Thermal Equilibrium Reaction Data: CH4, C2H6, C3H8, C4H10, N2, CO2, H2O, Study notes of Engineering

Thermal equilibrium reaction data for the given reactants and products including their molar quantities, temperatures t1 and t2 in degrees celsius, and the heat of reaction at 25 degrees celsius. Reactions 1 to 4 are listed with their respective delta h2 values and total heat of reaction.

Typology: Study notes

2019/2020

Uploaded on 06/14/2020

kaavya-priyan
kaavya-priyan 🇲🇾

4 documents

1 / 1

Toggle sidebar

This page cannot be seen from the preview

Don't miss anything!

bg1
Reactants a b c d Mols
in
T1 (degre
e Celsius)
T2 (degre
e Celsius)
CH434.31
0.05469
0.00000366
1 -0.000000011 37.599 25 25
C2H649.37 0.1392 -0.0002554 6.866E-08 4.338 25 25
C3H868.032 0.2259 -0.0001311 3.171E-08 2.410 25 25
C4H10 92.3 0.2788 -0.0001547 3.498E-08 0.964 25 25
So, Tad = 5313.09 Degree Celsius
Products a b c d Mols
out
T1 (degre
e Celsius)
T2 (degre
e Celsius)
N229 0.00219
9
0.00000572
3 -2.871E-09
410.35
8 25 5313.09
CO236.11 0.04233 -0.00002887 7.464E-09 58.807 25 5313.09
H2O 33.46
0.00688
0.00000760
4 -3.593E-09
118.41
7 25 5313.09
Rxn 1 Rxn 2 Rxn 3 Rxn 4
Heat of
reaction at
25 (Degree
Celsius)
-802.33 -1427.823 -2044 -2658.42 -6932.57 J delta H2
Total heat
of reaction
( Q = 0)
-5.50899E-08 J

Partial preview of the text

Download Thermal Equilibrium Reaction Data: CH4, C2H6, C3H8, C4H10, N2, CO2, H2O and more Study notes Engineering in PDF only on Docsity!

Reactants a b c d Mols in T1 (degre e Celsius) T2 (degre e Celsius) CH 4 34.

C 2 H 6 49.37 0.1392 -0.0002554 6.866E-08 4.338 25 25

C 3 H 8 68.032 0.2259 -0.0001311 3.171E-08 2.410 25 25

C 4 H 10 92.3 0.2788 -0.0001547 3.498E-08 0.964 25 25

So, Tad = 5313.09 Degree Celsius Products a b c d Mols out T1 (degre e Celsius) T2 (degre e Celsius) N 2 29 0. 9

3 -2.871E-

CO 2 36.11 0.04233 -0.00002887 7.464E-09 58.807 25 5313.

H 2 O 33.

4 -3.593E-

Rxn 1 Rxn 2 Rxn 3 Rxn 4 Heat of reaction at 25 (Degree Celsius) -802.33 -1427.823 -2044 -2658.42 -6932.57 J delta H Total heat of reaction ( Q = 0)

-5.50899E-08 J