. . "In a lead-acid cell the active materials there are lead dioxide in the positive plate, sponge lead in the negative plate, and a solution of sulphuric acid in water as the electrolyte. A chemical reaction proceeds place between lead plates and sulphuric acid, producing electric current. When the charge is depleted, the battery can be recharged many times. When the battery is electrically charged, the sulphate ions in the sulphuric acid react with the positive and negative plates, forming lead sulphate. Electrons from the reaction flow out from the negative terminal to the circuit and then back into the positive side. When the battery is charging, the lead sulphate leaves the electrodes and transforms into the sulphuric acid again. The discharge-charge cycle can be repeated thousands of times." . . . "978-80-214-4610-6" . "Lead Acid, battery, simulation, Comsol, Finite element method"@en . . . "SIMULATION AND MATHEMATICAL DESCRIPTION OF CHARGING AND DISCHARGING OF THE LEAD ACID ACCUMULATOR"@en . . . "RIV/00216305:26220/12:PU100155" . "Advanced Batteries Accumulators and Fuel Cells - 13th ABAF Book of Proceedings" . "P(ED0014/01/01), S" . . "SIMULATION AND MATHEMATICAL DESCRIPTION OF CHARGING AND DISCHARGING OF THE LEAD ACID ACCUMULATOR" . "7"^^ . . "5"^^ . "2012-08-26+02:00"^^ . . "5"^^ . . "RIV/00216305:26220/12:PU100155!RIV13-MSM-26220___" . "SIMULATION AND MATHEMATICAL DESCRIPTION OF CHARGING AND DISCHARGING OF THE LEAD ACID ACCUMULATOR" . . "K\u0159iv\u00EDk, Petr" . . . "Ba\u010Da, Petr" . . "In a lead-acid cell the active materials there are lead dioxide in the positive plate, sponge lead in the negative plate, and a solution of sulphuric acid in water as the electrolyte. A chemical reaction proceeds place between lead plates and sulphuric acid, producing electric current. When the charge is depleted, the battery can be recharged many times. When the battery is electrically charged, the sulphate ions in the sulphuric acid react with the positive and negative plates, forming lead sulphate. Electrons from the reaction flow out from the negative terminal to the circuit and then back into the positive side. When the battery is charging, the lead sulphate leaves the electrodes and transforms into the sulphuric acid again. The discharge-charge cycle can be repeated thousands of times."@en . "Vysok\u00E9 u\u010Den\u00ED technick\u00E9 v Brn\u011B" . . . "26220" . . "Brno" . "SIMULATION AND MATHEMATICAL DESCRIPTION OF CHARGING AND DISCHARGING OF THE LEAD ACID ACCUMULATOR"@en . . "Brno" . "Vyroubal, Petr" . . . . "Tich\u00FD, Ji\u0159\u00ED" . "[13B3EC08ACCC]" . "Maxa, Ji\u0159\u00ED" . "167967" . .