在深···铝电···体体···化铝···理的···,建···00···特大···解槽···铝输···的多···相瞬···,并···X1···平台···全槽···浓度···况的···析。···明:···50···A级···内氧···度场···流动···具有···时间···内空···异。···很短···内,···点正···域的···浓度···加,···大值···%（···数）···,随···质的···不断···落到···%左···推动···的输···阳极···氧化···的驱···比电···,但···有电···。

对铝···内电···机理···大型···40···）的···特征···析,···面更···描述···电解···附近···行为···了电···计算···质量···数方···流效···计算···进而···相流···及熔···学相···,在···平台···了关···运动···铝电···流效···数值···型。···模型···00···大型···槽的···率进···态实···,求···时均···率约···.5···

以某···kA···铝电···对象···数值···究得···槽各···的分···,进···一种···结果···现实···融合···,最···一个···的5···A虚···解槽···在3···现实···展示···表明···果能···一

Th··· h··· b··· o···in···ff···s ···o ··· s···y ···th···ro···s ···na···of···um···m ···uc···n ···l ···tr···an···pe···io···An··· c···en···pr···de···e ···th···os···al···le···gn··· a···th···os···ik··· t···e ···su···. ···th···ar···le···he···mm···y ···d ···ho···of···li···an··· c···en···ea···em···s ··· b···fl···nt···uc··· T···, ···ew···pr···h ···pr···se···o ···ro···me···re···ts··· a···e ···re··· b···d ···th···ri···pl···f ···su···g ···om···ic···lt··· d···" ···th···no···be··· I···st···l ···ts··· 4···nb···kA···ll···em···tr··· t··· t···sy···m ···s ···ad··· i···he···rs···nv···nm···, ··· t···on···e ···de···rr··· s···al···eq···el···ha···te···es···e ···uc···n ···ce···be···io···St··· o···he···od···ur···t ···of···ea···mp···an···fo···mp···in···he···t ···tr···an···pe···io···br···&c···; ···5,···e ···er···, ···al··· M···ri··· S···et··