ChEn-3170: Computational Methods in Chemical Engineering Spring 2024 UMass Lowell; Prof. V. F. de Almeida 17Jan24
your name
¶Context | Points |
---|---|
Precision of the answer | 80% |
Answer Markdown readability | 10% |
Code readability | 10% |
lastname-firstname-labwork-xx.ipynb
NB: Please note lowercase.
Answer:
Answer:
Code block:
Description:
'''Code'''
'''Code'''
'''Code'''
'''Code'''
'''Code'''
Explanation:
'''Code'''
Explanation:
Property | Variable | Value | Unit |
---|---|---|---|
system volume | $V$ | 0.25 | $\text{m}^3$ |
mass density | $\rho$ | 1010 | kg/$\text{m}^3$ |
heat capacity | $C$ | 4184 | J/(kg K) |
temperature difference | $\Delta T$ | 78.5 | K |
flow residence time | $\tau$ | 25 | s |
'''Code'''
Heat generation density = 331.72844 [MJ/m^3] Volumetric flow rate = 10.0 [L/s] Heating power = 3.3172843999999997 [MW]
Explanation:
'''Code'''
Explanation:
import matplotlib.pyplot as plt
plt.plot(range(5,13), range(1,9))
plt.ylabel('y')
plt.xlabel('x')
plt.show()
'''Code'''
Description and troubleshooting: