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¡¶½­ËÕÅ©Òµ¿Æѧ¡·[ISSN:1002-1302/CN:32-1214/S]

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µÚ44¾í

ÆÚÊý:

2016Äê06ÆÚ

Ò³Âë:

11-14

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רÂÛ

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2016-06-25

ÎÄÕÂÐÅÏ¢/Info

Title:

Research progress of adsorption of heavy metal ions by non-food biomass

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»ª¶«½»Í¨´óѧÍÁľ½¨ÖþѧԺ£¬½­Î÷Äϲý 330013

Author(s):

Lu Xiuguo; et al

¹Ø¼ü´Ê:

·ÇÁ¸ÉúÎïÖÊ; ÖؽðÊôÀë×Ó; Îü¸½¼Á; »¯Ñ§¸ÄÐÔ; ¶¯Á¦Ñ§

Keywords:

-

·ÖÀàºÅ:

X703.1

DOI:

-

ÎÄÏ×±êÖ¾Âë:

A

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Abstract:

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²Î¿¼ÎÄÏ×/References:

£Û1£Ý²ÌÈËÎÀèÃ÷£¬ÅÓ³¤ãñ£¬µÈ. ÀûÓÃÅ©Òµ·ÏÆúÎï´¦ÀíË®ÌåÖؽðÊôÎÛȾµÄÑо¿½øÕ¹£ÛJ£Ý. Öйú¸øË®ÅÅË®£¬2014£¬30(24)£º61-65.
£Û2£ÝÀîÀÖ׿£¬ÍõÈý·´£¬³£¾üϼ£¬µÈ. Öк͹²³Áµí¡ª¡ªÌúÑõÌå·¨´¦Àíº¬Äø¡¢¸õ·ÏË®µÄʵÑéÑо¿£ÛJ£Ý. »·¾³ÎÛȾÓë·ÀÖΣ¬2015£¬37(1)£º31-34£¬40.
£Û3£ÝMiretzky P£¬Cirelli A F. Cr(¢ö) and Cr(¢ó) removal from aqueous solution by raw and modified lignocellulosic materials£ºa review£ÛJ£Ý. Journal of Hazardous Materials£¬2010£¬180(1/2/3)£º1-19.
£Û4£ÝBhatnagar A£¬Sillanpaa M. Utilization of agro-industrial and municipal waste materials as potential adsorbents for water treatment£ºa review£ÛJ£Ý. Chemical Engineering Journal£¬2010£¬157(2/3)£º277-296.
£Û5£ÝChoi H D£¬Jung W S£¬Cho J M£¬et al. Adsorption of Cr(¢ö) onto cationic surfactant-modified activated carbon£ÛJ£Ý. Journal of Hazardous Materials£¬2009£¬166(2/3)£º642-646.
£Û6£ÝCronje K J£¬Chetty K£¬Carsky M. Optimization of chromium sorption potential using developed activated carbon from sugarcanebagasse with chemical activation by zinc chloride£ÛJ£Ý. Desalination£¬2011£¬275(1/2/3)£º276-284.
£Û7£ÝFarooq U£¬Kozinski J A£¬Khan M A£¬et al. Biosorption of heavy metal ions using wheat based biosorbents£ºa review of the recent literature£ÛJ£Ý. Bioresource Technology£¬2010£¬101(14)£º5043-5053.
£Û8£Ý°ØËÉ. Å©ÁÖ·ÏÆúÎïÔÚÖؽðÊô·ÏË®Îü¸½´¦ÀíÖеÄÑо¿½øÕ¹£ÛJ£Ý. »·¾³¿ÆѧÓë¼¼Êõ£¬2014£¬37(1)£º94-98.
£Û9£ÝHashem A£¬Akasha R A£¬Ghith A£¬et al. Adsorbent based on agricultural wastes for heavy metal and dye removal£ºa review£ÛJ£Ý. Energy Edu Sci Technol£¬2007£¬19(2)£º69-86.
£Û10£ÝAnna K. Analysis of temperature-dependent biosorption of Cu²⁺ ions on sunflower hulls£ºKinetics£¬equili-brium and mechanism of the process£ÛJ£Ý. Chemical Engineering Journal£¬2012£¬192£º13-20.
£Û11£ÝMontazer-Rahmati M M£¬Rabbani P£¬Abdolali A£¬et al. Kinetics and equilibrium studies on biosorption of cadmium£¬lead£¬and nickel ions from aqueous solutions by intact and chemically modified brown algae£ÛJ£Ý. Journal of Hazardous Materials£¬2011£¬185(1)£º401-407.
£Û12£ÝÍõÐãÀò£¬ÉÐÓñ¿¡£¬Ë夵¤. ÐÂÐÍÎü¸½¼Á´¦ÀíÖؽðÊô·ÏË®µÄÑо¿½øÕ¹£ÛJ£Ý. ¹¤ÒµË®´¦Àí£¬2014£¬34(7)£º5-9.
£Û13£ÝLiang S£¬Guo X E£¬Tian Q H. Adsorption of Pb²⁺and Zn²⁺from aqueous solutions by sulfured orange peel£ÛJ£Ý. Desalination£¬2011£¬275(1/2/3)£º212-216.
£Û14£ÝFeng N C£¬Guo X Y. Characterization of adsorptive capacity and mechanisms on adsorption of copper£¬lead and zinc by modified orange peel£ÛJ£Ý. Transactions of Nonferrous Metals Society of China£¬2012£¬22(5)£º1224-1231.
£Û15£ÝInyang M£¬Gao B£¬Ding W Ch£¬et al. Enhanced lead sorption by biochar derived from anaerobically digested sugarcane bagasse£ÛJ£Ý. Separation Science and Technology£¬2011£¬46(12)£º1950-1956.
£Û16£ÝAltun T£¬Pehlivan E. Removal of Cr(¢ö) from aqueous solutions by modified walnut shells£ÛJ£Ý. Food Chemistry£¬2012£¬132(2)£º693-700.
£Û17£ÝTan G£¬Yuan H Y£¬Liu Y£¬et al. Removal of Lead from aqueous solution with native and chemically modified corncobs£ÛJ£Ý. Journal of Hazardous Materials£¬2010£¬174(1/2/3)£º740-745.
£Û18£Ý»ÆÉ«Ñ࣬ÁõÔƷ²ÜÍþ£¬µÈ. ¸ÄÐÔµ¾²Ý¶ÔCr(¢ö)µÄÎü¸½¶¯Á¦Ñ§£ÛJ£Ý. »·¾³»¯Ñ§£¬2013£¬32(2)£º240-248.
£Û19£ÝGorgievski M£¬Bozic D£¬Stankovic V£¬et al. Kinetics£¬equilibrium and mechanism of Cu²⁺£¬Ni²⁺and Zn²⁺ions biosorption using wheat straw£ÛJ£Ý. Ecological Engineering£¬2013£¬58£º113-122.
£Û20£ÝDahiya S£¬Tripathi R M£¬Hegde A G. Biosorption of Lead and copper from aqueous solutions by pre-treated crab and arca shell biomass£ÛJ£Ý. Bioresource Technology£¬2008£¬99(1)£º179-187.
£Û21£ÝParvathi K£¬Nagendran R. Bioadsorption of chromium from effluent generated in chrome-electroplating unit using Saccharomyces cerevisiae£ÛJ£Ý. Separation Science and Technology£¬2007£¬42£º625-638.
£Û22£ÝAcar F N£¬Malkoc E. The removal of chromium(¢ö) from aqueous solutions by Fagus orientalis L.£ÛJ£Ý. Bioresource Technology£¬2004£¬94(1)£º13-15.
£Û23£ÝFarajzadeh M A£¬Monji A B. Adsorption characteristics of wheat bran towards heavy metal cations£ÛJ£Ý. Separation and Purification Technology£¬2004£¬38(3)£º197-207.
