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• Residential Application mkogrady on 07/29/2008 at 1:46 PM

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  Assuming we're actually heading towards an Electric Car based society (world?) - how viable are these batteries as a means to store non-peak electricity to charge up your car. In essence, use the battery (in an array or large single unit) to capture cheap electricity at night, then charge your car batteries in the morning? Are these units forecasted to be competative with Electrolyte Flow Cell battery solutions for smaller residential applications (ie 5Kva to 10Kva) - can the battery materials be reused to keep costs low as possible? Final question - will development of these include using large industrial sized Microwave Ovens (ie room sized) to make larger crystals or more materials in a single pass?? Rate this comment: (Reply)

  • Re: Residential Application muraliganth on 07/29/2008 at 4:45 PM

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    Using Lithium battery to store the grid-power during off-peak hours to use it again for car batteries to minimize the cost is certainly a gud option, but may not be practical because of the need to use batteries twice (cost issue which is already an important criteria for making PHEV commercial). Lithium technology can sure replace other batteries because of its high energy and volumetric density (light and small). It will keep on improving resulting in more energy and mileage replacing IC engine altogether within 2025.. reg Microwave for large scale production is still debatable..but will sure one day replace the conventional heating methods..(like how domestic microwave replaced conventional ovens from our kitchens).. Rate this comment: (Reply)

  • Re: Residential Application cobraphx on 07/30/2008 at 10:09 AM

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    If your car has a battery, why not just charge your car's battery at night when the rates are lowest? Why would you charge a separate battery in order to charge the car's battery? If you work at night, I guess it makes some sense... But I'm not sure the cost differential between daytime and nightime electricity rates is enough to offset the cost of a $2000-$5000 battery system, to store the cheaper of the 2 charges, especially when you take the efficiency losses in account. You'd be adding 5-10% losses for charging the storage battery and then discharging it to charge the car's battery. If you are completely off the grid, and using the battery to buffer your daytime solar power, it makes a lot more sense. Rate this comment: (Reply)

  • 	Re: Residential Application LDighera on 08/06/2008 at 11:33 AM
    Posts: 13 Avg Rating:	... "cheap electricity at night" ... Actually the window for cheap electricity occurs between about midnight and 9am. Here's some historical information: Click to view Here's the current demand for California: Click to view Rate this comment: (Reply)

• 	Theoretical capacity of lithium iron phosphate Anders on 07/30/2008 at 7:29 AM
  Posts: 1 Avg Rating:	Quote from article: "the materials came close to the theoretical capacity of lithium iron phosphate, which is 170 milliamp hours per gram." What causes this theoretical limit? Rate this comment: (Reply)

  • Re: Theoretical capacity of lithium iron phosphate rockntrumpet on 07/31/2008 at 10:43 AM

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    The theoretical capacity limit is based upon the number of Li-ions that can be transported from the cathode to the anode during discharging of the battery.  The LiFePO4 (Lithium-iron phosphate) structure can only theoretically allow a certain number of Li-ions to vacate its structure while remaining stable and not collapsing.  It is a physically allowable amount of Li-ions that can move from the cathode to the anode.  For the actual equation that is used to calculate this just search on Google. Rate this comment: (Reply)

• Lithium Supply is LIMITED Bonobo on 07/30/2008 at 3:51 PM

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  The worldwide supply of Lithium is severely constrained by the amount available as recoverable Lithium Carbonate & Lithium Chloride on surface of the Earth.  Google will turn up the sources easily. Over 80% of all Lithium salt deposits are in S. America, & thus S. America will be the OLEC "Organization of Lithium Exporting Countries" cartel.  Great. 6.2 million tons of Lithium is the estimated world supply of Lithium and we used about 20,000 tons/yr in 2005. Lithium is relatively expensive, difficult or economically undesirable to recycle and of limited supply and so I conclude, just from what I read, that Lion batteries are only an interim battery solution. Rate this comment: (Reply)

• 	Altairnano's battery technology kellyriordan1641 on 08/08/2008 at 12:43 AM
  Posts: 1 Avg Rating:	Altairnano seems to be making some recent noise about their quick charge battery technology and using them in a Phoenix Motors product. How does that compare with the technology in this article? Rate this comment: (Reply)