Edison Batteries

I have been talking with the guy at HydroCaps and may order his. I sent him one of the shipping caps from the ChangHong battery so he could see whether he could match the metric threads of the battery case. He could and sent me a sample. It fit perfectly. He tells me they can make the caps for the NiFe using the same chemistry as lead as the gases they are helping recombine are the same. I read somewhere, perhaps Home Pwr but don't quote me, that people were using HC's with Ni Fe batteries and happy with them; however, I do not personally know anyone who is using them for that so I cannot say til I get my own.

I have used his HydroCaps on two sets of lead acid forklift batteries over the years and have good results with them. Some people report that they do not last. I don't know about any other than mine: the latest batch I bought lasted about 20 yr. and were still working fine when I sold my forklift bank a couple weeks ago. I will probably order a set for my Ni Fe bank soon, just haven't gotten around to it.

The Ni Fe bank definitely uses significantly more distilled water than my lead acid, but of course I cannot compare directly yet as I don't the the HydroCaps for the new batteries. With the forklift batteries [1875 amp hr.] I added less than a gallon a year of water to the entire bank.

Mike,

How about a description of your system.....name and brands of stuff you're using with it, specifically charge controllers and inverters, if applicable.

I started with lead acid L-16's, ran across a great deal on some AGM AbsolyteGNPII, and am now using them, but I'd be interested in the Edison batteries too.

Thanks !

Do you have a source for the cat caps that fit the Changhong batteries ? I'd get 42 of them, if they last more than a couple years.

Just got my Pb batteries replaced, and I see (hear mostly) these critters bubbling away. I may be looking at 5-10 gallons a month of distilled in the summer time.

Nickel Iron media

more links, now with some video...

I agree ... price was never a factor for me. Never buying another battery was it.

I was selling them for a while but sales is boring and I am back in R&D mode. Just finished a geiger counter design that is going up for sale on my site. Batteries were too big for me to deal with since I do not drive at all. This is another factor in choosing NiFe ... I paid for them to be delivered and now I will never need a battery delivery again.

Price was never the deciding factor in my case ... whatever solution I adopted the storage had to last forever and be useable by my daughter after I kicked the bucket in 25 years.

Ian

Prepaying your electric bill for 50 years?

A rather stiff investment for most.

Very old nickel iron batteries

If these Ni-Fe cells can be rejuvenated after 50+ years, why would you consider anything else?

Lets put the chemistry aside. Why would you keep buying replacements for anything when a substitute product exists that you never need to replace?

If these cells work after 50+ years, then they would truly be the most cost effective solution, right?

Link to restoration gallery: https://picasaweb.google.com/1103216...eat=directlink

Inside Edison 3.jpg

Inside Edison 2.jpg

Inside Edison 1.jpg

Ian me thinks you are playing games with numbers here. I know of your website, I know you either do or have sold NiFe batteries, so the bias is on you, not me as you have suggested. On your website you clearly state cost $1.5 to $6.60/kwh. I will certainly not argue the cost you post on your website as it is pretty close to today's pricing.

Like any market value/pricing is number 1 importance. Until NiFe can compete with Lead Acid Tecnologies at $0.14/wh, NiFe will always be a niche product because there are just better options at a fraction of the cost.

Yes ... there are people using NiFe cells for RE and are pleased with them.

The title says it all. My system has been running for a year and I am going to buy more NiFe cells in a year. But first I want to build a solar hot water system. But NiFe do work well in spite of a large number of comments from people who have never used them!

Be aware that that NiFe cells will be discussed at the upcoming Battcon World Stationary Battery Conference this month. The researchers involved were impressed enough to do a talk on their use. Peter DeMar will be speaking on the 75 to 80 year old cells that he brought back to life by following Edison's advice from a 1920 pamphlet! The Chinese did not offer the technical information to rejuvenate them.

In addition the IEEE Battery Group is working to update their North American battery standards to include NiFe. This would not be happening if the batteries were poor in any substantial way!

The dearth of comments suggesting that NiFe are very poor batteries come from a very few people who have never used them themselves. I am wondering if they have connections to the lead acid industry and are perhaps selling lead acid batteries?

