1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
|
from OMChem.EngStm import EngStm
class ShortcutColumn():
counter = 1
def __init__(self,name='ShortCol',condP = None, rebP = None, LKey = None, HKey = None):
self.condP = condP
self.rebP = rebP
self.LKey = LKey
self.HKey = HKey
self.LKeyMolFrac = None
self.HKeyMolFrac = None
#self.name = name[0]
self.name = name + str(ShortcutColumn.counter)
self.OM_data_eqn = ''
self.OM_data_init = ''
self.InputStms = None
self.OutputStms = None
self.EngStm1 = EngStm(name='EngStm1'+self.name)
self.EngStm2 = EngStm(name='EngStm2'+self.name)
#self.count = name[1]
self.count = ShortcutColumn.counter
self.condType=''
self.actR = None
self.thermoPackage='Raoults_Law'
self.type = 'ShortCol'
# new
self.no_of_input = 1
self.no_of_output = 2
ShortcutColumn.counter += 1
def getname(self):
return self.name
def modesList(self):
return []
def paramgetter(self,mode=None):
dict = { "HKey" : None,"LKey" :None,"HKeyMolFrac":None,"LKeyMolFrac":None,"condType":None,"thermoPackage":None,"condP":None,"rebP":None,"actR":None}
return dict
def paramsetter(self,dict):
self.HKey = dict["HKey"]
self.LKey = dict["LKey"]
self.HKeyMolFrac = dict["HKeyMolFrac"]
self.LKeyMolFrac=dict["LKeyMolFrac"]
self.condP=dict["condP"]
self.rebP=dict["rebP"]
self.actR=dict["actR"]
self.condType=dict["condType"]
self.thermoPackage=dict["thermoPackage"]
def connect(self,InputStms = None,OutputStms = None):
self.InputStms = InputStms
self.OutputStms = OutputStms
def OM_Flowsheet_Init(self, addedcomp):
self.OM_data_init = ''
self.OM_data_init = self.OM_data_init + ("model sc"+str(self.count)+"\n")
self.OM_data_init = self.OM_data_init + ("extends Simulator.Unit_Operations.Shortcut_Column;\n" )
self.OM_data_init = self.OM_data_init + ("extends Simulator.Files.Thermodynamic_Packages."+self.thermoPackage+";\n")
self.OM_data_init = self.OM_data_init + ("end sc"+str(self.count)+";\n")
comp_count = len(addedcomp)
self.OM_data_init = self.OM_data_init + "sc"+str(self.count)+ " " + self.name + "(Nc = " + str(comp_count)
self.OM_data_init = self.OM_data_init + (",comp = {")
comp = str(addedcomp).strip('[').strip(']')
comp = comp.replace("'", "")
self.OM_data_init = self.OM_data_init + comp + ("},")
self.OM_data_init = self.OM_data_init + 'condType = ' + "\""+self.condType+"\""+','
self.OM_data_init = self.OM_data_init + 'HKey = ' + str(self.HKey) +','
self.OM_data_init = self.OM_data_init + 'LKey = ' + str(self.LKey) + ');\n'
self.OM_data_init = self.OM_data_init + 'Simulator.Streams.Energy_Stream '+self.EngStm1.name+';\n'
self.OM_data_init = self.OM_data_init + 'Simulator.Streams.Energy_Stream '+self.EngStm2.name+';\n'
return self.OM_data_init
def OM_Flowsheet_Eqn(self, addedcomp):
self.OM_data_eqn = ''
self.OM_data_eqn = self.OM_data_eqn + ('connect(' + self.name + '.reboiler_duty,' +self.EngStm1.name +'.outlet);\n')
self.OM_data_eqn = self.OM_data_eqn + ('connect(' + self.EngStm2.name+'.inlet,' + self.name + '.condenser_duty);\n')
self.OM_data_eqn = self.OM_data_eqn + ('connect(' + self.name + '.distillate,' + self.OutputStms[0].name + '.inlet);\n')
self.OM_data_eqn = self.OM_data_eqn + ('connect(' + self.name + '.bottoms,' + self.OutputStms[1].name + '.inlet);\n')
self.OM_data_eqn = self.OM_data_eqn + ('connect(' + self.InputStms[0].name + '.outlet,' + self.name + '.feed);\n')
self.OM_data_eqn = self.OM_data_eqn + self.name +'.rebP = ' + self.rebP + ';\n'
self.OM_data_eqn = self.OM_data_eqn + self.name +'.condP = ' + self.condP + ';\n'
self.OM_data_eqn = self.OM_data_eqn + self.name +'.mixMolFrac[2,'+self.name+'.LKey]='+self.LKeyMolFrac+ ';\n'
self.OM_data_eqn = self.OM_data_eqn + self.name +'.mixMolFrac[3,'+self.name+'.HKey]='+self.HKeyMolFrac+ ';\n'
self.OM_data_eqn = self.OM_data_eqn + self.name +'.actR=' + self.actR + ';\n'
return self.OM_data_eqn
|
