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OALib Journal期刊
ISSN: 2333-9721
费用:99美元
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聚乙烯醇?海藻酸钠固定香菇废弃物吸附pb和cd的最佳配方
DOI: 10.3724/SP.J.1145.2009.00724, PP. 724-729
Keywords: pva?sa,固定,香菇废弃物,热力学
Abstract:
选用香菇废弃物作为生物吸附剂,用聚乙烯醇(pva)?海藻酸钠(sa)固定香菇粉制成pva?sa固定香菇,以吸附溶液中铅(pb)和镉(cd)的能力为主要评价指标,结合成球性、机械强度和耐酸性等,通过正交试验确定出吸附pb的pva?sa固定香菇最佳配方是8%pva+1%sa+3%香菇粉+2%cacl2的饱和h3bo3,对pb的吸附率为95.4%,吸附cd的pva?sa固定香菇的最佳配方是5%pva+1%sa+3%香菇粉+2%cacl2的饱和h3bo3,对cd的吸附率为63.7%.二小球的成球性、机械强度和耐酸性都较好.langmuir等温吸附模型能最好地拟合香菇吸附pb的热力学过程,相关系数r2达0.9939;freundlich模型能更好地描述香菇吸附cd的热力学过程,r2为0.9993.freundlich等温吸附模型适合描述pva?sa固定香菇吸附pb和cd的热力学过程,r2分别为0.9587和0.9823.自由香菇对cd的理论最大吸附量qm-langmuir(2.8321mgg-1)小于pva?sa固定香菇的理论最大吸附量qm-langmuir(6.4475mgg-1),自由香菇吸附pb的freundlich模型参数k(0.3127)小于pva?sa固定香菇吸附pb的k(0.4310),香菇固定后吸附cd和pb的能力有所提高.pva?sa固定香菇吸附pb和cd的吸附平衡时间分别为3h和7h,比自由香菇吸附pb和cd的平衡时间(1h)长.伪二级动力学模型能很好地拟合固定香菇吸附pb和cd的动力学过程,r2分别为0.9999和0.9946,由该模型计算出的对pb和cd的平衡吸附量理论值分别为0.4536mgg-1和0.2060mgcdg-1.伪二级动力学模型能很好地拟合固定香菇吸附pb和cd的动力学过程,由该模型计算出的固定香菇对pb和cd的平衡吸附量理论值分别为0.4536mgg-1和0.2060mgg-1,自由香菇对pb和cd的平衡吸附量理论值分别为1.8172mgg-1和0.8425mgg-1.pva?sa固定香菇吸附pb/cd的伪二级动力学反应速率常数k2为1.3241/1.2531,自由香菇吸附pb/cd的k2为0.7805/0.2130,自由香菇吸附pb/cd的k2大于固定香菇的k2,表明固定香菇吸附pb/cd达到平衡所需要的时间比自由香菇所需要的时间长.图3表6参16
| [1] | 2yuyx(俞毓馨),wugq(吴国庆),mengxt(孟宪庭),yanghf(杨惠芳).enchiridionofenvironmentalengineeringcheckout.beijing,china(北京):publishingcompanyofenvironmentalscienceinchina,1990
|
| [2] | 3qisb(齐水冰),luojz(罗建中),qiaoqx(乔庆霞).entrapmentmicroorganismtechnologyoftreatingwastewater.shanghaienvironprot(上海环境科学),2002,21(3):185~195
|
| [3] | 8liul(刘蕾),lij(李杰),wangye(王亚娥).theinvestmentmaterialsofbio-entrapmenttechnology.waterpuriftechnol(净水技术),2005,24(1):40~42
|
| [4] | 9yux(于霞).studiesontreatmentoflead-bearingwastewaterbyentrapmentrhizopusoligosporus:[doctor’sdegreepaper].guangzhou,china(广州):sunyat-senuniversity,2002
|
| [5] | 10liy(黎勇).concentrationanalysisofheavymetalsinediblefungifromchongqingandcharacterizationoftheabsorptionforhg2+inpleurotusostreatus:[doctor’sdegreepaper].chongqing,china(重庆):agriculturalofsouthwestuniversity,2005
|
| [6] | 1wuxl(吴晓磊).entrapmentmicroorganismtechnologyintreatingwastewater.watersupply&drainagechina(中国给排水),1993,9(5):42~46
|
| [7] | 4lif(李峰),lüxw(吕锡武),yanw(严伟).theresearchonembeddingbiomassusingpolyvinylalcohol.watersupply&drainagechina(中国给水排水),2000,16(12):14~17
|
| [8] | 5gaoty(高庭艳).biosorptionofcd(ⅱ)andpb(ⅱ)fromwatersolutionbywasteofediblemushroom:[master’sdegreepaper].chengdu,china(成都):chengduinstituteofmountainhazardsandenvironmentchineseacademyofsciences,2008
|
| [9] | 6liun,yangy,luos,zhangt,jinj,liaoj.biosorptionof241ambyrhizopusarrihizus:preliminaryinvestigationandevaluation.applradiatisot,2002,57(2):139~143
|
| [10] | 7lit(李彤),yuyx(俞毓馨),hujc(胡纪萃).astudyonthetreatmentoflasindetergentwastewaterwithpvaentrappedentrapmentcells.chinjenvironsci(环境科学),13(5):16~20
|
| [11] | 11xulh(徐丽红),chenqb(陈俏彪),yecw(叶长文),wuym(吴应淼),lix(李鑫).thestudyonheavymetalaccumulationdisciplineofediblemushroom.agricenvironscij(农业环境科学学报),2005,24(suppl):42~47
|
| [12] | 12hug(胡罡),zhangl(张利),tongmr(童明容),yuyt(俞耀庭).thecharacteristicofpb(ⅱ)adsorptionfromaqueoussolutionbyimmobilizedstreptomycesrimosususingpolyvinylalcohol.ionexchange&adsorption(离子交换与吸附),2000,16(6):534~539!
|
| [13] | 13wangn(王娜),minxb(闵小波),wangyy(王云燕),chaily(柴立元),zhoum(周敏).comparativestudyontreatingwastewatercontainingzincbyfreeandimmobilizedsludgeofsrb.environsci&technol,2008,31(11):69~72
|
| [14] | 14gabrielj,baldrianp,hladõâkovaâk,haâkovam.sorptionbynativeandmodifiedpelletsofwood-rottingbasidiomycetes.lettapplmicrobiol,2001(32):194~198
|
| [15] | 15zhangd(张丹),gaojw(高健伟),map(马培),hehj(何海江).effectofcompetitiveinterferenceonthemetalionsbiosorptionbyauriculariapolytrichamycelial.ecol&environ(生态环境),2008,17(5):1822~1827
|
| [16] | 16fanrm(范瑞梅),zhangbg(张保国),zhanghx(张洪勋),fanjh(范家恒),wangq(王谦),baizh(白志辉).studyonadsorptionofzn2+bybacillusclausiis-4.chinjenvironengin(环境工程学报),2007,1(8):44~47
|
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