Thermoelectric generation (TEG) utilizes heat flow through a device, composed of semiconductor materials, to generate an electric current. It has no moving parts, and relies on heat differential on one surface of the device compared to the other. Most commercially available devices have a heat limit on the "hot" side of the device of 300°C, or 572°F, and a maximum "cold" side heat of 180°C, or 356°F. The greater the difference between a hot site and cold side, the greater the electric energy produced.
Most devices are one or a few inches square, and a fraction of an inch thick. They have very long functional lives and are maintenance free. Although peak power output is not especially high, utilizing a few of them at once may produce meaningful output. Certainly, enough to recharge a cell phone or other battery recharging device, or even operate a 12 V light bulb.
For example, a single 2.2 in.² device that is 572°F on the "hot" side and 86°F on the "cold" side produces nearly 15 W of power. These temperatures suggest that this technology may be ideal for coal stoves. The difficulty may involve adequate cooling of the "cold" side. Most manufacturers recommend applying a heat sink to the cold side, and I'm guessing that a heat sink repurposed from a PC may be a reasonable choice. In my hand fired stove, a great deal of cold air rushes back of the stove to enter the ash pan vents, and I'm trying to figure out a way to direct some of this flow over the heatsink fins.
The 2.2 in.² device costs about $80 purchased singly, or $60 each when purchasing 10 devices. Manufacturers claim that their devices are much cheaper than solar technologies considering power output.
I came across some interesting links today and thought I would post them here:
Ashcat, very useful information. The Tegpower links you provided show two products that are developed for immediate use. While I have no experience with them and want to learn more, the 12 volt battery charger unit (http://www.tegpower.com/pro8.htm) is ready to roll simply by sitting on top of a coal or wood stove with surface temp of 350 degrees F minimum--I think most stoves would do this. Might make a fine trickle charger during heating season and also could recharge a depleted 12V battery during outages. Similarly, the camping lantern generator (http://www.tegpower.com/pro9.htm) literally has a 5VDC output through a standard USB port, though it would have to be mechancally set up to attach to a stove. Keeps your electronics humming. Would like to know what others think.
Re: Electricity From Coal Stove--No Moving Parts
Posted: Tue. Nov. 13, 2012 8:27 am
by Ashcat
Thanks for the follow-up, Beeman. It seems as though it would be fairly easy to modify the lantern unit to attach to, or rest near, a coal stove. The USB output device is attractive for charging cell phones, laptops, etc., as is the "trickle" charger.
Ashcat wrote:Thanks for the follow-up, Beeman. It seems as though it would be fairly easy to modify the lantern unit to attach to, or rest near, a coal stove. The USB output device is attractive for charging cell phones, laptops, etc., as is the "trickle" charger.
OMG, Just what every 3rd world Yuppie needs. Charge your cell phone while "Roughing it".
The Home stove is a very expensive version of the "Rocket Stove" which is promoted as a fuel saver in third world countries. The main purpose of the rocket stove concept is to have a cheap stove that would heat food with little wood for people that can't afford firewood. Side benefit is less pollution.
I'll plug this device into the same grid as my solar panel and wind turbine.
Re: Electricity From Coal Stove--No Moving Parts
Posted: Tue. Nov. 13, 2012 10:07 am
by 009to090
The Peltier Effect has been known for some time. I actually bought a few of the modules to test with. The raw modules are readily available on Ebay or other electronic warehouses, and the price isn't bad.
Heres one:
**Broken Link(s) Removed** Interesting play toy. You can build your own "Charger" for $10 or $20. Not much amperage though, unless you gang them together.
Re: Electricity From Coal Stove--No Moving Parts
Posted: Tue. Nov. 13, 2012 11:14 am
by Yanche
What you really want is a long lived heat source. That's the principle of the radioisotope thermoelectric generators. The heat come from a decaying radioisotope and if used in a spacecraft the cold of space. See wikipedia for the history:
All the units use the dissimilar metal thermocouple junction principle, just the heat and sink thermal sources are different. I worked at JHU/APL all my professional career. During the early and mid-sixty's the SNAP units powered our satellites until one launch failed and sprayed Plutonium-238 over a wide area. The desired power source then changed to solar panels.
Re: Electricity From Coal Stove--No Moving Parts
Posted: Tue. Nov. 13, 2012 12:22 pm
by Ashcat
Yanche--APL must be a fascinating place to work! I'm sure you have a few stories you can't talk about.
Continuous heat from a coal stove, for 5-6 months, might be a good enough source to keep a battery charged or have LED light in case of prolonged power outage.
Ashcat wrote:Yanche--APL must be a fascinating place to work! I'm sure you have a few stories you can't talk about.
He could then he would have to kill us all.
Re: Electricity From Coal Stove--No Moving Parts
Posted: Sat. Jun. 15, 2013 2:26 pm
by Yanche
Flyer5 wrote:
Ashcat wrote:Yanche--APL must be a fascinating place to work! I'm sure you have a few stories you can't talk about.
He could then he would have to kill us all.
Actually I don't have to kill you. One of the many classified projects I worked on was de-classified about a year ago. A photo reconnaissance that used film, film that was ejected from the satellite over the Pacific ocean and then caught in a net pulled by an air plane.
This show the satellite in it's transporter entering US101 near Sunnyvale on it way down to Vandenberg AFB for launch. In the background between the two utility poles is the "blue cube", a windowless building that was the AF satellite control facility. On it's right is Moffett airfield. My office and lab was in a Lockeed building on property that adjoined the airfield.
Much of the KH-9 spacecraft is on public display at the AF museum in Dayton, Ohio. The film was 60 miles long! Here's the camera specs:
Much to my surprise in comparing our work experiences with a fellow Lions Club member, who worked for the AF but at the CIA, I learned he used film output from the HK-9 in his work. He was an expert on Russian missiles.
I had a unbelievable working career.
Re: Electricity From Coal Stove--No Moving Parts
Posted: Sat. Jun. 15, 2013 10:01 pm
by KLook
Just curious Yanche, would you have ever encountered a Leonard Bowles? He was a valedictorian at Machias HIgh School back in the 40's and went on to MIT and worked in the space programs, satellites, etc. Another girls from Cutler, Me worked at the JPL starting in the 80's. Her last name was Marsha Randall. I know thousands of people worked for these programs, but it is a small world really.