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ประวัติของถ่ายไฟฉาย แบ็ตเตอรี่ (History of dry cell by pawoot)

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ประวัติของถ่ายไฟฉาย แบ็ตเตอรี่ ลองมาดูกันว่ามีอะไรบ้าง การเติบโตและเดินทางของเทคโนโลยี รวมถึงนวัตกรรมทางด้านนี้เป็นอย่างไรบ้าง เอกสารนี้เป็นส่วนหนึ่งของวิชา Innovation Synthesis ของ ป.เอก จุฬาฯ ของนายภาวุธ พงษ์วิทยภานุ

Text of ประวัติของถ่ายไฟฉาย แบ็ตเตอรี่ (History of...

  • 1. HistoryofDryCellBatteryby Pawoot Pongvitayapanu (Whats Dry Cell) ? (Dry cell) (George Leclanch) 1866 (Leclanch cell) + + () () 1 ? ( ) (MnO2)250 BC to AD 250 - Baghdad Battery Khuyut Robbou'a (Baghdad) (Mesopotamia) Parthian Sassanid 13 1.25 (Asphalt) 1.5 - 2

2. HistoryofDryCellBatteryby Pawoot Pongvitayapanu? (Gout Pain) (German) Wilhelm Knig 1938 Knig ( Electroplating Gold ) 2 Electroplating Gold Knig fire-gilded (mercury)1747 (Benjamin Franklin) (Battery) 1790 (Volta) (Voltaic Cell) (Dry Cell) 3. HistoryofDryCellBatteryby Pawoot Pongvitayapanu (Type of Dry Cell)Primary Cell () 1866 (Carbon-zinc cells) 1899 (Alkaline Battery) 1942 (Mercury Battery) 1970 (Lithium Battery)Secondary Cell () 1899 (Nickel-cadmium Battery, Nicads) 1990 (Nickel Metal Hydride Battery) 1991 (Lithium ion Battery) 1999 (Lithium Polymer)Primary Cell ()1.) (Carbon-zinc cells) manganese dioxide carbon , zinc zinc chloride ammonium chloride 4. HistoryofDryCellBatteryby Pawoot Pongvitayapanu2.) (Disposable alkaline cells) 3.) (Rechargeable alkaline) 5. HistoryofDryCellBatteryby Pawoot Pongvitayapanu4.) (Lithium cells) 5.) (Mercury battery) 1.35 .. 1950 (Samuel Ruben) 6. HistoryofDryCellBatteryby Pawoot PongvitayapanuSecondary Cell or Rechargeable battery ()1.) (Nickel-cadmium cells, Nicads) 1950 (..2493) , ()2.) NI-MH (Nickel Metal Hydride) 1-4% NiMH 7. HistoryofDryCellBatteryby Pawoot Pongvitayapanu3.) Li-ion (Lithium ion Battery) 2 4.) Li-poly (Lithium Polymer Battery) 1 8. HistoryofDryCellBatteryby Pawoot Pongvitayapanu Size of Battery D 33 x 60 mm. C 25.8 x 50 mm. AA 14.5 x 49.5 mm. AAA 10.5 x 43.7 mm. PP3 48.5 x 26.5 mm. (History of Battery) 9. HistoryofDryCellBatteryby Pawoot Pongvitayapanu (Technology Improvement) (Whats Next Generation of Dry Cell Battery)Graphene: the emergence of a new type of rechargeable battery (Graphene) Lithium 2.83 10 In October 2013, scientists claimed that: Graphene has only recently been implemented as an electron conducting additive for lithium ionbattery cathode materials. In current studies graphene is found to significantly improve cathode electrochemical performance.Graphene anodes improving lithium-ion batteries with 2.83 times charge capacity than batteries made with standard graphene and an energyfootprint that is ten times smaller than that of chemical vapour deposition graphene 10. HistoryofDryCellBatteryby Pawoot Pongvitayapanu (Type of Innovation) S-Curve 2 (Product Capacity mAh) S-Curve Graphene 11. HistoryofDryCellBatteryby Pawoot Pongvitayapanu Journalhttp://arxiv.org/pdf/1107.0109.pdf