Tijorat batareyalar turlarini taqqoslash - Comparison of commercial battery types

Umumiy xususiyatlar

Hujayra kimyosiShuningdek, nomi bilan tanilganElektrodZaryadlanuvchiTijoratlashtirilganKuchlanishEnergiya zichligiMuayyan kuchNarxiBo'shatish samaradorligiO'z-o'zidan tushirish darajasiSaqlash muddati
AnotKatodQirqib tashlashNominal100% SOCommaviy ravishdahajmi bo'yicha
yilVVVMJ / kg
(Wh / kg)		MJ / L
(Oq / l)		Vt / kgWh / $
($ / kVt soat)		%oyiga%yil
Qo'rg'oshin kislotasiSLA
VRLA		Qo'rg'oshinQo'rg'oshin dioksidiHa1881[1]1.75[2]2.1[2]2.23–2.32[2]0.11–0.14
(30–40)[2]		0.22–0.27
(60–75)[2]		180[2]6.48–16.67
(60–154)[2]		50–92[2]3–20[2]
Sink-uglerodUglerod-ruxSinkMarganets (IV) oksidiYo'q1898[3]0.75–0.9[3]1.5[3]0.13
(36)[3]		0.33
(92)[3]		10–27[3]2.96
(337)[3]		50–60[3]0.32[3]3–5[4]
Sink-havoPRKislorodYo'q1932[5]0.9[5]1.45–1.65[5]1.59
(442)[5]		6.02
(1,673)[5]		100[5]2.59
(386)[5]		60–70[5]0.17[5]3[5]
Simob oksidi-ruxMerkur oksidi
Merkuriy xujayrasi		Merkur oksidiYo'q1942–[6] 1996[7]0.9[8]1.35[8]0.36–0.44
(99–123)[8]		1.1–1.8
(300–500)[8]		2[6]
IshqoriyZn /MnO
2
LR		Marganets (IV) oksidiYo'q1949[9]0.9[10]1.5[11]1.6[10]0.31–0.68
(85–190)[12]		0.90–1.56
(250–434)[12]		50[12]0.46
(2160)[12]		45–85[12]0.17[12]5–10[4]
Qayta zaryadlanadigan gidroksidiRamHa1992[13]0.9[14]1.57[14]1.6[14] <1[13]
Kumush oksidSRKumush oksidiYo'q1960[15]1.2[16]1.55[16]1.6[17]0.47
(130)[17]		1.8
(500)[17]
Nikel-ruxNiZnNikel oksidi gidroksidiHa2009[13]0.9[13]1.65[13]1.85[13]13[13]
Nikel temirNiFeTemirHa1901[18]0.75[19]1.2[19]1.65[19]0.07–0.09
(19–25)[20]		0.45
(125)[21]		1003.94–5.26
(190–254)[1]		20–3030–[22] 50[23][24]
Nikel-kadmiyNiCd
NiCad		KadmiyHav. 1960 yil[25]0.9–1.05[26]1.2[27]1.3[26]0.11
(30)[27]		0.36
(100)[27]		150–200[28]10[13]
Nikel-vodorodNih
2
Nih
2		VodorodHa1975[29]1.0[30]1.55[28]0.16–0.23
(45–65)[28]		0.22
(60)[31]		150–200[28]5[31]
Nikel-metall gidridNiMH
Ni-MH		Metall gidridHa1990[1]0.9–1.05[26]1.2[11]1.3[26]0.36
(100)[11]		1.44
(401)[32]		250–10003.15
(317)[1]		30[33]
O'z-o'zidan tushirish darajasi past bo'lgan nikel-metall gidridLSD NiMHHa2005[34]0.9–1.05[26]1.21.3[26]0.34
(95)[35]		1.27
(353)[36]		250–10000.42[33]
Lityum-marganets dioksidiLityum
Li-MnO
2
CR
Li-Mn		LityumMarganets dioksidiYo'q1976[37]2[38]3[11]0.54–1.19
(150–330)[39]		1.1–2.6
(300–710)[39]		250–400[39]15-10[39]
Lityum-uglerodli monofloridLi- (CF)
x
BR		Uglerod monofloridYo'q1976[37]2[40]3[40]0.94–2.81
(260–780)[39]		1.58–5.32
(440–1,478)[39]		50–80[39]0.2–0.3[41]15[39]
Lityum temir disulfidLi-FeS
2
FR		Temir disulfidYo'q1989[42]0.9[42]1.5[42]1.8[42]1.07
(297)[42]		2.1
(580)[43]
Lityum-titanatLi
4Ti
5O
12
LTO
Lityum marganets oksidi yoki litiy nikel marganets kobalt oksidiHa2008[44]1.6-1.8[45]2.3-2.4[45]2.8[45]0.22–0.40
(60–110)		0.64
(177)		3,000-5,100[46]0.47
(2131)[46]		85[46]2-5[46]10–20[46]
Lityum kobalt oksidiLiCoO
2
ICR
LCO
Li kobalt[47]		GrafitLityum kobalt oksidiHa1991[48]2.5[49]3.7[50]4.2[49]0.70
(195)[50]		2.0
(560)[50]		2.63
(380)[1]
Lityum temir fosfatLiFePO
4
IFR
LFP
Li fosfat[47]		Lityum temir fosfatHa1996[51]2[49]3.2[50]3.65[49]0.32–0.58
(90–160)[50][52][53]		1.20
(333)[50][52]		200 [54]-1'200 [55]4.5
Lityum marganets oksidiLiMn
2O
4
IMR
LMO
Li ‑ marganets[47]		Lityum marganets oksidiHa1999[1]2.5[56]3.9[50]4.2[56]0.54
(150)[50]		1.5
(420)[50]		2.63
(380)[1]
Lityum nikel kobalt alyuminiy oksidlariLiNiCoAlO
2
NCA
NCR
Li ‑ alyuminiy[47]		Lityum nikel kobalt alyuminiy oksidiHa19993.0[57]3.6[50]4.3[57]0.79
(220)[50]		2.2
(600)[50]
Lityum nikel marganets kobalt oksidiLiNi
xMn
yCo
1-x-yO
2
INR
NKM[47]
NCM[50]		Lityum nikel marganets kobalt oksidiHa2008[58]2.5[49]3.6[50]4.2[49]0.74
(205)[50]		2.1
(580)[50]

^† Inflyatsiya darajasiga qarab tuzilgan AQSh dollaridagi narx.

^‡ Odatda. Qarang Lityum-ionli akkumulyator § Salbiy elektrod muqobil elektrod materiallari uchun.

Qayta zaryadlanadigan xususiyatlar

Hujayra kimyosiZaryadlash samaradorligiTsiklning chidamliligi
%# Chiqish (DoD) tsikllarining 100%
Qo'rg'oshin kislotasi50–92[2]50 – 100[59] (500 @ 40% DoD[2][59])
Qayta zaryadlanadigan gidroksidi5–100[13]
Nikel-rux100 dan 50% gacha bo'lgan quvvat[13]
Nikel temir65–805000
Nikel-kadmiy500[25]
Nikel-vodorod20000[31]
Nikel-metall gidrid66300–800[13]
O'z-o'zidan chiqadigan past nikel-metall gidridli akkumulyator500–1500[13]
Lityum kobalt oksidi90500–1000
Lityum-titanat85-906000-10000 dan 90% gacha[46]
Lityum temir fosfat902500[54]–12000 dan 80% gacha[60]
Lityum marganets oksidi90300–700

Termal qochqin

Muayyan sharoitlarda ba'zi batareyalar kimyosi xavf ostida termal qochqin, hujayraning yorilishiga yoki yonishiga olib keladi. Termal qochqin nafaqat hujayra kimyosi, balki hujayra kattaligi, hujayraning dizayni va zaryadi bilan ham belgilanadi, chunki bu erda faqat eng yomon holatlar aks ettirilgan.[61]

Hujayra kimyosiHaddan tashqari to'lovHaddan tashqari issiqlik
BoshlanishiBoshlanishiQochib ketishPeak
SOC%° C° C° C / min
Lityum kobalt oksidi150[61]165[61]190[61]440[61]
Lityum temir fosfat100[61]220[61]240[61]21[61]
Lityum marganets oksidi110[61]210[61]240[61]100+[61]
Lityum nikel kobalt alyuminiy oksidi125[61]140[61]195[61]260[61]
Lityum nikel marganets kobalt oksidi170[61]160[61]230[61]100+[61]

NiCd va NiMH va Li-ion va Li-polimerga qarshi LTO

TurlariHujayra kuchlanishiO'z-o'zidan tushirishXotiraCycles TimesHaroratOg'irligi
NiCd1.2VOyiga 20%Ha800 gacha-20 ℃ dan 60 ℃ gachaOg'ir
NiMH1.2VOyiga 30%Engil500 gacha-20 70 dan 70 ℃ gachaO'rta
Kam o'z-o'zidan tushirish NiMH1.2VOyiga 1% - yiliga 3% [62]Yo'q500 - 2000-20 70 dan 70 ℃ gachaO'rta
Li-ion (LCO)3.6VOyiga 5-10%Yo'q500-1000-40 70 dan 70 ℃ gachaEngil
Li-ion (LFP)3.2VOyiga 2-5%Yo'q2500-12000[60]-40 80 dan 80 gachaEngil
LiPo (LCO)3.7VOyiga 5-10%Yo'q500-1000-40 80 dan 80 gachaEngil
Li-Ti (LTO)2.4VOyiga 2-5%[46]Yo'q6k-20k-40 55 dan 55 ℃ gachaEngil

[63]

Shuningdek qarang

Adabiyotlar

  1. ^ a b v d e f g "mpoweruk.com: Akkumulyator va batareyani taqqoslash (pdf)" (PDF). Olingan 2016-02-28.
  2. ^ a b v d e f g h men j k "Batareyalar haqida hamma narsa, 3-qism: Qo'rg'oshin kislotali batareyalar". Olingan 2016-02-26.
  3. ^ a b v d e f g h men "Batareyalar haqida hamma narsa, 5-qism: Uglerodli sink batareyalari". Olingan 2016-02-26.
  4. ^ a b "Energizer-ning qayta zaryadlanmaydigan batareyalari: tez-tez so'raladigan savollar" (PDF). Olingan 2016-02-26.
  5. ^ a b v d e f g h men j "Batareyalar haqida hamma narsa, 6-qism: Sink-havo". Olingan 2016-03-01.
  6. ^ a b Narayan, R .; Visvanatan, B. (1998). Kimyoviy va elektrokimyoviy energiya tizimlari. Universitetlar matbuoti. p. 92. ISBN  9788173710698.
  7. ^ "Batareyalarda simobdan foydalanish". Olingan 2016-03-01.
  8. ^ a b v d Kromton, Tomas Roy (2000). Batareyalar haqida ma'lumot. Nyu-York. ISBN  9780750646253. Olingan 2016-03-01.
  9. ^ Gerbert, V. S. (1952). "Ishqoriy marganets dioksid quruq hujayrasi". Elektrokimyoviy jamiyat jurnali. 99 (1952 yil avgust): 190C. doi:10.1149/1.2779731.
  10. ^ a b "Ishqoriy marganets dioksid uchun qo'llanma va qo'llash bo'yicha qo'llanma" (PDF). Olingan 2016-03-01.
  11. ^ a b v d "Energiya zichligi bilan birlamchi va qayta zaryadlanadigan batareyalar kimyosi". Olingan 2016-02-26.
  12. ^ a b v d e f "Batareyalar haqida hamma narsa, 4-qism: Ishqoriy batareyalar". Olingan 2016-02-26.
  13. ^ a b v d e f g h men j k l "Zaryadlanuvchi batareyalar - taqqoslangan va batafsil tushuntirilgan". Olingan 2016-02-28.
  14. ^ a b v "Sof energiya XL bilan qayta zaryadlanadigan ishqoriy hujayralar ma'lumotlari" (PDF). Olingan 2016-03-01.
  15. ^ "Batareyaning tarixi: 2) Birlamchi batareyalar". Olingan 2016-03-01.
  16. ^ a b "Kumush asosiy kameralar va batareyalar" (PDF). Arxivlandi asl nusxasi (PDF) 2009 yil 15 dekabrda. Olingan 2016-03-01.
  17. ^ a b v "ProCell kumush oksidli akkumulyator batareyasi". Duracell. Arxivlandi asl nusxasi 2009-12-20. Olingan 2009-04-21.
  18. ^ "Edisonning toksik bo'lmagan nikel-temir batareyasi ultrafast shaklida jonlandi". Olingan 2016-02-28.
  19. ^ a b v "Nikel-temir quvvat 6 xujayrasi" (PDF). Asl nusxasidan arxivlandi 2012-03-07. Olingan 2017-03-19.CS1 maint: BOT: original-url holati noma'lum (havola)
  20. ^ "Iron Edison tomonidan NREL sinovlaridan energiya zichligi" (PDF). Olingan 2016-02-26.
  21. ^ Jha, A.R. (2012-06-05). Tijorat, harbiy va kosmik dasturlar uchun yangi avlod batareyalari va yonilg'i xujayralari. p. 28. ISBN  978-1439850664.
  22. ^ "Nikel temir batareyalar". www.mpoweruk.com.
  23. ^ "BeUtilityFree-dan Xitoy nikel-temir batareyasining tavsifi" (PDF).[doimiy o'lik havola ]
  24. ^ "NiFe bo'yicha tez-tez so'raladigan savollar". www.beutilityfree.com.
  25. ^ a b "Nikel kadmiyum batareyalari". Elektropaedia. Woodbank Communications. Olingan 2016-02-29.
  26. ^ a b v d e f "NiCd va NiMH batareyalarini sinovdan o'tkazish". Olingan 2016-03-01.
  27. ^ a b v Arther, Miller (2016 yil 26-fevral). "Ons werk". Diensten (golland tilida). Olingan 2016-02-26.
  28. ^ a b v d "Kosmik qurilmalarning elektr energiyasining quyi tizimlarini optimallashtirish" (PDF). Olingan 2016-02-29.
  29. ^ "Nikel-vodorodli akkumulyator texnologiyasi - rivojlanishi va holati" (PDF). Arxivlandi asl nusxasi (PDF) 2009-03-18. Olingan 2012-08-29.
  30. ^ Thaller, Lawrence H.; Zimmerman, Albert H. (2003). Nikel-vodorodli hayot tsikli sinovi. AIAA. ISBN  9781884989131.
  31. ^ a b v Arther, Miller (2014 yil 23-may). "Ons werk". DoubleSmart (golland tilida). Olingan 12 yanvar 2019.
  32. ^ "Ansmann AA - NiMH 2700mAh ma'lumot sahifasi" (PDF). Olingan 2016-03-02.
  33. ^ a b "AA batareyasini hisobga olish". Olingan 2016-03-01.
  34. ^ "Umumiy tavsif". Eneloop.info. Sanyo. Arxivlandi asl nusxasi 2012-09-02. Olingan 2015-08-06.
  35. ^ "Metero Webinar 2". Arxivlandi asl nusxasi 2016-03-11. Olingan 2016-03-02.
  36. ^ "SANYO yangi Eneloop batareyalari energiyani uzoqroq saqlaydi" (PDF). Arxivlandi asl nusxasi (PDF) 2016-03-04 da. Olingan 2016-03-02.
  37. ^ a b Dayer, Kris K; Mozli, Patrik T; Ogumi, Zempachi; Rand, Devid A. J.; Scrosati, Bruno (2013). Elektrokimyoviy quvvat manbalari entsiklopediyasi. Nyu-York. p. 561. ISBN  978-0444527455. Olingan 2016-03-03.
  38. ^ "Lityum marganets dioksidli batareyalar CR2430" (PDF). Olingan 2016-03-01.
  39. ^ a b v d e f g h "Li / CFx batareyalari: Uyg'onish" (PDF). Olingan 2019-02-24.
  40. ^ a b "1-bob haqida umumiy ma'lumot - sanoat qurilmalari va echimlari" (PDF). Arxivlandi asl nusxasi (PDF) 2016-03-06 da. Olingan 2016-03-03.
  41. ^ "Lityum karbon-monoflorid (BR) tanga xujayralari va FB kapsulali lityum tanga xujayralari". Arxivlandi asl nusxasi 2015-03-30. Olingan 2016-03-03.
  42. ^ a b v d e "Lityum temir disulfid uchun qo'llanma va qo'llanma" (PDF). Olingan 2016-03-03.
  43. ^ "Energizer's lityum temir disulfidi - eng talabchan dasturlar uchun barcha olamlarning eng yaxshisi" (PDF). Arxivlandi asl nusxasi (PDF) 2016-03-06 da. Olingan 2016-03-03.
