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from OMChem.Flowsheet import Flowsheet
from OMChem.MatStm import MatStm
from OMChem.UnitOprns import UnitOpr
from OMChem.EngStm import EngStm
from Graphics import Graphics
from PyQt5.QtCore import *
from PyQt5.QtWidgets import *
from PyQt5.QtGui import QTextDocument ,QTextCursor ,QTextCharFormat ,QFont ,QPixmap
from PyQt5.uic import loadUiType
from PyQt5.QtCore import Qt
from PyQt5.QtWidgets import QGraphicsProxyWidget, QGraphicsObject, QGraphicsEllipseItem ,QGraphicsPixmapItem,QApplication, QGraphicsView, QGraphicsScene, QHBoxLayout, QWidget, QLabel
from PyQt5.QtGui import QBrush ,QTransform ,QMouseEvent
from PyQt5.QtGui import *
import PyQt5.QtCore as QtCore
import PyQt5.QtWidgets as QtWidgets
from component_selector import *
class HeaterClass():
counter = 1
def __init__(self,name='Heater',pressDrop = None, eff = None):
self.OM_data_eqn = ''
self.OM_data_init = ''
self.InputStms = []
self.OutputStms = []
self.name = name + str(HeaterClass.counter)
self.mode = None
self.modeVal = None
self.type = 'Heater'
self.pressDrop = pressDrop
self.eff = eff
self.no_of_inputs = 1
self.no_of_outputs = 1
self.x = 2500-30
self.y = 2500-30
self.addedcomp = None
self.extra = None
self.Prop = {
'pressDrop':None,
'eff':None,
'outT':None,
'tempInc':None,
'heatAdd':None,
}
HeaterClass.counter+=1
def modesList(self):
return ["heatAdd","outT","outVapPhasMolFrac","tempInc","enFlo"]
def paramgetter(self,mode="heatAdd"):
self.mode = mode
dict = {"pressDrop":None,"eff":None,self.mode:None}
return dict
def add_compounds(self,addedcomp):
self.addedcomp = addedcomp
def paramsetter(self,dict):
self.pressDrop = dict['pressDrop']
self.eff = dict['eff']
self.modeVal = dict[self.mode]
def connect(self,InputStms,OutputStms):
self.InputStms = InputStms
self.OutputStms = OutputStms
def add_connection(self,flag,UnitOpr):
if flag==1:
# Input stream if flag is 1
self.InputStms.append(UnitOpr)
print("INPUT CONNECTION")
else :
print("OUTPUT CONNECTION")
self.OutputStms.append(UnitOpr)
def send_to_flowsheet(self,addedcomp):
self.addedcomp = addedcomp
parameters = [['pressDrop',self.pressDrop],['eff',self.eff]]
Inst = UnitOpr(self.name,HeaterClass.counter,'Heater',parameters,self.mode,self.modeVal,False,None,self.extra,None,self.no_of_inputs,self.no_of_outputs)
Inst.connect(self.InputStms,self.OutputStms)
return Inst
class CoolerClass():
counter = 1
def __init__(self,name='Cooler',pressDrop = None, eff = None):
self.OM_data_eqn = ''
self.OM_data_init = ''
self.InputStms = []
self.OutputStms = []
self.name = name + str(CoolerClass.counter)
self.mode = None
self.modeVal = None
self.type = 'Cooler'
self.pressDrop = pressDrop
self.eff = eff
self.no_of_inputs = 1
self.no_of_outputs = 1
self.x = 2500-30
self.y = 2500-30
self.addedcomp = None
self.extra = None
self.Prop = {
'pressDrop':None,
'eff':None,
'outT':None,
'tempDrop':None,
'heatRem':None,
}
HeaterClass.counter+=1
def modesList(self):
return ["heatRem","outT","outVapPhasMolFrac","tempDrop","enFlo"]
def paramgetter(self,mode="heatRem"):
self.mode = mode
dict = {"pressDrop":None,"eff":None,self.mode:None}
return dict
def add_compounds(self,addedcomp):
self.addedcomp = addedcomp
def paramsetter(self,dict):
self.pressDrop = dict['pressDrop']
self.eff = dict['eff']
self.modeVal = dict[self.mode]
def connect(self,InputStms,OutputStms):
self.InputStms = InputStms
self.OutputStms = OutputStms
def add_connection(self,flag,UnitOpr):
if flag==1:
# Input stream if flag is 1
self.InputStms.append(UnitOpr)
print("INPUT CONNECTION")
else :
print("OUTPUT CONNECTION")
self.OutputStms.append(UnitOpr)
def send_to_flowsheet(self,addedcomp):
self.addedcomp = addedcomp
parameters = [['pressDrop',self.pressDrop],['eff',self.eff]]
Inst = UnitOpr(self.name,CoolerClass.counter,'Cooler',parameters,self.mode,self.modeVal,False,None,self.extra,None,self.no_of_inputs,self.no_of_outputs)
Inst.connect(self.InputStms,self.OutputStms)
return Inst
class AdiaCompClass():
counter = 1
def __init__(self,name='AdiaComp', eff = None):
self.OM_data_eqn = ''
self.OM_data_init = ''
self.InputStms = []
self.OutputStms = []
self.name = name + str(AdiaCompClass.counter)
self.mode = None
self.modeVal = None
self.type = 'AdiaComp'
self.thermoPackage ="Raoults_Law"
#self.pressDrop = pressDrop
self.eff = eff
self.no_of_inputs = 1
self.no_of_outputs = 1
self.x = 2500-30
self.y = 2500-30
self.addedcomp = None
self.extra = ['Adiabatic_Compressor']
AdiaCompClass.counter+=1
def modesList(self):
return ["pressInc","outP","reqPow"]
def add_compounds(self,addedcomp):
self.addedcomp = addedcomp
def paramgetter(self,mode="pressInc"):
self.mode = mode
dict = {"eff":None,self.mode:None,"thermoPackage":None}
return dict
def paramsetter(self,dict):
self.eff = dict['eff']
self.modeVal = dict[self.mode]
def add_connection(self,flag,UnitOpr):
if flag==1:
# Input stream if flag is 1
self.InputStms.append(UnitOpr)
print("INPUT CONNECTION")
else :
print("OUTPUT CONNECTION")
self.OutputStms.append(UnitOpr)
def connect(self,InputStms = None,OutputStms = None):
self.InputStms = InputStms
self.OutputStms = OutputStms
def send_to_flowsheet(self,addedcomp):
self.addedcomp = addedcomp
parameters = [['eff',self.eff]]
Inst = UnitOpr(self.name,AdiaCompClass.counter,'AdiaComp',parameters,self.mode,self.modeVal,True,self.thermoPackage,self.extra,None,self.no_of_inputs,self.no_of_outputs)
Inst.connect(self.InputStms,self.OutputStms)
return Inst
class AdiaExpClass():
counter = 1
def __init__(self,name='AdiaExp', eff = None):
self.OM_data_eqn = ''
self.OM_data_init = ''
self.InputStms = []
self.OutputStms = []
self.name = name + str(AdiaExpClass.counter)
self.mode = None
self.modeVal = None
self.type = 'AdiaExp'
self.thermoPackage ="Raoults_Law"
#self.pressDrop = pressDrop
self.eff = eff
self.no_of_inputs = 1
self.no_of_outputs = 1
self.x = 2500-30
self.y = 2500-30
self.addedcomp = None
self.extra = ['Adiabatic_Expander']
AdiaExpClass.counter+=1
def modesList(self):
return ["pressDrop","outP","genPow"]
def add_compounds(self,addedcomp):
self.addedcomp = addedcomp
def paramgetter(self,mode="pressDrop"):
self.mode = mode
dict = {"eff":None,self.mode:None,"thermoPackage":None}
return dict
def paramsetter(self,dict):
self.eff = dict['eff']
self.modeVal = dict[self.mode]
def add_connection(self,flag,UnitOpr):
if flag==1:
# Input stream if flag is 1
self.InputStms.append(UnitOpr)
print("INPUT CONNECTION")
else :
print("OUTPUT CONNECTION")
self.OutputStms.append(UnitOpr)
def connect(self,InputStms = None,OutputStms = None):
self.InputStms = InputStms
self.OutputStms = OutputStms
def send_to_flowsheet(self,addedcomp):
self.addedcomp = addedcomp
parameters = [['eff',self.eff]]
Inst = UnitOpr(self.name,AdiaExpClass.counter,'AdiaExp',parameters,self.mode,self.modeVal,True,self.thermoPackage,self.extra,None,self.no_of_inputs,self.no_of_outputs)
Inst.connect(self.InputStms,self.OutputStms)
return Inst
def helperFunc(type):
if(type=="MatStm"):
return MatStm(CompNames=compound_selected)
else:
return eval(type+"Class")()
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