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��(d��o)�x:��Ч��ˮ�w�еĮ�ζ��|(zh��)[6],��ùζ��ˮ�н�(j��ng)��Ͷ�V�Ć�(w��n)�}֮һ��ú�Һ��(r��n)��Ȳ��ځ�(l��i)Դ��,��ú�ҁ�(l��i)�Ժ��ʡ��h��ɽ��늏S(ch��ng),��i��⛏�(f��)��ˎ��ȥ��Ч����ĩ��̿(PAC)��w�,��̿(GAC),��

�P(gu��n)�I�~��ùζ,��(r��n)��,��ú�ң��i��⛏�(f��)��ˎ��,��ĩ��̿

ˮ�w��ζ��(w��n)�}�ǳ�Ҋ(ji��n)��ˮ�h(hu��n)��(w��n)�}֮һ,��ùζ��ˮ�н�(j��ng)��Ͷ�V�Ć�(w��n)�}֮һ��ˮ�w��ùζ��(w��n)�}�Ļ��W(xu��)��|(zh��)��,��(trans-1,10-dimethyl-trans-9-decalol,��geosmin)��2-�׻��ݨ��(2-methylisoborneol��MIB) ��鳣Ҋ(ji��n)��y��ȥ��,��˵��X(ju��)��(du��)��O��,��ֻҪˮ�к��к��geosmin��MIB��ܸ��X(ju��)��䱻�˸�֪��ֵ�քe��s��4 ng·L-1��10 ng·L-1,��

��Ҏ(gu��)ˮ̎��ˇ,��^(gu��)�V�ȣ��Ч�س�ȥ��ˮ�е��ùζ[1],��ؚ�Ҳֻ��ȥ��֮�ζ,��Щ��(l��i)��_(k��i)չ��һЩ��ˮ��Į�ζ��ƺ�ȥ��

�Y��𣺇�(gu��)��c(di��n)��A(ch��)�о��l(f��)չӋ(j��)��Y��(xi��ng)Ŀ(2008CB418101, 2008CB418006);��(gu��)��Ȼ�ƌW(xu��)��Y��(xi��ng)Ŀ(20807055, U0833604)

;�Ї�(gu��)�ƌW(xu��)Ժ֪�R(sh��)��(chu��ng)�¹��˲��I(l��ng)��ǰ��(xi��ng)Ŀ,��

�о�,��Ҫ�л��̿��W(xu��)��[2-3],��߻��[4]��ｵ��[5]��,��ʹ�û��W(xu��)��(du��)��ˮ�Ю�ζȥ��кܶ��(b��o)��ùζ��ʹ�û��W(xu��)��̎��ˮ��ζ��H��̎��M(f��i)��,��Ҳ�ͬ��ȥ��Ч��Ҳ�в,ͬ�r(sh��)ԭˮ�е��ЙC(j��)��(l��i)��(hu��)�c��(y��ng),��׮a(ch��n)��a(ch��n)��,��߻��΢��ｵ��MIB��geosmin�ڌ�(sh��)�(y��n)�ҫ@��˳ɹ��Ŀǰ�y��ˮ̎��I(y��)��Ҏ(gu��)ģ��(y��ng)��,�,��̿��ĩ��̿(PAC)��w�,��̿(GAC),��Ч��ˮ�w�еĮ�ζ��|(zh��)[6]��ʹ�û��̿̎��ˮ��ζ�ɱ��ܸ�,��

��,��б�Ҫ��µ��m��ˮ̎��I(y��)��ùζȥ��ĵͳɱ��ú�Һ��(r��n)��Ȳ��ځ�(l��i)Դ��,��ʹ�÷��,��ɱ��͵��c(di��n)��(l��i)�ڭh(hu��n)��кܶ��(y��ng)��,��,��x�ӡ��(l��i)��,��x(ch��ng)��ЙC(j��)Ⱦ�ϵ�,��ȥ��ˮ�w��ù��ζ��(b��o)��١��о��÷�ú�Һ��(r��n)����ù��ζMIB��geosmin,��c��i��⛏�(f��)��ˎ��ͷ�ĩ��̿��ù��ζ��Ч��M(j��n)�б��^,��

