Adiabatic Flame Temperature – preheat and measure 3d temperature, model and optimize
Adiabatic Flame Temperature at https://www.youtube.com/watch?v=AwgQvi1Y24o
I would pre-heat the oxygen and fuel molecules electromagnetically. Then record the 3D volumetric temperature distribution, tracking flow of reactants. To start. And find the temperature dependent heat capacities data or models. To start. Calibrate and optimized the linked models. Track spectroscopic IR, VIS, thermal, UV, whatever is available. Share the results. Richard Collins, The Internet Foundation
I think that the CMOS images sensors from Sony for low light security and astrophysics can be used with ZnSe (zinc selenide), or GaAs (gallium arsenide) or ZnS (zinc sulfide) all that are transparent to light in the thermal infrared. So I ordered a couple of lenses and wrote to lens and material suppliers in China. Now the silicon detectors for visible light and near infrared are not greatly sensitive to thermal infrared but all of them will give strong signals in the infrared as part of the way they handle heat in the chips. And all of them now have a HUGE range of gain they never use.
But I have been experimenting with for almost 10 years now. Because I consider gravity to be one of the signals, with magnetism, what I call “the infrared radiation field” and many kinds of signals that go through solids. I like to play with the signals that come from these devices. Some is just machine noise, some is stuff the designers left in, and some actually does come from near and distant things — including the sun and moon, the clouds, the magma inside the earth, heat every where.
It is that radiation field that drives the electronic noise, it is what gets labeled as “quantum noise”. It is the basis of Planck’s constant. It affect zitterbewegung, it makes special relativistic drag, it accounts for Michelson Morely, it gives meaning to gravitational energy density in a concrete way It carries the gravitational signals from the sun and moon. It is the vibrational zero point energy. At least I can use those concepts however I want. “Einstein” or “Louis Vuitton”, I can cut them up if I want to. And use them for things I like and want to play with.
If you use this (or other) Stefan-Boltzman calculators, put in 1 meter^2, 0 Celsius (freezing water) emissivity 1 ( a black body) then look at the radiated power, you will see 315.66 Watts/Meter^2. That is about 1/3 of full sunlight and a lot of power. Most of it is nearly the same everywhere. Without a Temperature difference to move things, it seems wimpy. But all the masses are continuously radiating on each other so the photons are not idle. A lot it happening, but it seems quiet until you look closely at each molecule, each atom, each electron and many ions.
https://www.calctool.org/quantum-mechanics/stefan-boltzmann-law
Richard