There are a couple of ways to utilize the mineral and chemical structure of hematite and alkali rock, known as Himalayan salt, in the creation of hydrocarbon products. It is, in my opinion, highly possible to create chemicals or products from such materials that have a much higher demand than those that are unique to just one group of elements. There are numerous industries where hematite is used, such as crystal grown products.
One good examples is cryolite, which are quite common, and is actually what you use to manufacture toothpastes in most people’s houses. All you need is some mineral salts, which can be hematite or alkali.
You have volcanic eruption type rocks that have been altered to lower the density of the material at the surface, and you want to find a way to trap the gas that has escaped. As the gas escapes, it escapes from the solid state or from its crystal form, which is not what you want it to be when you are out there on the surface collecting your material.
As you see, there is a natural phenomenon at work here, which is the mineral, crystalline form of hematite. Hydrocarbon reactions create those crystal lattices in the ideal, hydrocarbon states, so you can use this naturally occurring, energetic and unusual compound to your advantage.
Other excellent method is crystal formation with hydrocarbon byproducts, such as methane or other hydrocarbons, such as propane. As the crystals form, the liquids around them mix with the solid, known as a “crystal structure”. There is a really good illustration that is well worth reading from an excellent engineer who helped me understand this process.
The beauty of hematite is that the conditions are all set up for the formation of this structure in crystal form. One simple way to create hematite or alkali salt is to add, by way of a little steam, steam from the water cooler, and you will get hematite.
If you want to convert hematite into a hydrocarbon to a base material for the production of the hydrocarbon products, then the salt you will need will consist of a little hydrogen and carbon, so that you can manufacture hydrogen. Heatite is the best.
Now, your next task is to develop the hematite, and then to convert it into hematite salt, and you can utilize this to hydrocarbons. This is a pretty straightforward process.
The benefits that you will have are many. It is not hard to use the unique properties of minerals and elements, such as hematite and alkali, to make some very powerful chemicals and products.
Hydrocarbon industries have increased their volume, demand and profitability with the utilization of the strong, alkali, mineral properties of the Himalayan salt rocks. This process makes great use of natural resources and they can become even more profitable with the help of this unique material.
That’s one way to use that information. To the extent that hematite or alkali rocks and minerals can be used to enhance the costs of hydrocarbon products, then it is definitely a good way to get this advantage.