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key for specific volume in fluid property plotting data of components is v
instead of vol
#432
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@davidpasquale, thank you for reaching out. I do not really understand what example you are referring to. Could you provide a fully working script to reproduce the erroneous behavior? Thanks |
Hi, here a working example. Kind regards from tespy.components import Sink, Source, HeatExchanger, Condenser
from tespy.connections import Connection
from tespy.networks import Network
from tespy.tools import document_model
import shutil
import numpy as np
from CoolProp.CoolProp import PropsSI as PSI
from CoolProp.CoolProp import AbstractState as AS
from CoolProp import iP_critical, PT_INPUTS, PQ_INPUTS, HmassP_INPUTS
fluids=['Cyclopentane', 'isobutane']
NET = Network(fluids=fluids, T_unit='C', p_unit='bar', h_unit='kJ / kg', iterinfo=True)
SRChot = Source('HOTin')
SNKhot = Sink('HOTout')
SRCcold = Source('CLDin')
SNKcold = Sink('CLDout')
HEX = HeatExchanger('HEX')
ch1 = Connection(SRChot, 'out1', HEX, 'in1')
cc1 = Connection(SRCcold, 'out1', HEX, 'in2')
ch2 = Connection(HEX, 'out1', SNKhot, 'in1')
cc2 = Connection(HEX, 'out2', SNKcold, 'in1')
NET.add_conns(ch1, ch2, cc1, cc2)
p_h1 = 20.0
T_h1 = 200
dp1=6
p_c1 = 30
T_c1 = 80
dp2=15
HEX.set_attr(pr1=(p_h1-dp1)/p_h1, pr2=(p_c1-dp2)/p_c1, ttd_l=20, ttd_u=40,
design=['pr1', 'pr2', 'ttd_l'],
offdesign=['zeta1', 'pr2', 'kA_char'])
ch1.set_attr(fluid={fluids[0]:1, fluids[1]: 0}, T=T_h1, p=p_h1, m=1)
ch2.set_attr()
cc1.set_attr(fluid={fluids[0]:0, fluids[1]: 1}, T=T_c1, p=p_c1)
cc2.set_attr()
NET.solve('design')#, use_cuda=True)
NET.save('tmp')
NET.print_results()
if (NET.iter <=1 or not NET.converged):
print('SOLUTION NOT CONVERGED', NET.iter, NET.converged)
exit()
HOTside_data = HEX.get_plotting_data()[1]
CLDside_data = HEX.get_plotting_data()[2]
print('HOTside plotting data', HOTside_data['starting_point_property'], HOTside_data['starting_point_value'], HOTside_data['ending_point_value'])
print('HOTside connection data', 'v', HEX.inl[0].v.val, HEX.outl[0].v.val)
print('HOTside connection data', 'v', ch1.v.val, ch2.v.val)
print('CLDside plotting data', CLDside_data['starting_point_property'], CLDside_data['starting_point_value'], CLDside_data['ending_point_value'])
print('CLDside connection data', 'v', HEX.inl[1].v.val, HEX.outl[1].v.val)
print('CLDside connection data', 'v', cc1.v.val, cc2.v.val) |
Ah I see... The data are correct. The I guess there was a renaming a long time ago or something and I did not check the compability with fluprodia... |
v
instead of vol
Thank you!!! you are right! |
Hi,
first of all, I thank you for the great work you are doing.
I just started with the library and it seems very well thought out and structured.
Could you please check the properties present in the connections of a HeatExchanger in the cold branch? In my opinion p, T, h are correct, v is wrong (other properties I have not checked). Thank you
I mean:
HEX.inl[1].v.val and
HEX.outl[1].v.val
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