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1、. . . .1. 25时H2SO4溶液密度和质量分数对照表:1.201.211.221.231.241.251.261.271.281.291.30m%28.1429.3830.6131.8333.0534.2535.4436.6237.7938.9540.101.311.321.331.341.351.361.371.381.391.401.41m%41.2442.3743.4944.5945.6846.7647.8048.8549.8950.9151.911.421.431.441.451.461.471.481.491.501.511.52m%52.9153.9054.8855.855
2、6.8057.7558.7059.6360.5661.4862.391.531.541.551.561.571.581.591.601.611.621.63m%63.3064.2065.0965.9866.8168.7568.6269.4970.3571.2172.091.641.651.661.671.681.69m%72.9273.7874.6375.4876.3377.1925硫酸溶液百分量与密度对照表:12345678910m%1.00381.01041.01691.02341.03061.03671.04341.05021.05711.064011121314151617181920
3、m%1.07101.07801.08511.09221.09941.10671.11411.12151.12901.136521222324252627282930m%1.4411.15171.15941.16721.17501.18291.19091.19891.20691.215031323334353637383940m%1.22321.23141.23961.24791.25631.26471.27321.28181.29041.299141424344454647484950m%1.30791.31671.32561.33461.34371.35301.36241.37191.381
4、41.391151525354555657585960m%1.40091.41091.42091.43101.44121.45161.46211.47231.48321.494061626364656667686970m%1.50481.51591.52761.53781.54901.56021.57151.58291.59441.605971727374757677787980m%1.61751.62921.64091.65261.66441.67611.68781.69941.71081.722181828384858687888990m%1.73311.74371.75401.76391
5、.77321.78181.78971.79681.80331.81442. 铅酸蓄电池有关物质摩尔质量、密度、电化当量:PbPbOPbO2-PbO2-PbO23PbOPbSO44PbOPbSO4PbSO4H2OH2 SO4摩尔质量 moL207.19223.19685.57239.19239.19990.831196.1303.2518.0198密度 11.3419.359.19.879.56.58.16.30.9951.84电化当量Ah/g0.25870.24020.23460.22410.22410.088381.48780.2733电化当量g /Ah3.86524.16374.26354
6、.46224.462211.31450.67213.65933. 有关铅粉的电化当量:氧化铅粉氧化度%707274767880电化当量Ah/g0.24570.24530.24500.24460.24420.2439电化当量g/Ah4.0704.07624.08244.08864.09484.1014. 铅膏视密度的计算: W铅粉质量;V1硫酸体积;1硫酸密度;硫酸百分含量;铅粉氧化度;V2加水量;W1添加剂量;铅膏视密度;W2为Pb3O4质量;铅膏质量5. 含水率的计算:6. 铅膏含酸量:g/kg(湿膏) g/kg(干膏) 铅粉含酸量g/kg(粉) 7. 极板孔率: 孔=水 8. 每克湿膏固化
7、、干燥的理论吸酸量: 水-ml/g(湿膏)9. 岛津铅粉机的滚筒直径与临界转速:10.直 径m0.91.01.11.21.31.41.51.61.71.81.9临界转速n/min44.5642.2840.3138.5937.0835.7334.5233.4232.4231.5130.6711. 一个体积的密度为1的原胶,加多少单位的水(V)配成所需密度为2的胶液? 11. 一个单位重量的的原胶1,加多少单位重量的水(W)配成所需密度为2的胶液? 12. 硫酸水溶液和胶混合后的百分含量m2的计算?已知酸的体积V1密度1百分含量m1,胶的体积V3,密度2 当V1:V2=1:K 时: 13. 酸与胶
8、混合后SiO2的含量计算: 1).酸液不同密度SiO2的含量对照表(近似值) 胶密度1.0251.0261.0271.0281.0291.0301.0311.0321.0331.0341.035SiO2%5.0405.255.425.635.806.016.206.376.556.736.93胶密度1.0361.0371.0381.0391.0401.0411.0421.0431.0441.045SiO2%7.117.287.477.677.828.048.218.388.578.76 式中 m2-配制所需胶液的SiO2含量 %;1-原酸液的密度 g/cm3;m1-原胶液SiO2含量 %;K1
9、-配制所需胶液的酸和胶的比例。 若1=1.058 m1=11% 则 若所配电解液SiO2含量为m3则式中 1-原酸液密度 g/cm3; 2-所配酸液的密度 g/cm3;K2-所配电液的加胶系数;m1-原胶液SiO2含量 %;K1-配制所需胶液的加水系数;酸-配制电液酸的密度。若m1=11% K1=1.25 K2=1 1=1.058 2=1.025则 若酸=1.45 则m3=2.09% 即SiO2为2.09%例1.已知1=1.058 2=1.025 K2=1 m1=11% K1=1.25 酸=1.45求所配电解液SiO2含量m3? 例2.已知1=1.058 2=1.029 K2=1 m1=11%
10、 K1=0.95 酸=1.45求所配电解液SiO2含量m3? 2).已知酸的质量为m1密度为1,胶的密度为3质量为m3,SiO2含量m3,求混合后SiO2含量m(体积比K) 14. 内化成电池电解液浓度计算: 1).已知注入电解液V11m1 化成后电池电解液V22m2化成损失重量为W, 失水的浓度为3m3 单体电池数为n,电池极组含酸量为g。 2).已知V11m1单体正极理论容量Q+,负极理论容量为Q-,极板含酸量H(单体)化成实际充入电量Q。 a) 若Q+Q- b) 若Q+Q- -2查表 或者 15.UPS电源用电池放电小时率与放电倍率对照表:放电小时率min5min15 min30 min45 min1h2 h3 h4 h5 h6 h7 h8 h9 h10h放电倍率 B2.51.61.00.80.630.360.250.200.170.160.140.1230.110.10.550.1816.UPS电源所需电池容量计算: 已知UPS电源的功率为W,逆变系数为,电池工作电压为V,电池工作时间为h,电池容量为Q. 则电池容量 -(B可从上表中查出)17.邮电系统选择确定电池容量,使用下述公式. 公式 Q- 电池容量Ah;t-工作时间h;p- 不同时间率容量系数(下表查);N- 老化系数;- 温度系数. 不同时间率容量系数表:小时率30min1h2h3h4h