  44. ^ "Lityum-ionli batareyalar ishlab chiqarish uchun LTO anodli material". Olingan 2018-12-16.
  45. ^ a b v Gotcher, Alan J. (2006 yil 29-noyabr). "Altair EDTA taqdimoti" (PDF). Altairnano.com. Arxivlandi asl nusxasi (PDF) 2007 yil 16 iyunda.
  46. ^ a b v d e f g "Batareyalar haqida hamma narsa, 12-qism: Lityum titanat (LTO)". Olingan 2018-12-16.
  47. ^ a b v d e "Batareya kimyosi nihoyat tushuntirildi". Olingan 2016-02-26.
  48. ^ "Lityumga bog'langan". Olingan 2016-02-26.
  49. ^ a b v d e f "Umumiy litiy texnologiyalarini taqqoslash" (PDF). Arxivlandi asl nusxasi (PDF) 2016-12-22 kunlari. Olingan 2016-12-21.
  50. ^ a b v d e f g h men j k l m n o p "Lityum batareyalar texnologiyalari". Olingan 2016-02-26.
  51. ^ "LiFePO
    4    : Qayta zaryadlanadigan batareyalar uchun yangi katot material ", A.K. Padhi, K.S. Nanjundasvami, JB Goodenough, Elektrokimyoviy jamiyat yig'ilishining tezislari, 96-1, May, 1996, 73-bet
  52. ^ a b "Great Power Group, kvadrat lityum-ion batareyasi". Olingan 2019-12-31.
  53. ^ "Lityum batareyaning sirlari: bu 100Ah LiFePO4 energiya zichligi jadvaldan tashqarida". Olingan 2019-12-31.
  54. ^ a b "Arxivlangan nusxa" (PDF). Arxivlandi asl nusxasi (PDF) 2016-09-21. Olingan 2016-04-20.CS1 maint: nom sifatida arxivlangan nusxa (havola)
  55. ^ "Ma'lumotlar varag'i HeadWay LiFePO4 38120" (PDF). Olingan 2020-04-08.
  56. ^ a b "Lityum-ionli batareyalarga umumiy nuqtai" (PDF). Global Lighting (2012 yil may, 10-son). Arxivlandi asl nusxasi (PDF) 2014-06-17. Olingan 2016-03-01.
  57. ^ a b "Lityum nikel kobalt alyuminiy oksidi". Olingan 2016-03-01.
  58. ^ "Batareya texnologiyasi". Olingan 2016-02-26.
  59. ^ a b electricrider.com: Lityum batareyalar Citat: Citat: "... Muhrlangan qo'rg'oshin-kislotaning aylanish muddati to'g'ridan-to'g'ri zaryadsizlanish chuqurligiga bog'liq. Chiqish chuqurligiga nisbatan 25 ° C (77 ° F) da zaryadlash / zaryadlash davrlarining tipik soni : * 100-100 tsikl chuqurlikdagi 50-100 tsikllar (to'liq zaryad) * Chiqarish 70% chuqurlikdagi 150 - 250 tsikllar (chuqur zaryad) * 300-500 tsikllar, 50% chuqurlik bilan (qisman zaryad) * 800 va undan ortiq 30% chuqurlikdagi tsikllar (sayoz razryad) ... "
  60. ^ a b "CATL ESF uchun LFP batareyalarini" ko'p gigavatt-soatlik miqyosda "Evropaga va AQSh-CATLga etkazib bermoqchi". catlbattery.com. Zamonaviy Amperex Technology Co. Limited (CATL). Olingan 3 oktyabr 2020.
  61. ^ a b v d e f g h men j k l m n o p q r s t siz Doughty, Dan; Rot, E. Peter. "Li Ion batareyasi xavfsizligining umumiy muhokamasi" (PDF). Elektrokimyoviy jamiyat interfeysi (2012 yil yoz). Olingan 2016-02-27.
  62. ^ "Eng yaxshi qayta zaryadlanuvchi batareyalar (10 dan ortiq grafikalar, obzorlar va taqqoslashlar)". eneloop101.com.
  63. ^ Resende, Kayo (2017 yil 3-noyabr). "Batareyaning eng yaxshi elektr asboblari turlari: NiCd VS NiMH VS li-ion VS li-polimer".