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en:dreel:konzept [19.04.2020 19:56]
Bernd.Brincken [Dreel] 		en:dreel:konzept [19.04.2020 20:02] (current)
Bernd.Brincken [LiFePo]
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 == LiFePo == == LiFePo ==
-Low battery capacity complements each other synergistically with low air resistance: +Low battery capacity complements synergistically with low air resistance: 
-  * 4 kWh need e.g. with Samsung 21700 cells only 15 kg and ~ 10 liters, and cost 800 € (net) +  * 4 kWh need - for example with Samsung 21700 cells only 15 kg and ~10 liters, at a cost of € 800  
-  * // Dreel // can thus drive 200 km at 80 km / h, even further with slower driving+  * // Dreel // can thus drive 200 km at 80 km / h, or further at lower speeds
  
-This allows a step that is hardly an option for larger BEVs - the switch to [[wp>LiFePO4]] technology. Above all, these batteries offer greater safety there is no danger of burning electrolyte and at least twice the number of cycles compared to Li-Cobalt cells. This outweighs the approximately 30% higher price for the user. \\ The disadvantage of the low energy density are double weight and volume, an exclusion criterion for large cars, is not a problem with the // Dreel // because of the low energy requirement in relation to weight and volume:+This allows the switch to [[wp>LiFePO4]] technology which is hardly an option for larger BEVsThese battery technology  has better safety because there is no danger of burning electrolyteand at least twice the number of cycles compared to Li-Cobalt cells. This outweighs the approximately 30% higher price for the user. \\ The disadvantage of the low energy density are double weight and volume. An exclusion criterion for large cars, this is not a problem with the // Dreel // because of the low energy requirement in relation to weight and volume:
   * 4 kWh LiFePo with brand cells weigh 31 kg and have 22 liters, at a cost of around € 1,000   * 4 kWh LiFePo with brand cells weigh 31 kg and have 22 liters, at a cost of around € 1,000
   * For € 1,600 at 36 kG and 26 l you can get LiFePO cells with a high power density of 20 C. Here you would have enough power for the mountain even with only 500 Wh capacity. \\ Practical middle ground: 2.4 kWh LiFePO at 23 kg and € 1,000.   * For € 1,600 at 36 kG and 26 l you can get LiFePO cells with a high power density of 20 C. Here you would have enough power for the mountain even with only 500 Wh capacity. \\ Practical middle ground: 2.4 kWh LiFePO at 23 kg and € 1,000.

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