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The NEW Iron Air Battery DESTROYS The BEST Lithium Ion Technology | Future Of Energy Batteries
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Today’s life, the era of technology and mechanics relies on the abundant supply of free energy. The machines which form the basis of our luxurious and deluxe life do need some input in the form of energy. Actually, they need more input than their practical output. Such a mass amount of input is derived mainly from solar or wind energy as they are inexpensive and customizable sources. Fossil fuels, on the other hand, are also a huge source of energy but can’t guarantee an unlimited supply as they are depleted much more rapidly than they are formed. For many decades, wind and solar energies have been used as a principal source of input energy. But what if the wind does not blow? What if the ever shining sun hides behind the clouds? We can’t bank on such sources that follow climate changes for long term and continuous supply of energy.
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Thank You for watching our video; The NEW Iron Air Battery DESTROYS The BEST Lithium Ion Technology | Future Of Energy Batteries
The best way is to use natural elements to provide a quantum leap of energy. Recently many elements have been under research to provide enormous amounts of energy and many innovations are being made in the field of technology. Lithium, sodium, zinc, potassium and manganese. Lithium batteries are being used as a staple food for energy requirements of vehicles.
Lithium ion batteries are difficult and costly to manufacture as they require expensive metals like cobalt and nickel in their manufacture. Lithium ion batteries provide only a 6 hour supply of energy and can be used for short term power supply. It cannot fulfill the needs of long duration grid scale energy storage. Lithium batteries are unreliable as the charge dissipates over time and is a poor means of energy storage. Its Levelized Cost of Storage is $132 to $245 per megawatt hour which is highly uneconomical.
Due to its short term supply, it has caused blackouts in California and high fuel prices in Europe. A new upheaval is needed in this field which can provide thousands of terawatts of energy by cheaper means.
Recently, researches are being made for using iron and oxygen to supply free energy. Iron is the fourth most abundant element on Earth and oxygen is also available in ambient air. These elements are brought to practical use by manufacturing high yield “Iron Air Batteries”. Iron air batteries are not new to technology.
The major benefit of an iron air battery is that its price is one tenth that of a lithium air battery. One of the trump cards of iron air batteries is that no iron dendrites are formed during charging but the structure of electrodes can adjust during charging and discharging according to the needs. Iron is also reliable for use in metal air batteries due to its multiple oxidation states. Moreover, iron air batteries involve solid phase evolution unlike other metal air batteries. Iron air batteries are inflammable and therefore safe and handy to use. They are also resistant to overcharging, partial and deep discharge. It can supply continuous supply over 100 hours. What else do you need ?
No doubt, the iron air battery has its darker side as well. Iron batteries have an efficiency of less than 50 percent due to the liberation of hydrogen at iron electrodes. The air electrode is also ****e to catalyst poisoning which hampers its ability to store energy. Self discharge and water loss also add to its hazards. Besides these problems, iron air batteries are still highly durable with an energy density of 250 Watt hour per kg. Lithium air batteries, on the other hand, are difficult to bring into practical use and have an energy density of 11,400 Watt hour per kg. Due to high cost and short term storage capacity of lithium air batteries, iron air batteries are more promising for future advancements in the field of science and technology.
The advancement in the use of iron air batteries is still on hold due to its drawbacks which can be masked by its high yield productivity. Its efficiency can be increased many fold by increasing the surface area of the iron electrode. This can be made possible by using nanoparticle iron pallets as iron electrodes so that more of its surface can make a direct contact with the electrolyte solution.
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