the research consultancy for energy technologies
…with AC, to store coolness (e.g., during peak wind/solar generation), then re-release the coolness at ‘peakload’, (e.g., in mid-late afternoon, or after sunset). $399.00 – Purchase Checkout Added to cart The flagship…
…than all wind and solar energy in 2021 combined). $399.00 – Purchase Checkout Added to cart The CO2 intensity of producing corn averages 0.23 tons/ton, or 75kg/boe. This is relatively low, compared…
…Europe, because silver is an important component in the front contacts of solar cells. Market sizing. Over 1.1MTpa of hydrogen cyanide is produced each year. Approximately half is used in…
…solar to displace the equivalent of 14 bcfd from Europe’s 45bcfd gas market by 2030 (page 2). Who is in the firing line to be displaced? Russia’s gas supplies to…
…up non-valuable co-associated rocks, which requires 400 kWh/ton to reach an average temperature of 1,350ºC. (8) Silicon stands out for its ridiculously high energy intensity. We think that making solar…
…for power electronics, in order to integrate volatile wind and solar resources into grids, protect sensitive equipment and electrify more industrial and consumer processes. We have written excitedly about power…
…transition. This is easier with an energy surplus. In the short term, building renewables and EVs consumes net energy (solar case study here). There are also materials bottlenecks. And CCS,…
…is by AGC. In another back-up tab to this fluorinated polymers company screen, we have aggregated data from DuPont, suggesting that over 16% of solar panels deployed in the field…
…It is used to make fluorinated polymers, as feature in solar, batteries, wind and power cables. It is used to make cryolite, for aluminium refining, as is necessary for long-distance…
…pumps. But the main pull on the fluorinated chemicals chain is going to be coming from batteries and solar, as explored in our recent fluorinated polymers research. Leading Western companies…