UK firm develops jet fuel made from human poo | The starting material is generated in excess and available in plenty. It is a win-win for everyone that the waste is repurposed.::undefined
UK firm develops jet fuel made from human poo | The starting material is generated in excess and available in plenty. It is a win-win for everyone that the waste is repurposed.::undefined
Is this another one of these “eco-fuels” that take about ten times the energy they store just to produce them, and no one will tell you where that energy will come from?
I mean if you can get it from actually good sources (solar, geothermal) where that type of energy is in excess then use ships powered by it to transfer it around the world is that a huge problem?
It might be, if it’s more efficient to use that energy for some other option.
I mean, if we can’t build more high speed rail, planes will be used. And they’re the largest contributor in transportation, right? Or at least the highest output/least efficient means of travel. Eliminating a huge contributor is a good thing.
Of course there would be other things that are worth curbing, but I don’t think we should shit on (eh?) killing emissions from a large contributor.
No, see if it’s not the perfect solution to literally everything then it’s just not gonna work. /s
Well, I’ve always wondered what would happen after humanity burns through all fossil fuels on the planet, if flight and space flight would be impossible. So at least it seems like it’s possible with renewable resources.
It’s comforting that future generations will still be able to reach for the stars in doo doo rockets.
Based on the (almost no) data available here, this does seem likely to be a lot of steps and a lot of energy required just to turn the poop into the substitute for crude oil, and then do all the standard further refining of that into jet fuel. I’d be very dubious about the actual real-world value until some magical further data is shared, because this innovation surely won’t help anyone if the fuel it makes is more expensive than regular jet fuel.
I’d be completely unsurprised to learn they were using thermal depolymerization. The process was patented about 30 years ago and can take just about any organic material and turn it into essentially light oil. When there was a plant testing it with turkey carcasses in the US, way back in 2003, it was competitive with oil production costs, provided that turkey guts cost less than $20/ton and oil cost more than $80/barrel.
I have been saying we should use this for waste treatment plants since they first started testing this. The water we get at the end is more pure; drugs, most chemicals, and germs are broken down; and we get a saleable product at the end. Depending on the cost to build and run, we could get a better result for less money.
Now, let’s talk about the efficacy of converting human remains and the price of cemetery plots…
I mean seriously but yes crematoriums should be hooked up to district heating, apparently they don’t even use much energy if you operate them right. There’s a slow-burning trend in Germany to move from traditional cemeteries to dedicated forest plots: First you get cremated, then put in a biodegradable urn, then buried under a specific tree. Unmarked, but it’s in a register somewhere so next of kin can find it.
I’m thinking a step past cremation, where oil and solid fertilizer is produced. So harvest the oil and fill that urn with the non-hydrocarbon solids, and go from there.
The energy comes from excess generation in renewables for load balancing, that base load thing people mistakenly say they can’t do.
It’s clever and simple, you put a whole load of potential generation in knowing that to meet your essential and desired demand on low generation days you’ll need excess capacity which will over produce on high generation days. You then plug that in to a system which has tanks of feedstock in this case poo and empty storage capacity so that in peek generation periods it can run at maximum, when it’s only a little over the requested load it runs at limited power and if there’s a time with no excess power it turns off for a bit.
That’s why all the carbon capture and processing facilities are focusing on modular parallel design, it’s very easy then to create scalable production tied to excess load.
Of course this is only one of the many possibilities, the nuclear lovers want to build nuclear powered sequestration and processing facilities, Iceland made one using geothermal, the American one is wind and the proposed Saudi one trailer about being solar thermal.
Oh and actually the efficiency is incredibly impressive now, with some of the active catalyst chemistry they’re developing we’re getting into heat pump style efficiency gains and it’ll looking more likely we’ll be able to go below parity in cost per gallon Vs mined hydrocarbons.
I know it feels like people never explain the complex side of things but that’s because journalists are bad at their jobs, there’s whole organisations out there dedicated to this sort of planning and a lot of the stuff they talk about and work towards ia incredibly well thought out and sensible.