Solar fuels are made using thermochemistry driven by direct heat from the sun In this process, solar thermal energy provides the heat for thermochemical reactions to produce new compounds such as green hydrogen or sustainable aviation fuel. Highly concentrated solar...
Results for "solar fuels thermochemistry"
Researchers propose faster carbon sequestration in mining waste using solar
Australian researchers propose using solar power to capture and store carbon in mining waste. They are doing the first techno-economic assessment and emission analysis of using concentrated solar heat for serpentine activation to produce activated feedstock materials...
A new common language to speed solar hydrogen research
Could the Chemical Potential Analysis method work better than the van't Hoff method? NREL’s Stephan Lany proposes a new common language to help solar thermochemistry researchers select the redox materials that will most efficiently generate green hydrogen. He has...
DOE’s $30 million funding to advance solar fuels from concentrated solar
Solar Energy Technologies Office The U.S. Department of Energy (DOE) Solar Energy Technologies Office (SETO) announced its intent to fund the Concentrating Solar Flux to Heat and Power funding opportunity, which will award up to $30 million for innovative projects...
Vast secures $40 million to build its solar fuel plant at Port Augusta to supply green methanol for shipping
News Source: RenewEconomy The developers of a solar thermal powered methanol production facility that will supply green fuel for shipping and aviation have bedded down $A40 million in funding deals that will underpin construction of the Port Augusta plant, known as...
A solar sulphur cycle to make unlimited thermal energy storage
How a breakthrough solar thermochemistry process that uses direct solar heat to cycle between sulphur and sulphuric acid would generate "virtually unlimited" seasonal thermal energy storage Researchers are now refining a groundbreaking long-duration thermal energy...
Solar pyrolysis for recycling lithium-ion batteries aces Proof of Concept
As a new industry, lithium-ion battery recycling with pyrolysis could be heated by concentrated solar energy from the start One of the hurdles for concentrated solar thermal energy to decarbonize heat-based industrial processes is that most of these industries, from...
Solar fuels efficiency increase from MIT – use multiple reactors
The system as a whole resembles a train of box-shaped reactors running on a circular track. In practice, this track would be set around the solar thermal source. MIT engineers aim to produce totally green, carbon-free hydrogen fuel with a new, train-like system of...
3D-printed ceria is a game-changer to increase solar fuel efficiency
In solar reactors for making solar fuels at high temperatures, ceria's behavior when heated makes it state-of-the-art for unlocking the thermochemistry involved. (How solar fuels are made). But its structure lacks “intelligent design.” So a precisely controlled design...
SolarPACES celebrates the lifetime achievements of Robert Pitz-Paal and Eduardo Zarza
The SolarPACES network, under the auspices of the International Energy Agency (IEA), has presented this year's Lifetime Achievement Award to a duo: Prof. Dr.-Ing. Robert Pitz-Paal from the German Aerospace Center (DLR) and Dr. Eduardo Zarza from the Spanish research...
Solar hydrogen testing begins at CSIRO conference tour site
Tests are underway on a cutting edge renewable hydrogen technology that is being backed by iron-ore billionaire Andrew Forrest to deliver a cheaper and more scalable way to produce the zero emissions fuel using concentrated sunlight.
How can Synhelion’s solar receiver achieve such high temperatures?
Synhelion's solar receiver achieves a temperature of 1,500°C and higher. That's unprecedented. Even the Gen3 particle-based solar receiver being pilot-scale tested now at Sandia - and the DLR CentRec receiver licensed to Heliogen - operate at the (relatively!) lower...
US DOE funds Synhelion to scale up its solar thermal hydrogen
Solar hydrogen is a component of the thermochemical solar fuels that Synhelion is developing commercially, such as aviation fuel The solar thermal green hydrogen technology beginning to be commercialized by Synhelion has now received a nod from the US DOE with funding...
Heat-recovery for a solar reactor is tested at ETH Zürich
Heat-recovery ideas for solar reactors existed as theories “but not to actually go to the lab, build a device and try to make it work.”
Add nickel to ceria for solar syngas at just 700°C
Adding nickel to ceria can yield solar syngas at lower temperatures - at just 700°C Solar thermochemistry researchers at the University of Florida and Synhelion tried a new way to generate syngas, the precursor to hydrocarbon fuels like jet fuel or diesel. Solar...
Water-cooled window for hot solar receivers over 1500°C
Goal: ensure the quartz window never exceeds 300°C, despite solar receiver temperatures above 1500°C – keeping thermal efficiency over 50%
How hot solar aviation fuel (thermochemistry heated by solar mirrors) took off
A “hot solar” tower fuel plant for thermochemical aviation fuel from H2O + CO2 is finally getting news coverage. What was your breakthrough?
Researchers in Australia Investigate Open Vortex Solar Receiver for Thermochemistry at 1000°C
Alumina calcination is one industrial process that could be decarbonized using a 1000°C “hot solar” process
New Sulfur-Based Solar Reactor Makes Cheap Green Hydrogen for Copper Mines
By making solar hydrogen as an industrial service for copper mining the scale is established for mass production
Hot Solar Biomass Gasifier Makes Clean Hydrogen-Rich Syngas
Biomass gasification using steam and oxygen is an already mature technology for extracting hydrogen, which requires heat at above 700°C. To generate the heat for gasification, traditionally, some of the biomass itself is burnt. But this combustion emits several...
Latest In: