Building a thermal core

Thermal energy core

This is a theoretical science project, the purpose of it is to walk you through how we produce actual thermal engines we have that was created over time. How did we come up with this idea step by step we started with a theoretical idea, by the way here is a little spoiler alert: got thermal jacket we made came out of the makings of this here is the scenario;

Since our last project was on the the subject of steam engine which is a thermal energy device pushed through a kinetic energy machines. We are about to build a new type of core, of course it is non nuclear, you will need to know about the Seebeck effect, And the peltier effect, in order to make this type of core. So grab you some paper and pencil a pin will do, so you can Jot down your own diagram if you can't see it in your imagination like Tesla and me. One draw a lightbulb, and not one of those Lads an old lightbulb the ones they get extremely hot, about 100 watt light bulb will do for this project this is going to be not only your power source but we're going to throw a lot of energy into it.

I have stated that a light bulb is like a nuclear reactor, of course they wanted to put me in the crazy house for stating this comment. Then I started to build this project, I took a hundred watt light bulb and put thermal paste around it. It look like a lampshade from the future, just remember to get as close to the light as possibly you can you want the thermal paste and the light bulb to be touching. This is your artificial sun your reactor!

But just in case you cannot get to touch the actual light bulb then make sure you enclose the whole light in to preserve the heat being transferred out to the aluminum plates, you want this to get hot as the light bulb. If you can't figure out the size and the energy output which we will be mentioning in a minute then you can use more than one light bulb try several light bulbs or a heat lamp the size of the light bulb is not very important, because we are trying to get the heat from the light, not the light. The shape is a little bit more important because you want flat surfaces to put your peltier on the outside of this shape, the more the merrier. Matter fact it's imperative to get as many of these devices around that shape as humanly possible.a 100 watt light bulb, the lightbulb can put out 100 units of light, or 100 units of heat. No matter what form, the energy will be released,a 100-watt light bulb operating for ten hours would use one kilowatt-hour. How to calculate electric usage cost: 1. Volts x Amps = Watts 2. Watts ÷ 1,000 = Kilowatts (kW), Kilowatts (kW) x Hours of Use = Kilowatt Hours (kWh),Kilowatt Hours (kWh) x kWh rate = Cost of Usage meaning that 100-Watt Bulb (100 W) 4 hours/day 12 kwh $1.20 a month. To the average person just means nothing and for this project it was just information that we wanted you to know, yet this information may be more useful to you to know.a single 100-W incandescent bulb will produce 100 x 3.414 = 341.4 Btus/hr.Approximately 90% of the power consumed by an incandescent light bulb is emitted as heat, rather than as visible light. Compared to a internal combustion engines are incredibly inefficient at turning fuel burned into usable energy. The efficiency by which they do so is measured in terms of "thermal efficiency", and most gasoline combustion engines average around 20 percent thermal efficiency. People were starting to figure this out is one of the reasons why we are going to l e d lights, because at 90% you could make an efficient thermal engine easily as you will see.

There are many ways to cool the outside especially in the winter time that wouldn't cost you a dime to do. Let's take this a bit further what if we put it in water you have this bubble shape object, in the water is cold naturally and the bubble shaped object protects the light bulb inside it which is hot on the inside. Do a couple hundred of these and you have a thermal heating plant of course you can make this much smaller and for each light bulb it would become a reactor in itself. Of course you know I can't tell you how we've done it but I've told you enough to figure out that you could get quite enough electricity from this idea. The peltier could put out 12 volts but count it less than that let's say half that means six votes for each one put on a geometrical shape or flat surface of a shape meaning the more sides you have the more of these 6 volt devices can put out. So if you had 12 sides on your shape and it X 12 volts equals 144 votes cut that in half and you have 72 volts. So now what can you do with the type of voltage of course you run a brushless motor and it will multiply your electricity output. This was an easy project

Let's take a look at what the scientist does with this type of Technology yet a light bulb puts out thousands of degrees because the electricity which can melt down metal, and Stone liquefying it very easily. Is kept from being that hot by the surrounding gases so to improve this concept you would have to make a better light bulb, we already done that -????? Will be continued.