logging in or signing up Tripp - Research Presentation gleedboy Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 15 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: June 05, 2011 This Presentation is Public Favorites: 0 Presentation Description Research presentation for ENG 1105. The Past, Present and Future of the Electric Battery Comments Posting comment... Premium member Presentation Transcript The Past, Present and Future of the Electric Battery: The Past, Present and Future of the Electric Battery Michael J Tripp English 1105 – Technical CommunicationsEvolution: Evolution We use electric batteries every day of our lives. Starting in the 1700’s, the battery has been ever evolving as our requirements for power have evolved.Past: Past 1780 – Luigi Galvani discovers a way to create electricity using two different metals submerged in saltwater, but errs in his conclusions about the source of the current. 1800 – Allesandro Volta recreates Galvani’s experiment, but correctly concludes the current is produced by the corrosion of the 2 metals in close contact with each other.Past: Past 1859 – Gaston Plante develops the lead-acid battery. 1899 – Waldmar Jungner develops the first nickel-cadmium (NiCad) battery. 1902 – Thomas Edison develops the alkaline storage battery.Past: Past 1949 – Lew Urry improves on the design, producing alkaline batteries that last five to eight times longer. 1989 – The nickel-metal-hydride ( NiMh ) battery is introduced, replacing NiCad in many applications. 1991 – Sony introduces the lithium-ion (Li-Ion) battery, which evolved from non-rechargeable lithium batteries.Present: Present Lead-acid batteries are still used in automobiles today for starting, because of their quick recharge rate and ability to produce the high current needed for cranking the engine. NiCads are still used, but have a limited application due to their drawbacks. These include the “memory effect” and the weight of the batteries.Present: Present NiMh batteries are also still used in a limited capacity, but have mostly been replaced due to their weaknesses, which include memory effect, sensitivity to extreme temperatures, and a high self-discharge rate. Li-Ion is currently the rechargeable battery of choice for small electronics. They use lithium, which is the lightest metal and has the highest capacity to store energy for a given weight. They also have no memory effect.Future: New Emerging Technology: Future: New Emerging Technology Carbon Nanotubes – “A form of pure carbon in which sheets of carbon atoms are rolled up into tiny tubes” (MIT). They significantly increase the amount of power the battery could deliver from a given weight.Future: Future Carbon nanotubes will also be used in digital memory technology, decreasing the power required to store and recall data. This memory is faster and will use 100 times less energy than current memory, therefore increasing battery life.Future: Future There have been many steps on our way to the perfect battery. The development and improvement of the battery as a safe, consistent and reusable source of power is significant to the growth of small electronic devices.Works Cited: Works Cited Bellis , Mary. "History of the Electric Battery." About.com . The New York Times Company, n.d . Web. 06 May 2011. Chiesa , Marc. "The History of the Electric Battery." Helium - Where Knowledge Rules . Helium, Inc, 5 July 2007. Web. 06 May 2011. Cole, Louise. "What Does the Future Hold for Battery Technology?" ICIS.com . Reed Business Information Ltd, 9 July 2008. Web, 6 May 2011. "In Search of the Perfect Battery." Technology Quarterly . The Economist, 6 Mar. 2008. Web. 6 May 2011. Massachusetts Institute of Technology. "Using carbon nanotubes in lithium batteries can dramatically improve energy capacity." ScienceDaily , 21 Jun. 2010. Web. 13 May 2011. University of Illinois at Urbana-Champaign. "New technology would dramatically extend battery life for mobile devices." ScienceDaily , 11 Mar. 2011. Web. 13 May 2011. University of Wisconsin. "Carbon Nanotubes & Buckyballs ." MRSEC Nanostructured Interfaces , 2008. Web. 21 May 2011. You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Tripp - Research Presentation gleedboy Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 15 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: June 05, 2011 This Presentation is Public Favorites: 0 Presentation Description Research presentation for ENG 1105. The Past, Present and Future of the Electric Battery Comments Posting comment... Premium member Presentation Transcript The Past, Present and Future of the Electric Battery: The Past, Present and Future of the Electric Battery Michael J Tripp English 1105 – Technical CommunicationsEvolution: Evolution We use electric batteries every day of our lives. Starting in the 1700’s, the battery has been ever evolving as our requirements for power have evolved.Past: Past 1780 – Luigi Galvani discovers a way to create electricity using two different metals submerged in saltwater, but errs in his conclusions about the source of the current. 1800 – Allesandro Volta recreates Galvani’s experiment, but correctly concludes the current is produced by the corrosion of the 2 metals in close contact with each other.Past: Past 1859 – Gaston Plante develops the lead-acid battery. 1899 – Waldmar Jungner develops the first nickel-cadmium (NiCad) battery. 1902 – Thomas Edison develops the alkaline storage battery.Past: Past 1949 – Lew Urry improves on the design, producing alkaline batteries that last five to eight times longer. 1989 – The nickel-metal-hydride ( NiMh ) battery is introduced, replacing NiCad in many applications. 1991 – Sony introduces the lithium-ion (Li-Ion) battery, which evolved from non-rechargeable lithium batteries.Present: Present Lead-acid batteries are still used in automobiles today for starting, because of their quick recharge rate and ability to produce the high current needed for cranking the engine. NiCads are still used, but have a limited application due to their drawbacks. These include the “memory effect” and the weight of the batteries.Present: Present NiMh batteries are also still used in a limited capacity, but have mostly been replaced due to their weaknesses, which include memory effect, sensitivity to extreme temperatures, and a high self-discharge rate. Li-Ion is currently the rechargeable battery of choice for small electronics. They use lithium, which is the lightest metal and has the highest capacity to store energy for a given weight. They also have no memory effect.Future: New Emerging Technology: Future: New Emerging Technology Carbon Nanotubes – “A form of pure carbon in which sheets of carbon atoms are rolled up into tiny tubes” (MIT). They significantly increase the amount of power the battery could deliver from a given weight.Future: Future Carbon nanotubes will also be used in digital memory technology, decreasing the power required to store and recall data. This memory is faster and will use 100 times less energy than current memory, therefore increasing battery life.Future: Future There have been many steps on our way to the perfect battery. The development and improvement of the battery as a safe, consistent and reusable source of power is significant to the growth of small electronic devices.Works Cited: Works Cited Bellis , Mary. "History of the Electric Battery." About.com . The New York Times Company, n.d . Web. 06 May 2011. Chiesa , Marc. "The History of the Electric Battery." Helium - Where Knowledge Rules . Helium, Inc, 5 July 2007. Web. 06 May 2011. Cole, Louise. "What Does the Future Hold for Battery Technology?" ICIS.com . Reed Business Information Ltd, 9 July 2008. Web, 6 May 2011. "In Search of the Perfect Battery." Technology Quarterly . The Economist, 6 Mar. 2008. Web. 6 May 2011. Massachusetts Institute of Technology. "Using carbon nanotubes in lithium batteries can dramatically improve energy capacity." ScienceDaily , 21 Jun. 2010. Web. 13 May 2011. University of Illinois at Urbana-Champaign. "New technology would dramatically extend battery life for mobile devices." ScienceDaily , 11 Mar. 2011. Web. 13 May 2011. University of Wisconsin. "Carbon Nanotubes & Buckyballs ." MRSEC Nanostructured Interfaces , 2008. Web. 21 May 2011.