Is more carbon dioxide (co –2) It would be surprising to use these carbon atoms more useful in these days in the environment than ever before, and when using these carbon atoms, copeting participants would be amazing.2 Directly is not so easy with the air. It would also be great after seizing it if you can do anything other than fill it in a large hole. Like to develop Syngas (CO + h2) For example, As demonstrated Cambridge University researchers.
Among the improvement Claimed in paper As has been published The energy of nature For this direct air arrest and use (DACCU) approach is that it does not need pure CO2 The feed stock, but the solid silica will absorb it directly from the air passing above the amin’s bed. After absorbing, co –2 The concentrated light can be released once again. The change in syngas then consists of silica/alumina-tightenia cobalt base (tarpaidine), which acts as photocatharyst.
At night, the use of the use scenario will absorb CO2, in which the focused solar power releases the day with production later. Inlet Air will be passed only before the inlet shut down the inlet during the phase of the cingujus. As a lab -proof -off concept it seems that it works well, which is practically taken out of all partners2 And the proportion of much conversion from the partner2 to syngas.
syngas Historically, it has been used as an alternative to gasoline, but is also used by hydrogen (such as natural gas steam reform (SMR)), where it is also used to manufacture methanol as a precursor to iron ore, as well as the precision of many industrial processes. Whether this DACCU approach provides a viable alternative to SMR and once this technology moves from the lab to the real world, other existing technologies will be clear.
Thanks [Dan] For the tip