£Û24£ÝSarin V£¬Pant K K. Removal of Chromium from industrial waste by using eucalyptus bark£ÛJ£Ý. Bioresource Technology£¬2006£¬97(1)£º15-20.
£Û25£ÝGarg U K£¬Kaur M P£¬Garg V K£¬et al. Removal of hexavalent chromium from aqueous solution by agricultural waste biomass£ÛJ£Ý. Journal of Hazardous Materials£¬2007£¬140(1/2)£º60-68.
£Û26£ÝÁºÁäÓ裬ÍõÒ«¾§£¬ãÆÓ±£¬µÈ. ÓñÃ×оÎü¸½Ë®ÖÐCr(¢ö)µÄÌØÐÔ¼°SEM-EDS±íÕ÷·ÖÎö£ÛJ£Ý. Éú̬»·¾³Ñ§±¨£¬2015£¬24(2)£º305-309.
£Û27£ÝGustavo L T£¬Carlos E D£¬Patricia B H. Removal of hexavalent chromium in aquatic solutions by iron nan-oparticles embedded in orange peel pith£ÛJ£Ý. Chemical Engineering Journal£¬2011£¬173£º480-485.
£Û28£ÝLu X£¬Yi X H£¬Bo H Z. Kinetics and equilibrium adsorption of copper(¢ò)and nickel(¢ò)ions fromaqueous solution using sawdust xanthate modified with ethanediamine£ÛJ£Ý. Science Direct£¬2014£¬24(3)£º868-875.
£Û29£ÝPehlivan E£¬Altun T£¬Parlayici S. Modified barley straw as a potential biosorbent for removal of copper ions from aqueous solution£ÛJ£Ý. Food Chemistry£¬2012£¬135(4)£º2229-2234.
£Û30£ÝBozic D£¬Stankovic V£¬Gorgievski M£¬et al. Adsorption of heavy metal ions by sawdust of deciduous trees£ÛJ£Ý. Journal of Hazardous Materials£¬2009£¬171(1/2/3)£º684-692.
£Û31£ÝSaadat S£¬Karimi-Jashni A. Optimization of Pb(¢ò) adsorption onto modified walnut shells using factorial design and simplex methodologies£ÛJ£Ý. Chemical Engineering Journal£¬2011£¬173(3)£º743-749.
£Û32£ÝTasar S£¬Kaya F£¬Ahmet ¦Z. Biosorption of lead(¢ò)ions from aqueous solution by peanut shells£ºequilibrium£¬thermodynamic and kinetic studies£ÛJ£Ý. Journal of Environmental Chemical Engineering£¬2014£¬2(2)£º1018-1026.
£Û33£ÝV¨¢zquez G£¬Calvo M£¬Sonia Freire M£¬et al. Chestnut shell as heavy metal adsorbent£ºoptimization study of lead£¬copper and zinc cations removal£ÛJ£Ý. Journal of Hazardous Materials£¬2009£¬172(2/3)£º1402-1414.
£Û34£ÝNiu X C£¬Zheng L C£¬Zhou J M£¬et al. Synthesis of an adsorbent from sugarcane bagass by graft copolymerization and its utilization to remove Cd(¢ò)ions from aqueous solution£ÛJ£Ý. Journal of the Taiwan Institute of Chemical Engineers£¬2014£¬45(5)£º2557-2564.
£Û35£ÝËվ飬Îé¾û£¬Ñî¸Õ£¬µÈ. ¸ÄÐÔ°×¹û¿Ç¶ÔË®ÈÜÒºÖÐÖؽðÊôïÓµÄÎü¸½Ñо¿£ÛJ£Ý. Å©Òµ»·¾³¿Æѧѧ±¨£¬2014£¬33(6)£º1218-1225.
£Û36£ÝAnwar J£¬Shafique U£¬Salman M£¬et al. Removal of Pb(¢ò) and Cd(¢ò) from water by adsorption on peels of banana£ÛJ£Ý. Bioresource Technology£¬2010£¬101(6)£º1752-1755.
