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  • Shenzhen Daceen Technology Co., Ltd.

  •  [Guangdong,China]
  • Деловой Тип :производитель
  • Main Mark: Африка , Северные и Южная Америка , Азия , Восточная Европа , Европа , средний Восток , Северная Европа , Океания , Другие рынки , Западная Европа , Мировой
  • Экспортер:71% - 80%
  • Certs:ISO9001, CE, REACH, RoHS, Test Report, OHSAS18001, EMC, ISO14001
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Shenzhen Daceen Technology Co., Ltd.

+86-0755-21002581

Главная > О Компании > Core+Pulse+Technology
Core+Pulse+Technology
%3Cp+class%3D%22MsoNormal%22%3E+++%3Cspan+style%3D%22font-size%3A24px%3Bfont-family%3AArial%3Bcolor%3A%23006600%3B%22%3E%3Cstrong%3ECore+Pulse+Technology+%26amp%3B+Desulphation++Process+Introduction%3C%2Fstrong%3E%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp+class%3D%22MsoNormal%22%3E+++%3Cstrong%3E%3Cspan+style%3D%22font-size%3A24px%3Bcolor%3A%23003399%3B%22%3E1%29+Research+on+the+main+reasons+for+lead-acid+battery+failure%3A%3C%2Fspan%3E%3C%2Fstrong%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EThe+anode+of+lead-acid+battery+is+spongy+%3Cb%3E%3Ci%3EPb%3C%2Fi%3E%3C%2Fb%3E%2C+the+cathode+is+%3Cb%3E%3Ci%3EPbO%3Csub%3E2%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E%2C+and+the+electrolyte+is+%3Cb%3E%3Ci%3EH%3Csub%3E2%3C%2Fsub%3ESO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E.+When+the+battery+is+discharged%2C+the+anode+plate+is+oxidized+to+%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E+and+the+cathode+is+reduced+to+%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E+as+shown+in+the+formula+below%3A%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp+style%3D%22text-align%3Acenter%3B%22%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3E%3Cimg+src%3D%22%25oss_domain%25product%2Fd9%2F89%2F13%2Ff314d41ac488c2776acc346c19.jpg%22+title%3D%22Lead+Acid+Battery%22+alt%3D%22Lead+Acid+Battery%22+%2F%3E%3Cbr+%2F%3E++%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3ETherefore%2C+the+lead+sulfate+is+the+inevitable+product+of+lead-acid+battery+discharge+or+self-discharge%2C+and+with+the+increase+of+discharge+depth%2C+the+amount+of+lead+sulfate+will+be+increased%2C+it+will+adhere+to+the+electrode+surface+to+form+lead+sulfate+coating.+Initially%2C+the+quantity+of+new+lead+sulfate+particles+is+extremely+small%2C+i.e.+it+is+large+in+dispersity+and+surface+area+and+energy%2C+the+system+is+unstable+and+the+solubility+of+small+crystals+is+greater+than+that+of+ordinary+crystals.+When+the+normal+battery+is+charged%2C+%3C%2Fspan%3E%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3E+%3C%2Fspan%3E%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3E+is+reduced+to+lead%2C+crystallized+and+dissolved.+If+the+battery+is+not+used+and+maintained+properly%2C+such+as+long-term+shelving+or+undercharging%2C+deep+discharge+and+water+replenishment+failure+timely%2C+a+thick+and+hard+%3C%2Fspan%3E%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3E+%3C%2Fspan%3E%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3E+recrystallized+crystal+will+gradually+be+formed+on+the+anode+of+battery.+This+kind+of+%3C%2Fspan%3E%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3E+%3C%2Fspan%3E%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3E+crystal+is+inactive+and+low+in+solubility%2C+which+will+increase+the+resistance+of+battery+and+reduce+the+charging+acceptance+ability.+The+traditional+charging+method+is+difficult+to+reduce+and+dissolve+it.+When+charging%2C+it+mainly+reacts+with+electrolytic+water%2C+and+a+large+number+of+gases+are+precipitated.