultural waste as adsorbent for the removal of contaminants: A review, Chemosphere, 211, 235-253.
Danish, M., Hashim, R., Ibrahim, M. N. M., Rafatullah, M., Sulaiman, O., Ahmad, T., Shamuzzoha, M., and Ahmad A. (2011). Sorption of copper(II) and nickel(II) ions from aqueous solutions using calcium oxide activated date (phoenix dactylifera) stone carbon: Equilibrium, kinetic, and thermodynamic studies, Journal of Chemical & Engineering Data, 56, 3607-3619.
Ding, Z., Hu, X., Wan, Y., Wang, S., and Gao, B. (2016). Removal of lead, copper, cadmium, zinc, and nickel from aqueous solutions by alkali-modified biochar: Batch and column tests, Journal of Industrial and Engineering Chemistry, 33, 239-245.
Du, Y., Lian, F., and Zhu, L. (2011). Biosorption of divalent Pb, Cd and Zn on aragonite and calcite mollusk shells, Environmental Pollution, 159(7), 1763-1768.
Feng, N., Guo, X., Liang, S., Zhu, Y., and Liu, J. (2011). Biosorption of heavy metals from aqueous solutions by chemically modified orange peel, Journal of Hazardous Materials, 185, 49-65.
Garcia-Sachez, A. and Avarez-Ayuso, E. (2002). Sorption of Zn, Cd and Cr on calcite. Application to purification of industrial wastewaters, Minerals Engineering, 15(7), 539-547.
Gil, T. H., Lee, W. H., and Ahn, J. H. (2020). Adsorption of methylene blue from aqueous solution by pumpkin-seed residue, Journal of Korean Society Environmental Engineers, 42(1), 10-18.
Giri, A. K., Sinhamahapatra, A., Prakash, S., Chaudhari, J., Shahi, V. K., and Panda, A. B. (2013). Porous ZnO microtubes with excellent cholesterol sensing and catalytic properties, Journal of Materials Chemistry A, 1(3), 814-822.
Godelitsas, A., Astilleros, J. M., Hallam, K., Harissopoulos, S., and Putnis, A. (2003). Interaction of calcium carbonates with lead in aqueous solutions, Environmental Science & Technology, 37(15), 3351-3360.
Gomez del Rio, J. A., Morandoa, P., and Cicerone, D. S. (2004). Natural materials for treatment of industrial effluents: Comparative study of the retention of Cd, Zn and Co by calcite and hydroxyapatite. Part I: Batch experiments, Journal of Environmental Management, 71(2), 169-177.
Inthapanya, X., Wu, S., Han, Z., Zeng, G., Wu, M., and Yang, C. (2019). Adsorptive removal of anionic dye using calcined oyster shells: Isotherms, kinetics, and thermodynamics, Environmental Science and Pollution Research, 26, 5944-5954.
Jang, H. R., Jeon, H. K., and Moon, D. H. (2021). Sorption of Cu, Zn, Pb and Cd from a contaminated aqueous solution using starfish (Asterina pectinifera) derived biochar, Journal of Korean Society Environmental Engineers, 43(4), 274-285.
Jeon, H. K., Cheong, K. H., Lee, J. S., Lee, J. W., and Moon, D. H. (2020). Adsorption of heavy metals in an aqueous solution using starfish (Asterina pectinifera) biochar, Journal of Korean Society Environmental Engineers, 42(5), 267-279.
Lee, J. W., Jeong, E. J., Lee, J. M., Lee, Y. G., and Chon, K. M. (2021). Comparative evaluation of methylene blue and humic acids removal efficiency using rice husk derived biochars and powdered activated carbon, Journal of Korean Society on Water Environment, 37(6), 483-492.
Lee, M. Y., Park, J. M., and Yang, J. W. (2017). Micro precipitation of lead on the surface of crab shell particles, Process Biochemistry, 32(8), 671-677.
Lee, Y. H. and Yim, S. B. (2014). Removal characteristics of heavy metals in acid mine drainage (AMD) using porous starfish ceramics (I) - Treatment of AMD in a batch reactor system, Journal of the Korean Geo-Environmental Society, 15(12), 15-24.
Li, H., Dong, X., da Silva, E. B., De Oliveira, L. M., Chen, Y., and Ma, L. Q. (2017). Mechanisms of metal sorption by biochars: Biochar characteristics and modifications, Chemosphere, 178, 466-478.
Li, R., Wang, Z., Guo, J., Li, Y., Zhang, H., Zhu, J., and Xie, X. (2018). Enhanced adsorption of ciprofloxacin by KOH modified biochar derived from potato stems and leaves, Water science & Technology, 77(4), 1127-1136.
Lim, J. E., Kim, H. W., Jeong, S. H., Lee, S. S., Yang, J. E., Kim, K. H., and Ok, Y. S. (2014). Characterization of burcucumber biochar and its potential as an adsorbent for veterinary antibiotics in water, Journal of Applied Biological Chemistry, 57(1), 65-72.
Lim, J. E., Lee, S. S., and Ok, Y. S. (2015). Efficiency of poultry manure biochar for stabilization of metals in contaminated soil, Journal of Applied Biological Chemistry, 58(1), 39-50.
Ma, M., Djanashvili, K., and Smith, W. (2016). Controllable hydrocarbon formation from the electrochemical reduction of CO 2 over Cu nanowire arrays, Angewandte Chemie International Edition, 55, 6680-6684.
Mojet, B., Ebbesent, S., and Lefferts, L. (2010). ChemInform abstract light at the interface: The potential of attenuated total reflection, Chemical Society Reviews, 39, 4643-4655.
