Carbon capture and storage (CCS) is proving very expensive. So rather than simply store the CO2 underground it’s better to turn it into something that you can sell. Hence, much work is being directed at turning CO2 into transportation fuels or chemical feedstocks by focussing on the science of reactive materials: the other chemicals in the soup, using different catalysts, and even designing the right nanostructures to maximise the results. MIT’s … [Read more...]
New research into Catalysts can boost Hydrogen manufacture
Catalysts are materials used to enable and accelerate a chemical reaction. There is a long history of using them in industry to manufacture different hydrocarbons, ammonia, sulfuric acid, and the list goes on. By choosing your materials well and tinkering with the structure at the molecular level, the catalyst can greatly improve the efficiency of the conversion process. Glennda Chui at the SLAC National Accelerator Laboratory describes how their … [Read more...]
Quantum Well solar cell sets new record for converting light to energy
There’s a new world-record for two-junction solar cells, converting 32.9% of sunlight into electricity. Although it’s only a small improvement on the previous record of 32.8% it uses a design that should lead to even greater performance. NREL, in collaboration with the University of New South Wales (Australia), has built a cell consisting of a series of more than 150 ultrathin layers of alternating semiconductors that create quantum wells which … [Read more...]
Solar power stations in space that beam uninterruptible power back to Earth
It’s still on the drawing board, but putting solar farms into orbit has obvious advantages. The power is 24/7, and no sunlight is lost through the atmosphere. But there are two big challenges. Amanda Jane Hughes and Stefania Soldini at the University of Liverpool explain how the European Space Agency, the California Institute of Technology, the Japan Aerospace Exploration Agency, and Xidian University in China, among others, are attempting to … [Read more...]
Waste-to-Energy is underperforming. Whole-energy-system simulator can uncover the bottlenecks
The potential for Waste-to-Energy (WTE) in the U.S. is 674 TWh/year, roughly 8% of the energy used by the transportation sector. However, for reasons not easily understood, many WTE technologies struggle to make it to commercial scale. Researchers at NREL have built a first-of-a-kind simulation model, WESyS, to create scenarios and understand where the bottlenecks are. The whole-energy system is always complex. The WESyS simulation modules … [Read more...]
- « Previous Page
- 1
- …
- 10
- 11
- 12
- 13
- 14
- …
- 47
- Next Page »
![](https://energypost.eu/wp-content/themes/dynamik-gen/images/content-filler.png)