£Û37£ÝGhorbani M£¬Lashkenari M S£¬Eisazadeh H. Application of polyaniline nanocomposite coated on rice husk ash for removal of Hg(¢ò) from aqueous media£ÛJ£Ý. Synthetic Metals£¬2011£¬161(13/14)£º1430-1433.
£Û38£ÝAnirudhan T S£¬Sreekumari S S. Adsorptive removal of heavy metal ions from industrial effluents using activated carbon derived from waste coconut buttons£ÛJ£Ý. Journal of Environmental Sciences£¬2011£¬23(12)£º1989-1998.
£Û39£ÝCao W£¬Dang Z£¬Ya X Y£¬et al. Removal of chromium(¢ö) from electroplating wastewater using an anion exchanger derived from rice straw£ÛJ£Ý. Environmental Technology£¬2013£¬34(1/2/3/4)£º7-14.
£Û40£ÝDing D H£¬Lei Z F£¬Yang Y N£¬et al. Selective removal of Cesium from aqueous solutions with nickel(¢ò) hexacyanoferrate(¢ó) functionalized agricultural residue-walnut shell£ÛJ£Ý. Journal of Hazardous Materials£¬2014£¬270£º187-195.
£Û41£ÝDing D H£¬Zhao Y X Sheng J£¬et al. Adsorption of cesium from aqueous solution using agricultural residue¡ªwalnut shell£ºequilibrium£¬kinetic and thermodynamic modeling studies£ÛJ£Ý. Water Research£¬2013£¬47(7)£º2563-2571.
£Û42£ÝSahare A B. Removal of copper(¢ò) and nickel(¢ò) using Mangifera indica (mango) bark£ÛJ£Ý. Research Journal of Chemistry and Environment£¬2012£¬16(1)£º28-31.
£Û43£ÝWang D J£¬Chen H£¬Xu H£¬et al. Preparation of wheat straw matrix-g-polyacrylonitrile-based adsorbent by SET-LRP and its applications for heavy metal ion removal£ÛJ£Ý. ACS Sustainable Chemistry & Engineering£¬2014£¬2(7)£º1843-1848.
£Û44£Ý³ÂÀò£¬Ë¾»Û£¬Ñî»À£¬µÈ. Ôí»¯¸ÄÐÔÝ«ËñÒ¶Ôü¶ÔZn²⁺Îü¸½×÷ÓÃÑо¿£ÛJ£Ý. ±±·½Ô°ÒÕ£¬2014(12)£º1-6.
£Û45£ÝTorab-Mostaedi M£¬Asadollahzadeh M£¬Hemmati A£¬et al. Equilibrium£¬kinetic£¬and thermodynamic studiesfor biosorption of cadmium and nickel on grapefruit peel£ÛJ£Ý. Journal of the Taiwan Institute of Chemical Engineers£¬2013£¬44(2)£º295-302.
£Û46£ÝAlom¨¢ I£¬Mart¨ªn-Lara M A£¬Rodr¨ªguez I L£¬et al. Removal of nickel(¢ò)ions from aqueous solutions by biosorption on sugarcane bagasse£ÛJ£Ý. Journal of the Taiwan Institute of Chemical Engineers£¬2012£¬43(2)£º275-281.

ÏàËÆÎÄÏ×/References:

[1]ÕÔºìÑÞ,ÕÅË®»¨,Ê·¿¡ÓÑ,µÈ.Ñõ»¯¸¯Ö³Ëá¶ÔNi2+¡¢Cu2+¡¢Zn2+µÄÎü¸½ÐÔÄÜ[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(04):331.
¡¡Zhao Hongyan,et al.Study on adsorption properties of oxidized humic acids to Ni2+£¬Cu2+£¬Zn2+[J].Jiangsu Agricultural Sciences,2014,42(06):331.