These solutions might still be quite good, depending on conditions and needs, but it’s not the same kind of rocket that we are trying to make here. the heat riser seems very low, or the stove is made of uninsulated materials, we might think that the laws of physics are not fully respected and that optimal conditions are not met. This often results in a lower maximum temperature, more wasted energy and more emissions. There are many descriptions of solutions posted online or in other places that may sound like a rocket, but are not following all the “rocket rules”. The rocket-sound is not enough though in order to determine if the dimensions are optimal and the rocket has all the properties that we seek. If it doesn’t sound like a “rocket”, something is probably wrong. The name Rocket has been given as the stove, when working correctly, sounds similar to a rocket or jet-engine as the air is being pulled and pushed through the system with high speed. This would also result in more work and repairs during the lifetime of the rocket. If the metal is not insulated, this might decrease the effect of spalling as convection is cooling, but also means lost heat in the rocket.Īs any metal (mined material) should be viewed as a precious resource, we should perhaps try to not use designs where the metals are broken down and causing pollution, indicating that it is a less smart solution. Carbon is then extracted from the metal, causing it to flake and dissolve. Trapped air (500☌) in an oxygen-rich and carbon-low environment. The important properties of these are that they can withstand high heat without deforming or degrading (refractory), and that they have enough insulating properties where needed.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |