class UI_equipment(UI_equip):
"""Baghouse equipment edition dialog"""
Equipment = Baghouse()
def __init__(self, equipment=None, parent=None):
"""
equipment: Initial equipment instance to model
"""
super().__init__(Baghouse, entrada=False, parent=parent)
# Efficiency tab
title = [QtWidgets.QApplication.translate("pychemqt", "Diameter") +
", " + Length.text("ParticleDiameter"),
QtWidgets.QApplication.translate("pychemqt", "Efficiency")]
self.efic = Tabla(2, horizontalHeader=title, filas=1, stretch=False)
self.efic.setColumnReadOnly(0, True)
self.efic.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
self.efic.editingFinished.connect(self.cambiarRendimientos)
self.tabWidget.insertTab(
1, self.efic,
QtWidgets.QApplication.translate("pychemqt", "Efficiencies"))
# Calculate tab
lyt_Calc = QtWidgets.QGridLayout(self.tabCalculo)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Mode")), 1, 1)
self.metodo = QtWidgets.QComboBox()
for txt in self.Equipment.TEXT_TIPO:
self.metodo.addItem(txt)
self.metodo.currentIndexChanged.connect(self.tipoCalculoCambiado)
lyt_Calc.addWidget(self.metodo, 1, 2, 1, 3)
lyt_Calc.addItem(QtWidgets.QSpacerItem(
20, 20, QtWidgets.QSizePolicy.Fixed, QtWidgets.QSizePolicy.Fixed),
2, 1, 1, 6)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "No cells")), 3, 1)
self.num_filtros = Entrada_con_unidades(
int, spinbox=True, step=1, min=1, width=50, resaltado=True,
start=1)
self.num_filtros.valueChanged.connect(
partial(self.changeParams, "num_filtros"))
lyt_Calc.addWidget(self.num_filtros, 3, 2)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Time")), 4, 1)
self.tiempo = Entrada_con_unidades(Time, resaltado=True)
self.tiempo.valueChanged.connect(partial(self.changeParams, "tiempo"))
lyt_Calc.addWidget(self.tiempo, 4, 2)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Pressure drop")), 5, 1)
self.deltaP = Entrada_con_unidades(Pressure, retornar=False)
self.deltaP.setReadOnly(True)
self.deltaP.valueChanged.connect(partial(self.changeParams, "deltaP"))
lyt_Calc.addWidget(self.deltaP, 5, 2)
lyt_Calc.addItem(QtWidgets.QSpacerItem(
20, 20, QtWidgets.QSizePolicy.Fixed, QtWidgets.QSizePolicy.Fixed),
6, 1, 1, 6)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Bags per cell")), 7, 1)
self.membranasFiltro = Entrada_con_unidades(int, spinbox=True, step=1,
min=1)
self.membranasFiltro.valueChanged.connect(
partial(self.changeParams, "membranasFiltro"))
lyt_Calc.addWidget(self.membranasFiltro, 7, 2)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Bag diameter")), 8, 1)
self.diametroMembrana = Entrada_con_unidades(Length)
self.diametroMembrana.valueChanged.connect(
partial(self.changeParams, "diametroMembrana"))
lyt_Calc.addWidget(self.diametroMembrana, 8, 2)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Area per bag")), 9, 1)
self.areaMembrana = Entrada_con_unidades(Area)
self.areaMembrana.valueChanged.connect(
partial(self.changeParams, "areaMembrana"))
lyt_Calc.addWidget(self.areaMembrana, 9, 2)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Cloth resistence")), 7, 4)
self.resistenciaFiltro = Entrada_con_unidades(float)
self.resistenciaFiltro.valueChanged.connect(
partial(self.changeParams, "resistenciaFiltro"))
lyt_Calc.addWidget(self.resistenciaFiltro, 7, 5)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Cake resistence")), 8, 4)
self.resistenciaTorta = Entrada_con_unidades(float)
self.resistenciaTorta.valueChanged.connect(
partial(self.changeParams, "resistenciaTorta"))
lyt_Calc.addWidget(self.resistenciaTorta, 8, 5)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Cells cleaned")), 9, 4)
self.limpieza = Entrada_con_unidades(int, spinbox=True, step=1, min=0)
self.limpieza.valueChanged.connect(
partial(self.changeParams, "limpieza"))
lyt_Calc.addWidget(self.limpieza, 9, 5)
lyt_Calc.addItem(QtWidgets.QSpacerItem(
20, 20, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Expanding), 10, 1, 1, 6)
groupbox = QtWidgets.QGroupBox(
QtWidgets.QApplication.translate("pychemqt", "Results"))
lyt_Calc.addWidget(groupbox, 11, 1, 1, 5)
lyt = QtWidgets.QGridLayout(groupbox)
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "No cells")), 1, 1)