+This+phenomenon+is+called+%22irreversible+sulfation%22%2C+which+is+the+main+factor+causing+the+early+loss+and+even+the+failure+of+battery+capacity.%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EThe+cathode+of+lead-acid+battery+also+produces+sulphation.+The+%3Cstrong%3E%CE%B1-%3C%2Fstrong%3E%3Cb%3E%3Ci%3EPbO%3Csub%3E2%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E+crystal+in+cathode+of+lead-acid+battery+is+similar+to+the+%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E+lattice.+When+discharging+or+self-discharging%2C+%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3E+%3C%2Fspan%3E%3Cstrong%3E%CE%B1-%3C%2Fstrong%3E%3Cb%3E%3Ci%3EPbO%3Csub%3E2%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E+may+be+used+as+the+seed+crystal+%28nucleus%29+of+%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E+to+form+compact+%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E+crystal%2C+which+is+the+same+as+the+anode.+This+crystal+will+gradually+become+larger+and+cover+the+surface+of+%3Cb%3E%3Ci%3EPbO%3Csub%3E2%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E%2C+so+that+%3Cb%3E%3Ci%3EH%3Csub%3E2%3C%2Fsub%3ESO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E+is+hard+to+diffuse+the+depth+of+active+substance%2C+the+electrochemical+reaction+only+occurs+in+limit+depth%2C+and+the+battery+capacity+is+lost.%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3ESome+of+the+batteries+with+serious+sulfation+are+accompanied+by+severe+dehydration+and+great+internal+resistance.+After+adding+water%2C+the+measured+acidity+of+the+electrolyte+is+close+to+neutral%2C+so+that+the+charging+can+not+be+carried+out+and+result+in+battery+failure+and+scrap.%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A24px%3Bfont-family%3AArial%3Bcolor%3A%23003399%3B%22%3E%3Cstrong%3E2%29+Research+on+eliminating+sulphate+crystal+without+damaging+pole+plate+by+means+of+composite+resonance+pulse+technology+based+on+the+principle+of+atomic+physics%3C%2Fstrong%3E%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp+style%3D%22text-align%3Acenter%3B%22%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3E%3Cimg+src%3D%22%25oss_domain%25product%2F85%2Ff4%2F92%2F25264e6220d643a93a6f4ccc3e.jpg%22+title%3D%22atomic+physics%22+alt%3D%22atomic+physics%22+%2F%3E%3Cbr+%2F%3E++%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EAccording+to+the+principle+of+atomic+physics%2C+sulfur+ions+have+five+different+energy+levels%2C+and+the+ions+at+the+metastable+levels+often+tend+to+move+to+the+most+stable+covalent+bond+level.+At+the+lowest+energy+level+%28i.e.%2C+the+covalent+bond+state%29%2C+sulfur+exists+in+the+form+of+a+circular+molecule+containing+8+atoms.+The+eight-atom+circulating+molecular+model+is+a+very+stable+combination+that+is+difficult+to+break%2C+and+the+service+life+of+lead-acid+batteries+depends+on+our+ability+to+remove+these+aggregates.+To+break+the+constraint+of+the+accumulated+layers+of+these+lead+sulfate+crystals%2C+it+is+necessary+to+improve+the+energy+levels+of+atoms+to+a+certain+extent%2C+so+that+the+outer+electrons+of+the+atoms+can+be+activated+to+the+next+higher+energy+band%2C+thus+releasing+the+bondage+between+the+atoms.+Each+specific+energy+level+state+has+a+unique+resonance+frequency%2C+and+specific+energy+must+be+transferred+to+the+energy+level+to+make+the+excited+atom+jump+to+a+higher+energy+level+state.+Too-low+energy+can+not+meet+the+energy+requirements+for+the+transition%2C+but+too-high+energy+will+make+the+transition+atom+in+an+unstable+state+and+fall+back+to+the+original+energy+level+at+any+time.+Therefore%2C+the+process+must+be+repeated+until+it+reaches+the+most+active+energy+level+state.+Only+in+this+way+can+the+sulfate+accumulation+layer+which+is+in+a+stable+covalent+bond+state+be+converted+back+to+the+most+unstable+lead+sulfate+particles%2C+and+gradually+peel+off+from+the+battery+plate+through+charging+and+participate+in+the+electrochemical+reaction+again.%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EFrom+the+perspective+of+the+solid+state+physics%2C+all+the+insulating+layers+can+be+broken+down+under+sufficiently+high+voltage.+Once+the+insulating+layer+is+broken%2C+the+thick+lead+sulphate+will+be+conductive.+If+transient+high+voltage+is+applied+to+the+high-resistivity+insulating+layer%2C+large+lead+sulfate+crystals+can+be+broken+down.+If+the+high+voltage+is+short+enough+and+the+current+is+limited%2C+the+charging+current+should+be+strictly+limited+and+a+large+amount+of+gas+will+not+be+formed+if+the+insulating+layer+is+broken+down.+The+gas+evolution+volume+of+the+battery+is+in+proportional+to+the+charging+current+and+time.+If+the+pulse+width+is+short+enough+and+the+duty+cycle+is+large+enough%2C+the+thick+lead+sulfate+crystal+can+be+broken+down.+Under+these+conditions%2C+the+simultaneous+micro-charging+can+not+form+gas+evolution%2C+thus+eliminating+the+vulcanization+of+the+battery+and+avoiding+other+structural+damage+to+the+battery%2C+which+is+a+true+non-destructive+repair+pulse+technology.%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EAll+crystals+have+a+specific+resonant+frequency+after+the+molecular+structure+is+determined%2C+and+this+resonant+frequency+is+related+to+the+crystal+size.+The+larger+the+crystal%2C+the+lower+the+resonant+frequency.+Composite+resonance+pulse+technology+is+to+find+the+resonance+frequency+of+lead+sulfate+crystals+by+controlling+the+change+of+sweeping+frequency+and+pulse+waveform%2C+and+properly+controlling+the+value+of+pulse+current.+The+lead+sulfate+crystals+on+the+electrode+surface+are+bombarded+and+oscillated+by+continuously+varying+voltage+pulses%2C+so+that+lead+sulfate+crystals+can+enter+a+metastable+state%2C+then+break+up%2C+loosen%2C+dissolve.+Therefore%2C+the+electrode+surface+covered+with+hard+lead+sulfate+crystal+can+restore+its+activity%2C+and+the+lead+sulfate+can+have+normal+electrochemical+reactions+during+charging.%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EOn+the+basis+of+the+same+molecular+structure+%28lead+sulfate+crystals%29%2C+the+larger+the+crystal%2C+the+lower+the+resonance+frequency.+During+charging%2C+a+steep+front+pulse+is+given%2C+which+leads+to+abundant+high-order+harmonics.+The+lead+sulphate+crystals+will+be+dissolved+easily+due+to+the+resonance.+The+lower+the+frequency+of+high-level+harmonic+pulse%2C+the+larger+the+amplitude%2C+the+larger+the+energy+obtained+by+the+lead+sulfate+crystals+with+the+lower+harmonic+frequency%2C+the+smaller+energy+obtained+by+the+lead+sulfate+with+the+smaller+volume.+Therefore%2C+the+larger+lead+sulfate+crystals+are+easier+to+dissolve.+This+is+the+core+principle+of+composite+pulse+desulfurization+technology.%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A24px%3Bfont-family%3AArial%3Bcolor%3A%23003399%3B%22%3E%3Cstrong%3E3%29+General+principle+of+lead-acid+battery+recovery%3C%2Fstrong%3E%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EWhen+the+2+electrodes+of+the+recovery+system+are+connected+to+the+cathode+and+anode+of+the+battery%2C+the+special+pulse+wave+produced+by+the+recovery+system+will+act+on+the+two+electrodes+of+the+battery+continuously+and+change+the+movement+state+of+e+and+%3Cb%3EH%3Csup%3E%2B%3C%2Fsup%3E%3C%2Fb%3E.