董全峰 . 液流电池研究进展[J]. 电化学, 2005 , 11(3) : 237 -243 . DOI: 10.61558/2993-074X.1647

[1]Business Commun ications Company,Inc.Large andAdvanced Battery Technology and M arkets[EB/OL].http://www.giich inese.com/ch inese/bc24077_large_battery_toc.htm l [2]Thaller L H,N ice A W.F lu id battery prom ises econom-ical storage[J].Power Engineering,1981,85(2):56~58. [3]Thaller L H.E lectrically Rechargeab le Redox F lowCells[C].San Franc isco,USA:SAE Preprints,749142,1974.924. [4]Thaller L H.E lectrically rechargeab le redox flow cells[P].US Pat:3996064,1974. [5]Stalnaker D K,L ieberm an A.Design and Assemb lyConsiderations for Redox Cells and Stacks[M].Oh io,USA:NASA Tech M emo,1981.10. [6]Hagedorn N H,Haaller L H.Design flexib ility of redoxflow system s[A].Proceed ings of the Intersoc iety En-ergy Conversion Engineering Conference[C].Los An-geles,USA:IEEE,New York,1982.2:600. [7]Nozak i K,Ozawa T.Research and developm ent of red-ox-flow battery in electrotechn ical laboratory[A].Pro-ceed ings of the Intersoc iety Energy Conversion Engi-neering Conference[C].Los Angeles,USA:IEEE,New York,1982.2:610. [8]Anon.M ajor reduction in electric energy storage costs[J].Industrial Research&Developm ent,1980,22(3):97~98. [9]Nozak i K,Kaneko H,Ozawa T.Prospect of electric en-ergy storage by secondary batteries[J].C ircu lars ofthe E lectrotechn ical Laboratory,1979,54(201):71. [10]Sakamoto T,Mori N,Kuno M,et al.Developm ent ofredox flow battery[J].Sum itomo E lectric Techn icalReview,1989,28:180. [11]Fang B,Iwasa S,W e i Y,et al.A study of the Ce(III)/Ce(IV)redox coup le for redox flow battery ap-p lication[J].E lectroch im ica Acta,2002,47(24):3 971~3 976. [12]Yam amura T,Sh iokawa Y,Yam ana H,et al.E lectro-chem ical investigation of uran ium-βd iketonates for all-uran ium redox flow battery[J].E lectroch im ica Acta,2002,48(1):43~50. [13]Trainham J A,Newm an J.Comparison between flow-through and flow-by porous electrodes for redox energystorage[J].E lectroch im ica Acta,1981,26(4):455~469. [14]Savinell R F,L iu C C,Ch iang S H,et al.Investiga-tion of a parallel p late iron-titan ium redox electrochem-ical cell[A].Proceed ings-The E lectrochem ical Soc i-ety[C].Boston,M ass:E lectrochem Soc Inc,Prince-ton,NJ,1979.79(1):468. [15]W ang Y Y,L in M R,W an C C.Study of the d is-charge perform ance of the Ti/Fe redox flow system[J].Journal of Power Sources,1984,13(1):65~74. [16]Anon.F lu id battery prom ises to store electric ity at low-er cost for power-generation system s[J].Power,1979,123(7):83~88. [17]Gahn R F,Hagedorn N H,Johnson J A.Cyc ling Per-form ance of the Iron-chrom ium Redox Energy StorageSystem[M].C leveland,Oh,USA:NASA Techn icalM emorandum,NASA,1985.18. [18]Sh im ada M,Tsuzuk i Y,L izuka Y,et al.Investigationof the aqueous Fe-Cr redox flow cell[J].Chem istryand Industry,1988,3:80~82. [19]Adam s G B,Hollandsworth R P,L ittauer E L.Re-chargeab le alkaline zinc/ferricyan ide hybrid redox bat-tery[C].Proceed ings of the Intersoc iety Energy Con-version Engineering Conference[A].Atlanta,Ga,USA:ASME,New York,1981.1:812. [20]Kondo S,M isak i H,Suzuk i S.Developm ent of ad-vanced battery electric energy storage system for elec-tric utility load leveling[A].Proceed ings of the Inters-oc iety Energy Conversion Engineering Conference[C].M iam i Beach,FL,USA:SAE(P-164),W arrendale,PA,USA,1985.11. [21]Rychc ik M,Skyllas K M.Characteristics of a new all-vanad ium redox flow battery[J].Journal of PowerSources,1988,22(1):59~67. [22]Sum E,Skyllas K M.Study of the V(ii)/V(iii)redoxcoup le for redox flow cell app lications[J].Journal ofPower Sources,1985,15(2-3):179~190. [23]Skyllas K M,Rychc ik M,Rob ins R G,et al.New all-vanad ium redox flow cell[J].Journal of the E lectro-chem ical Soc iety,1986,133(5):1 057~1 058. [24]Fang B,Iwasa S,W e i Y,et al.A study of the Ce(III)/Ce(IV)redox coup le for redox flow battery ap-p lication[J].E lectroch im ica Acta,2002,47:3 971~3 976. [25]Skyllas K M.Novel vanad ium chloride/polyhalide red-ox flow battery[J].Journal of Power Sources,2003,124(1):299~302. [26]M i C H,X ia X,Zhang X G.E lectrochem ical behav-iors of Mn3+/Mn2+system in redox flow battery[J].D ianyuan Jishu/Ch inese Journal of PowerSources,2003,27(1):2. [27]M atsuda Y,Tanaka K,Okada M,et al.Rechargeab leredox battery utilizing ruthen ium comp