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[Slide] ประวัติของถ่ายไฟฉาย แบ็ตเตอรี่ (History of dry cell and Battery by pawoot

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

Text of [Slide] ประวัติของถ่ายไฟฉาย แบ็ตเตอรี่...

  • 1. History of Dry Cell BatteryBy Pawoot Pongvitayapanu Pom

2. By Pawoot Pongvitayapanu PomAgenda Whats Battery? Type of Dry Cell Battery Next Generation of BatteryInnovation Type of Innovation by Theory Concludsion 3. Comment from Prof. (Highlight timeline) S-curve dry cell S-cureve y S-curveBy Pawoot Pongvitayapanu Pom 4. ? () (Dry cell) (George Leclanch) 1866 (Leclanch cell)By Pawoot Pongvitayapanu Pom George Leclanch 5. By Pawoot Pongvitayapanu Pom? ( ) (MnO2) 5-5 6. 250 BC to AD 250 - BaghdadBy Pawoot Pongvitayapanu PomBattery (Baghdad) (Mesopotamia) 13 x 1.25 (Asphalt) 1.5 - 2 7. By Pawoot Pongvitayapanu Pom5-71747 (BenjaminFranklin) (Battery) 1790 (Volta) (Voltaic Cell) 8. Slide 8By Pawoot Pongvitayapanu Pom5-8 9. Type of Dry CellPrimary Cell ()1866 (Carbon-zinc cells)1899 (Alkaline Battery)1942 (Mercury Battery)1970 (Lithium Battery)Secondary Cell ()1899 (Nickel-cadmium Battery,Nicads)1990 (Nickel Metal HydrideBattery)1991 (Lithium ion Battery)By Pawoot Pongvitayapanu Pom 10. Primary Cell ()By Pawoot Pongvitayapanu Pom5-10 11. (Carbon-zinc cells) manganese dioxide carbon , zinc zinc chloride ammonium chloride By Pawoot Pongvitayapanu Pom 12. By Pawoot Pongvitayapanu Pom?5-12 13. http://www.youtube.com/watch?v=v9mMh_pSC6YBy Pawoot Pongvitayapanu Pom5-13 14. (Disposable alkaline cells) AlkalineDisposableBy Pawoot Pongvitayapanu Pom 15. (Rechargeable alkaline) AlkalineRechargeable By Pawoot Pongvitayapanu Pom 16. By Pawoot Pongvitayapanu Pom (LithiumLi- cells)ion 17. (Mercury battery) 1.35 .. 1950 (Samuel Ruben) By Pawoot Pongvitayapanu Pom 18. Secondary Cell orRechargeable battery ()By Pawoot Pongvitayapanu Pom5-18 19. By Pawoot Pongvitayapanu Pom(Nickel-cadmium cells,Nicads)NiCd 1950 (..2493) , () 20. By Pawoot Pongvitayapanu Pom NI-MH (Nickel MetalHydride)NiMH 1-4% NiMH 21. By Pawoot Pongvitayapanu PomLi-ion (Lithium ionBattery)Li-ion 2 22. By Pawoot Pongvitayapanu PomLi-poly (Lithium PolymerBattery)Li-poly 1 23. By Pawoot Pongvitayapanu PomChargerNickel Cadmium Battery 24. By Pawoot Pongvitayapanu PomSize of Battery D 33 x 60mm. 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. 25. By Pawoot Pongvitayapanu Pom 26. By Pawoot Pongvitayapanu Pom 27. Technology ImprovementBy Pawoot Pongvitayapanu Pom5-27 28. By Pawoot Pongvitayapanu Pom5-28 29. Whats Next Generation of Dry CellGraphene: the emergence of a new type of rechargeablebatteryIn October 2013, scientists claimed that: Graphene has only recently been implemented as anelectron conducting additive for lithium ion battery cathode materials. In current studies grapheneis found to significantly improve cathode electrochemical performance.Graphene anodes improving lithium-ion batteries with 2.83 times charge capacity thanbatteries made with standard graphene and an energy footprint that is ten times smaller thanthat of chemical vapour deposition grapheneBy Pawoot Pongvitayapanu PomBattery5-29 30. Type of Innovation3000 mAh2700 mAh1100 mAh 3000CarbonZinc AAlklkaalilninee1866LLitihthiuiumm1000 mAhBy Pawoot Source : The Y aPi odnryg-bvaittateyray"p. aTnheu hPisotomry of the battery. Battery associationof Japan. Retrieved 2014-03-19.LLi-ii-oionn LLi-ip-poolyly GGrarapphheennee5-30Technology S-CurveProduct PCapacity (mAh)1.6 0.7 V)TimeCarbonZinc199920151899197019911100 mAhNNiCiCddNNiMiMHH19902900 mAh1000 mAh3000mAh2700 mAh2700mAhmAh3000mAh 31. By Pawoot Pongvitayapanu PomJournalhttp://arxiv.org/pdf/1107.0109.pdf 32. ENDBy Pawoot Pongvitayapanu Pom5-32 33. By Pawoot Pongvitayapanu Pom5-33 34. By Pawoot Pongvitayapanu Pom5-34 35. By Pawoot Pongvitayapanu Pom 36. By Pawoot Pongvitayapanu Pom