Moon, D. H., Hwang, I. S., Koutsopyros, A., Cheong, K. H., Ok, Y. S., Ji, W. H., and Park, J. H. (2018). Stabilization of lead (Pb) and zinc (Zn) in contaminated rice paddy soil using starfish: A preliminary study, Chemosphere, 199, 459-467.
Moon, D. H., Park, J. W., Chang, Y. Y., Ok, Y. S., Lee, S. S., Ahmad, M., Koutsopyros, A., Park, J. H., and Baek, K. T. (2013). Immobilization of lead in contaminated firing range soil using biochar, Environmental Science and Pollution Research, 20, 8464-8471.
Moon, D. H., Yang, J. E., Cheong, K. H., Koutsospyros, A., Park, J. H., Lim, K. J., Kim, S. C., Kim, R. Y., and Ok, Y. S. (2014). Assessment of natural and calcined starfish for the amelioration of acidic soil, Environmental Science and Pollution Research, 21(16), 9931-9938.
Ngah, W. S W. and Hanafiah, M. A. K. M. (2008). Removal of heavy metal ions from wastewater by chemically modified plant wastes as adsorbents: A review, Bioresource Technology, 99, 3935-3948.
Novak, J. M., Lima, I., Xing, B., Gaskin, J. W., Steiner, C., Das, K. C., Admedna, M., Rehrah, D., Watts, D. W., Busscher, W. J., and Schomberg, H. (2009). Characterization of designer biochar produced at different temperatures and their effects on a loamy sand, Annal of Environmental Science, 3, 195-206.
Oh, H. S. and Chang, J. S. (2020). Enhancement of the congo red adsorption capacity of biochars by surface modification with MgCl 2 pretreatment, Journal of Korean Society of Environmental Engineers, 42(10), 472-481.
Panahi, H. K. S., Dehhaghi, M., Ok, Y. S., Nizami, A. S., Khoshnevisan, B., Mussatto, S. I., Aghbashlo, M., Tabatabaei, M., and Lam, S. S. (2020). A comprehensive review of engineered biochar: Production, characteristics, and environmental applications, Journal of Cleaner Production, 270, 122462.
Park, H. (2003). Development of industrialization technology with starfish, Food industry and nutrition, 8(3), 18-25.
Park, M. H., Lee, G. R., Park, H. S., Jeong, S. J., and Kim, J. Y. (2018). Adsorption of lead and cadmium from wastewater utilizing nano zero valent iron supported by coffee ground, Journal of Korean Society Environmental Engineers, 40(2), 82-90.
Peng, H., Gao, P., Chu, G., Pan, B., Peng, J., and Xing, B. (2017). Enhanced adsorption of Cu(II) and Cd(II) by phosphoric acid-modified biochars, Environmental Pollution, 229, 846-853.
Qiu, B., Tao, X., Wang, G., Li, W., Ding, X., and Chu, H. (2021). Biochar as a low-cost adsorbent for aqueous heavy metal removal: A review, Journal of Analytical and Applied Pyrolysis, 155, 105081.
Saghatforoush, L. A., Sanati, S., Mehdizadeh, R., and Hasanzadeh, M. (2012). Solvothermal synthesis of Cd(OH) 2 and CdO nanocrystals and application as a new electrochemical sensor for simultaneous determination of norfloxacin and lomefloxacin, Superlattices and Microstructures, 52 885-893.
Shin, W. S., Na, K. R., and Kim, Y. K. (2015). Characteristics of stabilization and adsorption of heavy metal (As 3+ , Cr 6+ ) by modified activated carbon, Journal of Navigation and Port Research, 39(3), 185-192.
Tizo, M. S., Blanco, L. A. V., Cagas, A. C. Q., Cruz, B. R. B. D., Encoy, J. C., Gunting, J. V., Arazo, R. O., and Mabayo, V. I. F. (2018). Efficiency of calcium carbonate from eggshells as an adsorbent for cadmium removal in aqueous solution, Sustainable Environment Research, 28, 326-332.
Wahab, R., Ansari, S. G., Kim, Y. S., Dar, M. A., and Shin, H. S. (2007). Synthesis and characterization of hydrozincite and its conversion into zinc oxide nanoparticles, Journal of Alloys and Compounds, 461, 66-71.
Wang, H., Yuan, X., Zeng, G., Leng, L., Peng, X., Liao, K., Peng, L., and Xiao, Z. (2014). Removal of malachite green dye from wastewater by different organic acid-modified natural adsorbent: Kinetics, equilibriums, mechanisms, practical application, and disposal of dye-loaded adsorbent, Environmental Science and Pollution Research, 21(19), 11552-11564.
Witoon, T. (2011). Characterization of calcium oxide derived from waste eggshell and its application as CO 2 sorbent, Ceramics International, 37, 3291-3298.
Wu, Q., Chen, J., Clark, M., and Yu, Y. (2014). Adsorption of copper to different biogenic oyster shell structures, Applied Surface Science, 311, 264-272.
Xu, X., Cao, X., Zhao, L., Wang, H., Yu, H., and Gao, B. (2013). Removal of Cu, Zn, and Cd from aqueous solutions by the dairy manure-derived biochar, Environmental Science and Pollution Research, 20, 358-368.
Zhu, B., Fan, T., and Zhang, D. (2008). Adsorption of copper ions from aqueous solution by citric acid modified soybean straw, Journal of Hazaradous Materials, 153, 300-308.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
오픈액세스 학술지에 출판된 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.