lexes w ith non-a-queous organ ic electrolyte[J].Journal of App lied E-lectrochem istry,1988,18(6):909~914. [28]Yam amura T,Sh iokawa Y,Yam ana H,et al.E lectro-chem ical investigation of uran ium-βd iketonates for all-uran ium redox flow battery[J].E lectroch im ica Acta,2002,48(1):43~50. [29]Pau lenova A,Creager S E,Navratil J D,et al.Redoxpotentials and k inetics of the Ce3+/Ce4+redox reac-tion and solub ility of cerium su lfates in su lfuric ac id so-lutions[J].Journal of Power Sources,2002,109(2):431~438. [30]Ohya H,Emori K,Ohto T,et al.Ion-selective M em-branes forRedox-flow Battery[C].New York:P lenumPress,1986.273~280. [31]D rioli E,Nakagak i M.M embranes and m embraneprocesses(proceed ings of the first europe-japan con-gress)[C].New York:P lenum Press,1986.663. [32]R itch ie IM,S iira O T.Redox batteries-an overview[M].Oxford,Engl:Pergamon Press,1984.1 732~1 737. [33]Hagedorn N H.Nasa redox storage system developm entproject[J].NASA Techn ical M emorandum,1984:46. [34]F inklea H O.M easurem ent ofm ass-transfer param etersthrough a polym er coating by chronoamperom etry[J].E lectrochem ical Soc iety Extended Abstracts,1984,48(2):931~932. [35]Arnold C J,Assink R A.Developm ent of su lfonatedpolysu lfone m embranes for redox flow batteries[J].Journal ofM embrane Sc ience,1988,38(1):71~83. [36]Mohamm ad i T,Skyllas K M.Preparation of su lfonatedcomposite m embrane for vanad ium redox flow batteryapp lications[J].Journal ofM embrane Sc ience,1995,107(1~2):35. [37]Hwang G J,Ohya H.Crosslink ing of an ion exchangem embrane by accelerated electron rad iation as a sepa-rator for the all-vanad ium redox flow battery[J].Jour-nal ofM embrane Sc ience,1997,132(1):55~61. [38]Ohya H,Kuromoto M,M atsumoto H,et al.E lectricalresistivities and perm eab ilities of composite m embranesbased on a cation exchange m embrane for a redox flowbattery[J].Journal ofM embrane Sc ience,1990,51(1~2):201~214. [39]W iedem ann E,He intz A,L ichtenthaler R N.Trans-port properties of vanad ium ions in cation exchangem embranes:Determ ination of d iffusion coeffic ients u-sing a d ialysis cell[J].J.of M embrane Sc ience,1998,141:215~221. [40]Mohamm ad i T,Skyllas K M.Characterisation of novelcomposite m embrane for redox flow battery app lications[J].Journal of M embrane Sc ience,1995,98(1~2):77. [41]Ogum i Z,Uch imoto Y,Tsu jikawa M,et al.Enhance-m ent of proton selective of cation exchange m embraneby p lasm a mod ification[J].Journal of the E lectro-chem ical Soc iety,1989,136(4):1 247~1 248. [42]Ogum i Z,Uch imoto Y,Tsu jikawa M,et al.Mod ifica-tion of ion exchange m embrane surface by p lasm aprocess.I.H+ion perm-selective m embrane from na-fion for redox-flow battery[J].Journal of the E lectro-chem ical Soc iety,1990,137(5):1 430~1 435. [43]Ch ieng S C,KazacosM,Skyllas K M.Mod ification ofDaram ic,m icroporous separator,for redox flow batteryapp lications[J].Journal ofM embrane Sc ience,1992,75(1~2):81~91. [44]Mohamm ad i T,Skyllas K M.Mod ification of an ion-ex-change m embranes for vanad ium redox flow battery ap-p lications[J].Journal of Power Sources,1996,63(2):179~186. [45]Sukkar T,Skyllas K M.Mod ification ofm embranes u-sing polyelectrolytes to improve water transfer proper-ties in the vanad ium redox battery[J].Journal ofM embrane Sc ience,2003,222(1~2):249~264. [46]O riji G,Katayam a Y,M iura T.Investigations on V(IV)/V(V)and V(II)/V(III)redox reactions byvarious electrochem icalm ethods[J].Journal of PowerSources,2005,139:321~324. [47]Skyllas K M,L im antari Y.K inetics of the chem icald issolution of vanad ium pentoxide in ac id ic brom ide so-lutions[J].Journal of App lied E lectrochem istry,2004,34(7):681~685. [48]W u H,Selm an J R,Hollandsworth R P.M ass transferand current d istribution in a zinc/redox-battery flowcell[J].Ind ian Journal ofTechnology,1986,24(7):372~380. [49]Homm a T,Zhao G,Ohsawa Y.Theoretical stud ies oncharge and d ischarge characteristics of redox flow bat-tery[J].E lectrical Engineering in Japan,1990,110(4):24~34. [50]He intz A,Illenberger C.D iffusion coeffic ients of B r2in cation exchange m embranes[J].Journal of M em-brane Sc ience,1996,113(2):175~181. [51]Rosaria F,Abraham D S,Thom as D C,et al.M em-braneless vanad ium redox fuel cell using lam inar flow[J].J.AM.CHEM.SOC.,2002,124:12 930~12931.