The first item on the list should be advanced studies and prototypes for stoichiometric mixture ratio rocket engines. ❋ Unknown (2009)
First, and most importantly, the effect of CO2 is stoichiometric, not catalytic; that is, its warming contribution is a linear function of its partial pressure. ❋ Unknown (2010)
As a result you not only need a bigger fuel tank for hydrogen, because you have to burn 3 times as much to release the same amount of energy, you also need much bigger engines, since the amount of fuel you can burn is directly linked to the amount of air passing through the engine (stoichiometric ratio) ❋ Unknown (2008)
Most compounds are stoichiometric, i.e., consist of elements in integral ratios, which for Cu and S would be 1:1 or 2:1. ❋ Unknown (2010)
Cuprous sulfide, it happens, is non-stoichiometric, and corresponds to a Cu:S ratio of 1.88:1 IIRC. ❋ Unknown (2010)
I'm confused because I thought amount of cathode or anode you put into a battery was dependent on the stoichiometric amount needed for the anode and cathode to be used up completely in a reaction, not on the capacity for the battery you are making. ❋ Venkat's Energy Blog (2010)
Students, expecting stoichiometry, nudged their results toward a stoichiometric result, with most rounding up to 2:1, but some rounding down to 1:1. ❋ Unknown (2010)
Not to mention that you add a slight excess of the stoichiometric requirement to completely adsorb the sulfur in the coal. ❋ Unknown (2009)
Because LFTR operates at higher temperatures, the carnot efficiency of the turbine goes up by about 50% (as measured in power electrical per power stoichiometric). ❋ Richard Martin (2009)
A stoichiometric combustion of kerosene, generally regarded as dodecane, for example ... ❋ Unknown (2008)
In principle a great idea, stoichiometric combustion all the way to water and CO2, condense the water out, compress the CO2 and pump down to where it's not going to come out again unless we need to use it in a few million years to reheat the atmosphere, because all the fossil fuels are gone, and the the renewable guys still haven't got there act together.. ❋ EliRabett (2008)
The separation of O2 from N2 in the air doesn't produce pure O2 if you want to be cheap, and you have to go higher than stoichiometric anyway to ensure complete combustion. ❋ EliRabett (2008)
According to geologists writing in the 24 October 2008 issue of “Science” page 540, all of the oxygen in the air corresponds to a stoichiometric sequestration of organic carbon by geological processes. ❋ Unknown (2008)
Chrysotile is a hydrated magnesium silicate and its stoichiometric chemical composition may be given as Mg3Si2O5 (OH) 4. ❋ Unknown (2007)
The pK*'s (= − log (K*)) of the stoichiometric dissociation constants of carbonic acid in seawater are pK*1 = 5.94 and pK*2 = 9.13 at temperature T = 15°C, salinity S = 35, and surface pressure P = 1 atm on the total pH scale. ❋ Unknown (2006)
Various stoichiometric organometallic insertion reactions were also discovered, but their use is so far not practical. ❋ Unknown (1999)
The highest value is near the stoichiometric air/fuel ratio, mostly at an excess air ratio of 0.8 ... ❋ Unknown (1988)
Properties of various fuels fuel density calorific value (kJ/kg) ignitability ignition temperature in air (°C) stoichiometric air/fuel ratio (kg/kg) methane no. ❋ Unknown (1988)
A simple filter in the form of a larger container filled with washed rubble or a tissue filter with no measurable pressure loss is recommendable in any system. initial H2S content stoichiometric amount of oxygen as vol. % of biogas production stoichiometric amount of air as vol % of biogas production in ppm in vol. % ❋ Unknown (1988)
For complete combustion a certain relation between the amount of fuel and of oxygen or air is required, the "stoichiometric ratio". ❋ Unknown (1988)