Sounds interesting; I'd be up for some of this.
https://www.springwise.com/innovation/a ... m-the-air/
Suff wrote:The energy required for this CO2 conversion, if using it for fuel, could power 9 times as many battery EV vehicles, avoiding at least 5 times the emissions compared to running FF vehicles. If not more.
Workingman wrote:Planting 1bn trees, eh - easy!
You have links to peer reviewed papers to your claims - facts and figures - or are they made up?
Suff wrote:I'm just not going to present these figures any more, they are never read, always discarded and it is extremely irksome to go back through them over and over again.
Generally the number of trees planted per hectare will vary from 1,000 to 2,500 trees, but the number will vary hugely, depending on the species and the type of planting.
A native, mixed woodland could contain around 1,600 trees per hectare
Scotland’s forest and woodland area now covers more than 1.4 million hectares (ha)
Over the last five years we have created over 4,000 hectares of new woodlands (roughly 3,000 football pitches). That’s new areas of forests where previously trees weren't growing. We’ve also replanted an area of 32,500 hectares (an area larger than Malta). Most of the trees that we establish are grown in nurseries and planted out as saplings. But, a significant and increasing number are grown naturally from seed in the forest. This is a process we call ‘natural regeneration’. In 2021, we’re establishing 5 trees for every person in Scotland, around 25 million in total.
Capturing CO2 emissions using direct-air-capture (DAC) technology requires almost as much energy as that contained in the fossil fuels that produced the carbon dioxide in the first place, according to new analysis.
Stanford engineers create a catalyst that can turn carbon dioxide into gasoline 1,000 times more efficiently
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Cargnello and his team took seven years to discover and perfect the new catalyst. The hitch: The longer the hydrocarbon chain is, the more difficult it is to produce. The bonding of carbon to carbon requires heat and great pressure, making the process expensive and energy intensive.
CO2 (black and red) and hydrogen molecules (blue) react with the help of a ruthenium-based catalyst. On the right, the uncoated catalyst produces the simplest hydrocarbon, methane. On the left, the coated catalyst produces longer chain hydrocarbons, like butane, propane and ethane. (Image credit: Chih-Jung Chen)
In this regard, the ability of the new catalyst to produce gasoline from the reaction is a breakthrough, said Cargnello. The reactor in his lab would need only greater pressure to produce all the long-chain hydrocarbons for gasoline, and they are in the process of building a higher pressure reactor.
Gasoline is liquid at room temperature and, therefore, much easier to handle than its gaseous short-chain siblings – methane, ethane and propane – which are difficult to store and prone to leaking back into the skies. Cargnello and other researchers working to make liquid fuels from captured carbon imagine a carbon-neutral cycle in which carbon dioxide is collected, turned into fuel, burned again and the resulting carbon dioxide begins the cycle anew.
What is the Thermal Efficiency of a Gasoline Engine Versus a Diesel Engine?
The thermal efficiency of a gasoline engine is extremely low. While there are companies making strides to improve the thermal efficiency of gasoline engines, to even match the combustion efficiency of older diesel engines is extremely difficult. According to Toyota, a company attempting to increase the thermal efficiency of its vehicles, “Most internal combustion engines are incredibly inefficient at turning fuel burned into usable energy. The efficiency by which they do so is measured in terms of ‘thermal efficiency’, and most gasoline combustion engines average around 20 percent thermal efficiency.
Diesel typically has a higher thermal efficiency, a thermal efficiency approaching 40 percent in some cases. Toyota is in the process of developing a new gasoline engine which the company claims have a maximum thermal efficiency of 38 percent, a thermal efficiency that is “greater than any other mass-produced combustion engine.”
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