2.��c��

2.1��(sh��)�(y��n)��

��(sh��)�(y��n)�е�MIB��geosmin��(l��i)�Էž�(xi��n)��B(y��ng)Һ��ԓ�ž�(xi��n)��x��h��ɏ��,��܉�ͬ�r(sh��)�a(ch��n)MIB��geosmin[7],��MIB��geosmin��քe��106±4 μg·L-1��180±2 μg·L-1��ž�(xi��n)��B(y��ng)��Ҋ(ji��n)�īI(xi��n)[7],��ž�(xi��n)��B(y��ng)Һ��0.22 μmĤ(Millipore)�^(gu��)�V,��4 �汣��,��

��ú�ҁ�(l��i)�Ժ��ʡ��h��ɽ��늏S(ch��ng)��(r��n)��(l��i)�Ժ��ʡ��Ӻ��^(q��)��ɽ��(r��n)��؟(z��)�ι�˾,��ĩ��̿(PAC)ُ(g��u)�Ժ��ʢ��h(hu��n)�,��Ƽ��˾��ľ�|(zh��)��̿,��i��⛏�(f��)��ˎ��ݾGˮԴ�Ƽ��޹�˾��a(ch��n),��

2.2��(sh��)�(y��n)�x��

XRD��x(RigakuD/MAX-IIIA��ձ��W(xu��));�ȱ��׏��x(COULTER SA3100,��Beckman Coulter,��(gu��));��ɫ�V�x(GC17AATFW-V3��Shimadzu,��ձ�)��ɫ�V��DB-5,5%��׻��۹��鏗��ʯӢë��(x��)��(30m×0.25mm×ID 0.25μm film);pHS-3��x��Ӌ(j��),��Ϻ��״�,��

2.3 ��(sh��)�(y��n)��

2.3.1 ��(r��n)��ú�һ��Ƃ�

��(r��n)��ùζ��(r��n)��ͷ�ú��^(gu��)200Ŀ�Y;��(r��n)��20%(�|(zh��)��)��Д��30 min,��ټ��һ��ķ�ú��,��^�m(x��)��30min��õ��,��M(j��n)��^(gu��)�V,��ˮϴ��ԣ��@�û��,��

2.3.2 ��ȥ��ùζ��(sh��)�(y��n)

��(zh��n)�_�Q(ch��ng)��һ��뵽250 mL�F��ƿ��,��100 mL��зž�(xi��n)��B(y��ng)Һ�ĳ��ˮ��MIB��geosmin��Ȟ�50-250 ng·L-1,��m��,��PTFEĤ��,��25��(±1��)��60 min��x�ģ�ȡ��Һ�M(j��n)�з��,Ӌ(j��)��Ч��,��

2.3.3 MIB��geosmin��

ˮ�wMIB��geosmin��ȡ�c�y(c��)��픿չ��΢��ȡ-��ɫ�V��(HSPME-GC-FID)[8],��125 mL��ȡƿ(Supelco, Sigma-Aldrich��˾��(gu��))�м��һ��(g��)΢�ʹ��D(zhu��n)��,��Ȼ��m��x��Һ,��s30%(�|(zh��)��)��NaCl��Î��о��ķ��ϩ(PTFE)Ϳ�ӵĹ��z�|��ƿ�w(Supelco, Sigma-Aldrich��˾,��(gu��))�ܷ�,��ȡƿ��60��ĺ��ˮԡ�b��У�픿չ��΢��ȡ30 min,��

GC-FID�ķ��l��飺�d��߼�N2,��㉺135 k Pa;�M(j��n)�ӿڵĜضȞ�250 ��;�o(w��)��M(j��n)��2 min;��ؗl��飺��60 ��,��2 min��5 ��/min ��ٶ��200 ��,��2 min,��20��/min��ٶ��250 �棬��2 min,��FID�z�y(c��)��ĜضȞ�270 ��,��

3.�Y(ji��)��cӑՓ

3.1�ϳ��Ч��

��20 mg·L-1��ùζ��Ȟ�20% (m/m),��׃��ú�Һ��(r��n)��ı��,��Ƃ�һϵ��Y(ji��)��(r��n)��c��ú�҆Ϊ�(d��)���Ч��,��ĳһ��Ч��^��,��Ȼ��xȡ��ѱ��Q(ch��ng)ȡ��ͬ��pH 8.0��Һ��ž�(xi��n)��a(ch��n)��Į�ζ,��y(c��)��MIB��geosmin�ĺ��,��Ӌ(j��)��Ч�ʣ��Y(ji��)��Ҋ(ji��n)��1,��ı�1��Կ��,��15mg·L-1�r(sh��)��MIB�cgeosmin��Ч�ʷքe��59.9%,��63.7%,��(d��ng)��^�m(x��)��ӕr(sh��)��Ч��½�,��ܵ�ԭ��r(sh��)��l(f��)��ۼ�,��ȱ��e�½��Ч�ʽ��,��

��1�ϳ��Ч��

Table 1 Effect of the adsorbent dose on the adsorption efficiency ofMIB and geosmin

	5 mg·L-1	10 mg·L-1	15 mg·L-1	20 mg·L-1	25 mg·L-1	40 mg·L-1
MIB	11.3	15.6%	59.9%	53.8%	52.6%	53.6%
geosmin	12.4%	19.4%	63.7%	56.8%	55.4%	54.0%

3.2 ��C(j��)��

��ú��ữ��ȱ��e��,��ữǰ��26.6 m2·g-1��ӵ��ữ��66.4 m2·g-1��ữ��ú�ұ��׃�ôֲ�,��S�఼�۲��a(ch��n)��˿ն�,��˷�ú��w��ıȱ��e[9]��ữ֮��(r��n)��ıȱ��eҲ��,��ữǰ��18.6 m2·g-1��ӵ�73.9 m2·g-1,��Sale��Karimi[10]Ҳ��(l��i)�ƈ�(b��o)����Ժ�ɳ�ȥ�ֲ��Óʯͨ��еĽ��o(w��)�C(j��)�}��s�|(zh��),��ʹ�׵��õ��ͨ,��|(zh��)��ӵĔU(ku��)ɢ��һ��,��̎��(r��n)��?x��)r��ùζ,��ԭ�Ӱ돽�^С,��w�e�^С�Ě��x�ӿ��ÓQ��(r��n)��g��Na+,��Mg2+��Ca2+,��K+��x��,�Ķ��ԭ��(l��i)��g�ĽY(ji��)��,��ʹ��g��_(k��i)��g��U(ku��)��,��Ժ��(r��n)��ıȱ��e��@��[9],��(r��n)��ͷ�ú�҃��߰��һ��Ϻ�ȱ��e��ӵ�63.5 m2·g-1,��΢��w�e��ӣ��ữ��(r��n)��ͷ�ú�ҵ�΢��w�e�քe��0.004 cm3·g-1��0.002 cm3·g-1,��Ϻ��΢��w�e��0.007 cm3·g-1,��Ч��c��΢��w�e��п��w�e��P(gu��n)[12]��

XRD�D�V��ǰ��(r��n)��d001��1.533 nm,���(r��n)��d001��1.555 nm,��ɵ��g��(d001)�pȥ��(r��n)��}�Y(ji��)��(g��u)�ĺ��(0.96nm)��(r��n)��Č��g��,��ɴ�Ӌ(j��)��ǰ�ͻ��(r��n)��Č��g��քe��0.573 nm��0.596 nm�,����(r��n)��Č��g��cMIB��geosmin�ķ��ӳߴ��(0.59nm)[13],��ǰ��g��С��MIB��geosmin�ķ��ӳߴ�,��˻��MIB��geosmin�܉��M(j��n)��Óʯ�ľ��g��Ч��,��

3.3��i��}��(f��)��ˎ��ȥ��ζ��(sh��)�(y��n)

