the research consultancy for energy technologies
…and the Clausius-Clapeyron Equation. High energy density is shown for methane, less so for hydrogen and ammonia. CO2, nitrogen, argon and water are also captured. $499.00 – Purchase Checkout Added to cart…
…heat >1,000◦C (chart below). The full data-file includes estimates of global energy demand across almost fifty end uses: agriculture, air conditioning, air separation, aluminium, ammonia, asphalt, aviation, bleach, buses, cement,…
…provide a lot of thrust. But you also need to get the plane into the air (like pulling information from memory), keep it in the air (refreshing data in DRAM)…
There has been a remarkable reduction in the negative air quality impacts of combustion vehicles since 1970, as quantified in this data-file and over time. Vehicle emissions of CO, NOx…
…air is compressed over 20 stages to 20 bar of pressure, super-heated to 1,250ºC and 100 bar of pressure, then these super-hot, super-pressurized gases expand across 4-5 stages of turbine…
…1.1 c/kWh-th. Thus the excess cost of natural gas was around 0.4 c/kWh-th. Directly substituting coal fuel for gas fuel therefore incurred a cost of $20/ton of CO2 that was…
…useful. It will naturally flow wherever you direct it, without needing to be compressed using a capex-intensive, maintenance intensive and energy-intensive compressor. But it also makes the energy economics more…
…The biggest uncertainty, in our view, is over cell voltages. Today’s lithium ion batteries run at an average mid-point of 3.6V. Energy density is a direct linear function of voltage….
…looking profession-by-profession across the entire US labor force, and considering new technologies (pages 9-13). Direct energy impacts save 1bn tons of annual CO2. Impacts on oil, gas and electricity demand…
…CCS. They include direct electricity use (e.g., for CO2 compression in pipelines and disposal facilities). And they include thermal loads in the amine reboiler, absorbing heat that could otherwise have…