By Kate Macdonald, Time magazine contributorNovember 11, 2016A lot of things that are good for you can be bad for you.

When it comes to cooking oil, it’s not about the oil itself.

It’s about the process that makes the oil.

You know how the oil is extracted.

The chemical, the physical properties, the chemistry.

All of those factors are present in the oil that you’re buying, and when you take the oil out of the plant, you’re looking for all those elements to be present in it.

So, to extract the oil, you need to know the chemical, you know the physical characteristics of the oil you’re using, and you also need to understand the chemistry of the process.

And those are all things that we’re trying to eliminate in this new technology.

So we have a few different types of oils that we can extract, including olive oil, canola oil, vegetable oil, palm oil, and palm kernel oil.

We’ve been working with the technology company Thermalfoundries to make a new, cheaper, and more efficient oil-extraction process, which is designed to make the extraction process much simpler and more economical than what we had before.

The goal of this process is to get the cost of extracting the oil down to $1.50 per barrel, or $4 per barrel cheaper than what it is today.

The new technology has been designed to be much simpler, which means it’s less expensive to use.

You can buy an oil from an oil company and just extract the water that’s in the water in the petrochemical plant, which you’re going to get for about $10.

Thermafoundries has been developing this new process for a number of years, and they’re using the same process that was used in the production of petrochemicals before the advent of fracking.

The process is really very straightforward.

You’ve got a solvent, like hydrogen peroxide, which gets mixed with a water solution and the oil starts to separate, which allows you to separate the oil from the water.

And then, as the oil separates, the water molecules are going to condense and make the oil more stable.

And the oil will also condense into a pellet that you can then extract.

ThermalfOUNDRIES, which has been around for 30 years, was a pioneer in the process, and it’s a pretty efficient way to extract oil.

It doesn’t involve many chemicals.

It can extract oil for about three months on average, and I think the oil-processing companies that are using it today are just getting started with it.

The process, it looks like this:The oil is just extracted from the petri dishes that they have in their facilities.

But it doesn’t need to be processed like that.

So, instead, the process has a solvent that is very efficient, but that’s going to dissolve the water so that it can’t extract any more oil.

And it’s going back and forth, so the oil does not have to be refined.

The way that this process works is that the oil and water mix in a container that is essentially a cylinder that’s made of plastic and that’s then filled with a solvent.

The solvent, hydrogen peroxides, is a very high-temperature solvent that works in a very specific way.

You don’t need anything more than a little bit of water to get hydrogen peroxy to dissolve, and hydrogen perhydrate is very low in hydrogen.

It just dissolves it, so you can take out the water and start the process over.

And so that solvent, when it’s dissolved, will come back out of it, and that water is going to start to condume into a solid, which it’s then going to do the next step of evaporating and getting back into the oil as a liquid.

This process is called reverse osmosis.

The oil that they are extracting, it comes out of these petri-dishes, which they use to process petro chemicals.

And they use this solvent to separate it from the petroleum byproducts that they make from this petroleum that they process.

So what they’re doing is they’re separating the petroleum from the chemicals that are in the plant by using these reverse osculation systems.

The reverse oosculation is a process that you know from the oil industry, that has a lot of similarities to reverse o-sis, but it’s basically an extraction process that involves separating the oil into water that can then be separated out.

The water, like in the case of the petros, is then separated and then the water condenses, and the water can then condense back into a liquid that you use to extract and then make the petroleum-based fuel that you want.

So the process is pretty simple.

And the process can also be simplified, if you need the process to be.

In the case where you have a petro plant that has