+Therefore%2C+the+lead+sulfate+crystals+which+can+not+be+dissociated+under+the+normal+charge+electric+field+are+continuously+dissociated+into+%3Cb%3E%3Ci%3EPb%3Csup%3E2%2B%3C%2Fsup%3E+and+SO4%3Csup%3E2-%3C%2Fsup%3E%3C%2Fi%3E%3C%2Fb%3E%2C+that+is%2C+the+%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3E+%3C%2Fspan%3E+crystals+are+decomposed+under+the+action+of+pulse+wave+according+to+the+charging+law+and+return+to+the+solution+after+dissolution.+After+the+irreversible+sulfate+on+the+electrode+is+completely+removed%2C+the+battery+plate+is+activated%2C+the+internal+resistance+is+reduced%2C+the+capacity+is+recovered+or+partially+recovered%2C+and+the+charging+efficiency+is+improved.+Therefore%2C+the+recover+process+of+battery+capacity+is+an+electrochemical+process.%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cspan+style%3D%22font-size%3A24px%3Bfont-family%3AArial%3Bcolor%3A%23003399%3B%22%3E%3Cstrong%3E4%29+%3C%2Fstrong%3E%3C%2Fspan%3E%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A24px%3Bcolor%3A%23003399%3B%22%3E%3Cstrong%3EWhat+makes+this+technology+so+unique+and+effective+is+a+distinct+pulse+waveform.+This+Smart+Pulse%3A%3C%2Fstrong%3E%3C%2Fspan%3E+++%3C%2Fp%3E++%3Cul%3E+++%3Cli%3E++++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EHas+a+strictly-controlled+rise+time%2C+smartly+changeable+pulse-width%2C+frequency+and+amplitude+of+current+and+voltage+pulse.%3C%2Fspan%3E++++%3C%2Fli%3E+++%3Cli%3E++++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EDifferent+frequencies+and+harmonic+waveforms+in+pulse+charging+resonate+with+%3Cb%3E%3Ci%3EPbSO%3Csub%3E4%3C%2Fsub%3E%3C%2Fi%3E%3C%2Fb%3E%3Cspan+style%3D%22font-family%3AArial%3Bfont-size%3A16px%3B%22%3E+%3C%2Fspan%3Ecrystals+to+be+broken+up%3B%3C%2Fspan%3E++++%3C%2Fli%3E+++%3Cli%3E++++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EOnline%2Foffline+restore+of+desulphation+technology%2C+suits+for+all+lead-acid+batteries+failure+due+to+sulphation%3B%3C%2Fspan%3E++++%3C%2Fli%3E+++%3Cli%3E++++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EBest+desulphation+effect+and+can+be+recycled+many+times%2C+restore+90%25+above+as+new+one+%3B%3C%2Fspan%3E++++%3C%2Fli%3E+++%3Cli%3E++++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3ENo+damaged+to+the+positive+and+negative+plates+of+the+battery%2C+improves+battery+efficiency+and+lengthens+battery+life+%3B%3C%2Fspan%3E++++%3C%2Fli%3E+++%3Cli%3E++++%3Cspan+style%3D%22font-size%3A16px%3Bfont-family%3AArial%3B%22%3EMore+than+20+years+of+applications+and+field+validated+in+Military+and+All+industry+with+high+performance+and+being+Trusted%3C%2Fspan%3E++++%3C%2Fli%3E++%3C%2Ful%3E++%3Cp%3E+++%3Cimg+src%3D%22%25oss_domain%25product%2Ff2%2F1f%2Fd9%2F61299c6479df8437175720e321.png%22+title%3D%22Smart+Pulse%22+alt%3D%22Smart+Pulse%22+%2F%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E++%3Cp%3E+++%3Cp%3E++++%3Cspan+style%3D%22font-size%3A24px%3Bcolor%3A%23006600%3B%22%3E%3Cstrong%3E%3Cem%3EPulse+Technology+%26amp%3B+Desulphation+Process%3C%2Fem%3E%3C%2Fstrong%3E%3C%2Fspan%3E+++%3C%2Fp%3E+++%3Cp%3E++++%3Cspan+style%3D%22color%3A%23003399%3Bfont-size%3A18px%3B%22%3E%3Cem%3E%3Cstrong%3E-Our+Self-owned+patents+technology+of+Smart+Resonant+Pulse%3C%2Fstrong%3E%3C%2Fem%3E%3C%2Fspan%3E+++%3C%2Fp%3E+++%3Cp%3E++++%3Cspan+style%3D%22color%3A%23003399%3Bfont-size%3A18px%3B%22%3E%3Cem%3E%3Cstrong%3E-No+damaged+to+Plates+when+battery+restored+by+our+smart+Pulse%3C%2Fstrong%3E%3C%2Fem%3E%3C%2Fspan%3E+++%3C%2Fp%3E+++%3Cp%3E++++%3Cbr+%2F%3E+++%3C%2Fp%3E++%3C%2Fp%3E++%3Cp%3E+++%3Cimg+src%3D%22%25oss_domain%25product%2Fff%2F42%2Fc9%2F8baac2b56f58107242b87006bb.png%22+title%3D%22Process%22+alt%3D%22Process%22+%2F%3E+++%3C%2Fp%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E++%3Cbr+%2F%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E++%3Cp%3E+++%3Cbr+%2F%3E++%3C%2Fp%3E
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