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Water Activated Battery

A Battery that does not need for charging. Activated with water or any liquid.

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Magnesium powered battery is very handy for remote areas. Where there is no source of electricity. Just you need a water for its activation. For this we need carbon and magnesium. We can increase our battery according to our need. If we increase the series of cells. We have high voltage. And if increase the size of magnesium and carbon then we have high Amps

                                      My first prototype I created in 2012

 Introduction 

When going off the grid, it’s safe to assume that most folks will be relying on solar panels for much of their electrical needs. However, a lack of sunlight can present a few problems for any would-be prepare. If only there was a cheap and simple way to supplement a solar panel array on those cloudy days.

Fortunately, there is such a way, and most of you reading this have never heard of it (I hadn’t until recently). It’s called a Dickens Magnesium Battery after it’s inventor, Stephen Dickens; though the principles behind its function have been around for a very long time. If anything it may be more of a rediscovery, than a completely novel idea.

This device is also called a “Galvanic Cell,” which has been around since the late 1700’s, and possibly even earlier if the theories surrounding the Baghdad Battery are to be believed. It generates small electrical currents by capturing the energy produced by the corrosion of a metal. In this case, the Dickens battery uses the magnesium as its source of electricity, which many you probably already know if you’ve ever used a fire starter, is a very energy dense material. The design is simple enough that pretty much anyone can make it.

Advantages

Reliable

Rugged

Safe

Light weight without the need to carry the electrolyte.

High power and energy densities

Good response to pulse loading

Instantaneous activation

Long unactivated shelf life

No maintenance

Applications

Military applications

Marine use for sonobuoys, life jackets, air sea rescue equipment, emergency lighting, weather balloons.

Costs

Magnesium  cathode types have low material costs

Lets Start The Battery 

Main Things We Need

carbon and magnesium are our main components for making the battery. These are our anode and cathode.

Setting The Ribbon 

From magnesium ribbon. We will make our electrode like the above picture


Fixing Anode and Cathode

Now we have to fix the carbon and magnesium in the cape of jar. which would be like this.


Making Series of Cell

A single cell produces about 1.5 V. We are going to make 3 cells. Then rape a tape around them for fixing. keep in mind carbon has positive charge and magnesium has negative charge. For making series we will connect carbon and magnesium with wire and only leaving the first and last terminals. First and last terminals are our out put where carbon side has positive charge and the magnesium has negative charge. our total out put would be about 3.5 V. Where we can run a LED. if we increase an other cell then can charge a cell phone in very small ratio. Because these are very low amps. For real time charging cell phone we need big size of carbon and magnesium. 

Some Results With Vegetables   

 I found some results using some vegetables because they all have water in them there LED glow. In vegetables I used magnesium and copper electrodes

With taro root running a LED

Running a LED with tomato 

Running with onion 

Running with potato 

Running with Ridge gourd 

Running with Brinjal

Running with lady finger

Running with lemon

Running with mango

Running with wet fingers with water

Running with some tomatoes 

Thanks 

Best Regards Wasim 

  • Making the series of the cells

    Wasim Sahu07/16/2018 at 14:49 0 comments

    A single cell produces about 1.5 V. We are going to make 3 cells. Then rape a tape around them for fixing. keep in mind carbon has positive charge and magnesium has negative charge. For making series we will connect carbon and magnesium with wire and only leaving the first and last terminals. First and last terminals are our out put where carbon side has positive charge and the magnesium has negative charge. our total out put would be about 3.5 V. Where we can run a LED. if we increase an other cell then can charge a cell phone in very small ratio. Because these are very low amps. For real time charging cell phone we need big size of carbon and magnesium.  

  • Fixing the anode and cathode

    Wasim Sahu07/16/2018 at 14:19 0 comments

    Now we have to fix the carbon and magnesium in the cape of jar. which would be like this.

  • Setting the Magnesium Ribbon

    Wasim Sahu07/16/2018 at 14:10 0 comments

    From magnesium ribbon. We will make our electrode like this

  • Main things We need

    Wasim Sahu07/16/2018 at 14:00 0 comments

    carbon and magnesium are our main components for making the battery. These are our anode and cathode.

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K.C. Lee wrote 07/16/2018 at 14:48 point

>Activated with water or any liquid.

Ideally you would want something that comes with extra ions than just water because that can lower the internal resistance of your battery for higher current.  e.g. acids, soluble alkaline, soluble salts.

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