Personally I have given up selling NiFe cells and just send people directly to Changhong Batteries since they will get an even lower price right from the factory. I do not want to add my markup and price them off the market. The Chinese will sell to anyone who makes an order greater than $3000. Changhong will be at the Battcon show if you want to see their products. Another company from China selling NiFe will be there too.

So lets be a bit more open minded in this forum.

Ian Soutar
Vancouver Island.
Canada.

So called disadvantages of NiFe greatly exaggerated.

I replied to this before ... but it failed to post ... sorry if there is a replica.

1/ Edison did not abandon his patent. I have a number of patents myself for inventions and each patent only lasts for 18 years. Of course Edison abandoned it just as I have abanoned my own early patents. The Edison Storage Battery company existed from 1910 to 1972 and was very profitable making NiFe cells. Exide (lead acid) bought them out in 1972 and took them off the market ... even though the company was still very profitable. Why?

2/ Energy density of NiFe is amost identical to lead batteries. Lead is 40 Whr / kg and NiFe varies from 30 to 50 Whr / kg depending on the design. The modern ones have the slightly higher density of 50 because they use plastic cases. Traditionally the cases were made from steel.

3/ Self discharge rate is 1% / day for Nickel Iron. Since they are charged on a daily basis this is insignificant. Lead batteries lose 20% / month when they are over 1 year old. NiFe lose 30% per month. It is not an issue in either case for RE.

4/ Steeper voltage dropoffs are seen with NiFe as compared to lead. However if you purchase an inverter designed for NiFe from KiPoint in Taiwan (very good and very cheap too) you can specify that they need to work with NiCad, Lead or NiFe. It is all a matter of design and their discharge pattern works just fine for RE.

In my house lighing I use constant current source regulators for the DC LED lighting. It allows them to burn with the same brightness from 18 volts to 40 volts. When buying a custom inverter from KiPoint I ask for it to cover 22 volts to 36 volts (that is the range from equalization to discharge).

5/ It is true that they give off hydrogen as most batteries do. NiFe gives off more hydrogen than many other batteries and this chemical property is part of the reason that they last. With lead acid you are supposed to vent off the corrosive lead acid fumes. With NiFe it is hydrogen. Not a big deal ... just vent them and the problem is solved. NiFe can be fitted with catalytic caps that re-combine the h2 and o2 back into water that drips back into the battery.

I have never worried about the hydrogen and I do smoke on occasion in my garden shed without noticing any explosions. I have a hole in the top of the shed which lets all the hydrogen out. There are no toxic or caustic SO2 or sulphuric acid fumes at least such as are given off by lead acid cells.

I consider them to be ideal for RE in my applications.

Ian Soutar
Vancouver Island.

ISOUTAR I agree in developing countries there is limited recycling
In philippines plastics and metals mostly get recycled everything else (a billion plastic bags included )is either just thrown away some where or if a liquid just emptied on the ground
To give some idea of bad disposal there is an estimated 4,800 tones of rubbish just along the 48k (30miles)of Manila bay.
In countries like Philippines there are no such thing as recycling bins for households or business.

Lithium ion phosphate batteries are a fairly inert item to dispose of at the end of their life.

Lead is a serious issue in developing countries.

In developing countries lead is a really serious issue because there is neither recycling or garbage disposal beyond simple piles of rubble. The Non government organizations and service clubs building off grid schools and hospitals have serious issues with lead pollution.

Ian

Simple economics, there are a lot better choices at 1/20th the cost.

Lead from batteries should not pollute anything as it's easily 100% recyclable from batteries.

Nickel Iron Cells work very well for solar voltaic applications.

Some people in the forum seem to be against NiFe cells and I have never been able to figure out why. Look at the other postings on nickel iron ... do a search. I posted a lot of links, prices and applications for them.

Their efficiency is a bit lower than lead acid but that efficiency remains almost constant for 20 years. I have found that mine were about 75% efficient but when you are dealing with free energy ... just throw up another panel and forget about efficiency problems. Worked for me. The sunlight generated energy is free for 20 years so why worry.

Price is not always the factor driving things. If you want maintenance free batteries that only need water with an electrolyte change every 10 years then NiFe will do it. If you want to be continuously replacing a ton of batteries every time there is a little voltage accident or controller failure then Lead acid would be a good choice.

In African solar powered schools and hospitals NGO groups building them are now moving away from lead acid because it is polluting Africa.

Ian Soutar
Vancouver Island
Canada