��(sh��)�(y��n)��Һ�м��벻ͬ��ĸ��i��}��(f��)��ˎ��ȥ��ù��ζ��(sh��)�(y��n)�Y(ji��)��Ҋ(ji��n)�D2,��D2��,��PPC��(du��)MIB��geosmin��һ��ȥ��ã��ڝ�Ȟ�20 mg·L-1�r(sh��),��ȥ��MIB��geosmin��Ч�ʷքe��32.9%��45.5%,��i��}��(f��)��ˎ��(PPC)ȥ��ˮ�w��ζ��һЩ�īI(xi��n)��(b��o)��[14,15]��ߺ͚�[16]��(b��o)��ԓˎ��һ�N��i��⛺ͽ�(j��ng)呟�,��̿��,��ĥ�Ķ��̿�(l��i)��|(zh��)�ď�(f��)��ˎ��,��и��i��܌��ЙC(j��)��|(zh��),��̿�(l��i)��|(zh��)��е�΢�׽Y(ji��)��(g��u)��ЙC(j��)�Ｐ��g�a(ch��n)���[17]�J(r��n)��,��i��⛵��԰�MIB��geosmin��ȥ��(��10%),��W(xu��)�G��[18]��(b��o)��(d��ng)MIB��Ȟ�25 μg·L-1�r(sh��),��|3 h��μ�ʹ��KMnO4�l(f��)�F(xi��n)��Ч�ʺܵ�,��(d��ng)KMnO4Ͷ��_(d��)50 mg·L-1�r(sh��),MIB��ȥ��ʞ�10%�ڿ��W(w��ng),��,��҂��J(r��n)��i��}��(f��)��ˎ��ȥ��ù��ζ��Ҫԭ��߀�Ƕ��̿�(l��i)��|(zh��)��á�

�D2. ��i��}��(f��)��ˎ��(PPC)��Ч��

Fig.2 Effect of PPC on the adsorption efficiency of MIBand geosmin

3.4��ĩ��̿��(sh��)�(y��n)

ԇ�(y��n)�˷�ĩ��̿��(du��)MIB��geosmin��,��Y(ji��)��Ҋ(ji��n)�D3,��Y(ji��)��PAC��Ч��^��,��PAC�|(zh��)��Ȟ�15 mg·L-1�r(sh��)MIB��geosmin��ȥ��ʷքe��79.0%��85.0%,��@��cPAC�ıȱ��e�ܴ��ֱ��P(gu��n)ϵ,��ԓ��̿�ıȱ��e�_(d��)��839.23m2·g-1��޴�ıȱ��eʹ��̿��Ч��@��(qi��ng)��,��MIB��geosmin��PAC��Ч�ʲ�

�D3. ��ĩ��̿(PAC)��Ч��

Fig.3. Effect of PAC on the adsorption efficiency of MIB and geosmin

ͬ��ĽY(ji��)��(g��u)��ͬ, geosmin��ܽ�Ⱥͷ��^��,��ƽ��Y(ji��)��(g��u)��(d��o)��M(j��n)��̿��϶��ӿ�϶[19],��īI(xi��n)[19, 20]ָ��,��geosmin��MIB��Ҫ�l(f��)��ڻ��̿��΢��С�һ��(l��i)�v,��ȱ��eԽ��,��Խ��;΢�׽Y(ji��)��(g��u)Խ��ùζ��Խ��,��

3.5 �ɱ��

��(r��n)��(l��i)��Ȼ�V�a(ch��n),��r(ji��)��180Ԫ/��;��ú�ҁ�(l��i)�ԟ�늏S(ch��ng)úȼ��a(ch��n)��r(ji��)��45Ԫ/��,��ζЧ��^�õķ�ĩ��̿(�o(w��)��ú��|(zh��))5500Ԫ/��,��(r��n)��ͷ�ú�ҵĳɱ��ˎƷ�r(ji��)��(��,��(r��n)��ɱ��),��˹��ɱ��O(sh��)��f��,��ɱ��s��400Ԫ/��ȥ��MIB��Ȟ�100 ng·L-1��10000 m3ˮ�w/d,��ʹ�û��ɱ�ÿ��100Ԫ��,��Liang[21]��(b��o)��ʹ��20 mg·L-1��PACȥ��MIB��Ȟ�100 ng·L-1��10000 m3ˮ�w/d�ĳɱ��s��1470Ԫ��/d��,��ȥ��ͬ��ùζʹ�û��ĳɱ��s��ĩ��̿��1/15,��

4.�Y(ji��)Փ

1.�ڷ�ú�Һ��(r��n)��M�ɵĲ�ͬ��(r��n)��ͷ�ú�҆Ϊ�(d��)����ζ��|(zh��)��ܲ��,����@��,��

2.��N��ȥ��ù��ζ�У��ĩ��̿��ȥ��Ч��,��ϳ��֮,��i��⛏�(f��)��ˎ��ȥ��Ч��

3. ��ڷ�ĩ��̿,��Ƃ��ȥ��ù��ζ��|(zh��)�ĳɱ�Ҫ�͵ö�,��ʹ��ԓ��O��(ji��)�sˮ̎��ɱ��ЏV韵��Ј�(ch��ng)ǰ��,��

