If you limited your exhaust gas temperature to 130 °c, at 1 atm pressure, what
difference in v...
Chemistry, 25.09.2019 01:00 darenl2163
If you limited your exhaust gas temperature to 130 °c, at 1 atm pressure, what
difference in volumetric flow rate of gas would be produced between complete
combustion of 1 kg/hr of each fuel, with 15% excess air (no recycle), using your
calculations and assumptions made in q8?
use 1 kg/hr biogas as the fuel in the combustion chamber, and 15% excess air as the
flowrate of m3. the membrane is setup to retain all the n2 and allow all the o2 to pass
through. the exhaust gas composition was measured and found to contain ch4, co,
co2, n2, o2 and h2o, with the single pass conversion of ch4 of 55%.
using element balances, what is the orsat analysis of your exhaust gas if the ratio of
co2/co in the exhaust is 4: 1? give your answers in mol %.
Answers: 3
Chemistry, 22.06.2019 02:30, rileyeddins1010
List four observations that indicate that a chemical reaction may be taking place
Answers: 1
Chemistry, 22.06.2019 20:00, 20calzoy
There are two steps in the usual industrial preparation of acrylic acid, the immediate precursor of several useful plastics. in the first step, calcium carbide and water react to form acetylene and calcium hydroxide: cac2 (s) + 2h2o (g) → c2h2 (g) + caoh2 (s) =δh−414.kj in the second step, acetylene, carbon dioxide and water react to form acrylic acid: 6c2h2 (g) + 3co2 (g) + 4h2o (g) → 5ch2chco2h (g) =δh132.kj calculate the net change in enthalpy for the formation of one mole of acrylic acid from calcium carbide, water and carbon dioxide from these reactions. round your answer to the nearest kj .
Answers: 3
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