��īI(xi��n)

[1]Bruce, D., Westerhoff, P., Brawley-Chesworth, A.. Removal of2-methylisoborneol and geosmin in surface water treatment plants in Arizona [J]. Journal of Water Supply: Research and Technology, 2002, 51(4): 183–198.

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[4]��,��s��ꐂ�,��.��ˮ��Դ��ζ��Ĺ⽵��TiO2��߻��[J].�Ї�(gu��)�oˮ��ˮ.2007,23(13): 102-105.

[5]Ho L., Hoefel D., Bock F., et al. Biodegradation ratesof 2-methylisoborneol (MIB) and geosmin through sand filters and in bioreactors[J]. Chemosphere, 2007, 66(11): 2210–2218.

[6]Matthew F.T., David W.M.. The role of surface acidity and poresize distribution in the adsorption of 2-methylisoborneol via powderedactivated carbon [J]. Carbon, 2007, 45(4): 858-864.

[7]Zuo Y. Li L., Wu Z., Song L.. Isolation, identification andodour-producing abilities of geosmin/2-MIB in actinomycetes from sediments in Lake Lotus, China [J]. Journal of Water Supply: Research and Technology, 2009, 58(8):552-561.

[8]��,��s,��٣��.픿չ��΢��ȡ-��ɫ�V-�|(zh��)�V�y(c��)��ˮ�Ю�ζ��[J]. ��W(xu��).2005, 33(8): 1058-1062.

[9]Lin J.X.,��Zhan S.L.,��F(xi��n)ang M.H., et al. Adsorption of basicdye from aqueous solution onto fly ash [J]. Journal of Environmental Management,2008, 87(1): 193-200.

[10]Salem, A., Karimi, L.. Physico-chemical variation inbentonite by sulfuric acid activation [J]. Korean journal of chemicalengineering, 2009, 26(4): 980-984.

[11]Babaki, H.��Salem, A., Jafarizad A.. Kinetic model for the isothermal activationof bentonite by sulfuric acid [J]. Materials Chemistry and Physics, 2008, 108(2-3):263-268.

[12]Kirali E.G., La?in O.. Statistical modelling of acid activation on cotton oilbleaching by Turkish bentonite [J]. Journal of Food Engineering 2006, 75 (1): 137-141.

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[14]�ǵº�.��ˮ��ζ��ù?f��n)�ζ��ȥ��о�[J].��ϼ��ˮ,��2005,27(6): 11-13.

[15]� ��,��۬��骣��S�Ԗ|,��.��i��c��ĩ��̿(li��n)��ȥ��ˮ��ζ[J]. �Ї�(gu��)�oˮ��ˮ,��2007,23(5): 18-21.

[16]�ߺ͚�.��΢��Ⱦˮ�|(zh��)��r��̎��g(sh��)[J] .��I(y��)��g(sh��)�W(xu��)Ժ�W(xu��)��(b��o), 2004, 3(3): 25-29.

[17]��.��ˮԴ��̎��ˇ��ζ��|(zh��)�ķ��ȥ��о�[D].�Ї�(gu��)�ƌW(xu��)Ժ�о��Ժ��ʿ, 2005.

[18]��W(xu��)�G,�R܊,��,��.��(du��)ˮ��ζ��|(zh��)2-MI B��ȥ��[J].��W(xu��)��Ȼ�ƌW(xu��)�W(xu��)��(b��o), 2001, 24(1): 76-80.

[19]Graham, M.R., Summers, R.S., Simpson M.R. et al. Modelingequilibrium adsorption of 2-methylisoborneol and geosmin in natural waters [J].Water Research, 2000, 34(8): 2291-2300.

[20]Cook, D.,Newcombe, G., Sztajnbok, P..The application ofpowdered activated carbon for MIB and geosmin removal: predicting PAC doses infour raw waters [J]. Water Research, 2001, 35(5): 1325-1333.

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