self.num_filtrosCalc = Entrada_con_unidades(int, readOnly=True)
lyt.addWidget(self.num_filtrosCalc, 1, 2)
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Time")), 2, 1)
self.tiempoCalc = Entrada_con_unidades(Time, readOnly=True)
lyt.addWidget(self.tiempoCalc, 2, 2)
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Pressure drop")), 3, 1)
self.deltaPCalc = Entrada_con_unidades(Pressure, readOnly=True)
lyt.addWidget(self.deltaPCalc, 3, 2)
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Gas velocity")), 1, 4)
self.Vgas = Entrada_con_unidades(Speed, retornar=False, readOnly=True)
lyt.addWidget(self.Vgas, 1, 5)
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Efficiency")), 2, 4)
self.rendimiento = Entrada_con_unidades(float, readOnly=True)
lyt.addWidget(self.rendimiento, 2, 5)
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Area")), 3, 4)
self.floorArea = Entrada_con_unidades(Area, readOnly=True)
lyt.addWidget(self.floorArea, 3, 5)
lyt_Calc.addItem(QtWidgets.QSpacerItem(
20, 20, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Expanding), 12, 1, 1, 6)
# Output tab
self.addSalida(
QtWidgets.QApplication.translate("pychemqt", "Filtered gas"))
self.addSalida(
QtWidgets.QApplication.translate("pychemqt", "Collected solids"))
if equipment:
self.setEquipment(equipment)
def cambiarRendimientos(self):
self.changeParams("rendimientos", self.efic.getColumn(1))
def tipoCalculoCambiado(self, tipo_calculo):
if tipo_calculo == 0:
self.num_filtros.setReadOnly(False)
self.num_filtros.setResaltado(True)
self.tiempo.setReadOnly(False)
self.tiempo.setResaltado(True)
self.deltaP.setReadOnly(True)
self.deltaP.setResaltado(False)
elif tipo_calculo == 1:
self.num_filtros.setReadOnly(False)
self.num_filtros.setResaltado(True)
self.tiempo.setReadOnly(True)
self.tiempo.setResaltado(False)
self.deltaP.setReadOnly(False)
self.deltaP.setResaltado(True)
else:
self.num_filtros.setReadOnly(True)
self.num_filtros.setResaltado(False)
self.tiempo.setReadOnly(False)
self.tiempo.setResaltado(True)
self.deltaP.setReadOnly(False)
self.deltaP.setResaltado(True)
self.changeParams("metodo", tipo_calculo)
def rellenarInput(self):
UI_equip.rellenarInput(self)
if self.Equipment.kwargs["entrada"].solido:
diametros = []
for d in self.Equipment.kwargs["entrada"].solido.diametros:
diametros.append(d.config("ParticleDiameter"))
self.efic.setColumn(0, diametros)
if any(self.Equipment.kwargs["rendimientos"]):
self.efic.setColumn(1, self.Equipment.kwargs["rendimientos"])
class UI_equipment(UI_equip):
"""Divider equipment edition dialog"""
Equipment = Divider()
def __init__(self, equipment=None, salidas=0, parent=None):
"""
equipment: Initial equipment instance to model
salidas: Stream Output number to equipment
"""
super().__init__(Divider, entrada=False, parent=parent)
# Calculate tab
lyt_Calc = QtWidgets.QGridLayout(self.tabCalculo)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Separation")), 1, 1, 1, 1)
self.criterio = QtWidgets.QComboBox()
for txt in self.Equipment.TEXT_CRITERIO:
self.criterio.addItem(txt)
self.criterio.currentIndexChanged.connect(self.criterio_Changed)
lyt_Calc.addWidget(self.criterio, 1, 2, 1, 1)
self.fracciones = Tabla(1, horizontalHeader=[True], stretch=False)
self.fracciones.setItemDelegateForColumn(0, CellEditor(self))
lyt_Calc.addWidget(self.fracciones, 2, 1, 1, 2)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Pressure lost")), 3, 1, 1, 1)
self.deltaP = Entrada_con_unidades(Pressure, value=0)
self.deltaP.valueChanged.connect(partial(self.changeParams, "deltaP"))
lyt_Calc.addWidget(self.deltaP, 3, 2, 1, 1)
if equipment and salidas:
equipment(salidas=salidas)
elif equipment:
salidas = equipment.kwargs["salidas"]
else:
self.Equipment = Divider(salidas=salidas)
self.fracciones.setRowCount(salidas)
for i in range(salidas):
itm = QtWidgets.QTableWidgetItem("%i" % i)
itm.setTextAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
self.fracciones.setItem(0, i, itm)
self.fracciones.setRowHeight(i, 20)
widget = UI_corriente.Ui_corriente(readOnly=True)
self.Salida.addTab(widget, str(i+1))
self.criterio_Changed(0)
self.fracciones.editingFinished.connect(
partial(self.changeParams, "split"))
self.setEquipment(equipment)
def criterio_Changed(self, int):
if int:
item = QtWidgets.QTableWidgetItem(QtWidgets.QApplication.translate(
"pychemqt", "Flow")+", "+MassFlow.text())
self.fracciones.setHorizontalHeaderItem(0, item)
self.fracciones.item(self.fracciones.rowCount()-1, 0).setFlags(
QtCore.Qt.ItemIsEditable | QtCore.Qt.ItemIsEnabled |
QtCore.Qt.ItemIsSelectable)
else:
item = QtWidgets.QTableWidgetItem(QtWidgets.QApplication.translate(
"pychemqt", "Flow")+", "+MassFlow.text())
self.fracciones.setHorizontalHeaderItem(0, item)
self.fracciones.item(self.fracciones.rowCount()-1, 0).setFlags(
QtCore.Qt.NoItemFlags)
self.changeParams("criterio", int)
def changeParams(self, parametro, valor=None):
if parametro == "split":
valor = self.fracciones.getColumn(0, False)
if self.criterio.currentIndex() == 0:
if len(valor)+1 < self.fracciones.rowCount():
return
elif len(valor)+1 == self.fracciones.rowCount():
valor.append(1-sum(valor))
elif len(valor) == self.fracciones.rowCount():
valor[-1] = 1-sum(valor[:-1])
self.calculo(**{parametro: valor})
def rellenar(self):
UI_equip.rellenar(self)
if self.Equipment.status == 1 and self.criterio.currentIndex() == 1:
self.entrada.setCorriente(self.Equipment.entrada)
def rellenarInput(self):
UI_equip.rellenarInput(self)
self.fracciones.setColumn(0, self.Equipment.kwargs["split"])
class UI_reacciones(QtWidgets.QDialog):
reaction = reaction.Reaction()
def __init__(self, reaccion=None, parent=None):
super(UI_reacciones, self).__init__(parent)
self.evaluate = Evaluate()
self.evaluate.finished.connect(self.rellenar)
self.indices, self.nombres, M = getComponents()
gridLayout = QtWidgets.QGridLayout(self)
lyt = QtWidgets.QHBoxLayout()
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Key component")))
self.key = QtWidgets.QComboBox()
for i, nombre in enumerate(self.nombres):
self.key.addItem("%i - %s" % (i + 1, nombre))
self.key.currentIndexChanged.connect(partial(self.changeParams, "key"))
lyt.addWidget(self.key)
lyt.addItem(
QtWidgets.QSpacerItem(10, 10, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Fixed))
gridLayout.addLayout(lyt, 1, 1, 1, 5)
lyt = QtWidgets.QHBoxLayout()
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Phase")))
self.fase = QtWidgets.QComboBox()
for txt in reaction.Reaction.TEXT_PHASE:
self.fase.addItem(txt)
self.fase.currentIndexChanged.connect(
partial(self.changeParams, "fase"))
lyt.addWidget(self.fase)
self.Formula = QtWidgets.QLabel()
self.Formula.setAlignment(QtCore.Qt.AlignCenter)
self.Formula.setSizePolicy(QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Fixed)
lyt.addWidget(self.Formula)
gridLayout.addLayout(lyt, 2, 1, 1, 5)
lyt = QtWidgets.QVBoxLayout()
title = self.nombres[:]
title.append("")
self.Estequiometria = Tabla(1,
verticalHeaderLabels=title,
horizontalHeader=[
QtWidgets.QApplication.translate(
"pychemqt", "Coefficients")
],
filas=len(self.indices))
self.Estequiometria.setFixedHeight(22 * len(self.indices) + 22 + 4 +
22)
lyt.addWidget(self.Estequiometria)
self.Estequiometria.addRow()
brush = QtGui.QBrush(QtGui.QColor("#eaeaea"))
self.Estequiometria.item(len(self.indices), 0).setBackground(brush)
self.Estequiometria.item(len(self.indices),
0).setFlags(QtCore.Qt.NoItemFlags)
self.Estequiometria.cellChanged.connect(self.reaccionCambiada)
lyt.addItem(
QtWidgets.QSpacerItem(10, 10, QtWidgets.QSizePolicy.Fixed,
QtWidgets.QSizePolicy.Expanding))
gridLayout.addLayout(lyt, 3, 1, 1, 2)
lyt = QtWidgets.QGridLayout()
lyt.addItem(
QtWidgets.QSpacerItem(10, 10, QtWidgets.QSizePolicy.Fixed,
QtWidgets.QSizePolicy.Fixed), 1, 1)
self.formula = QtWidgets.QCheckBox(
QtWidgets.QApplication.translate("pychemqt",
"Use name in formula"))
self.formula.toggled.connect(partial(self.changeParams, "formula"))
lyt.addWidget(self.formula, 1, 2, 1, 2)
self.customHr = QtWidgets.QCheckBox(
"ΔHr " +
QtWidgets.QApplication.translate("pychemqt", "user specified"))
self.customHr.toggled.connect(self.changeHr)
lyt.addWidget(self.customHr, 2, 2, 1, 2)
lyt.addWidget(QtWidgets.QLabel("ΔHr<sup>o</sup>"), 3, 2)
self.Hr = Entrada_con_unidades(unidades.MolarEnthalpy, readOnly=True)
self.Hr.valueChanged.connect(partial(self.changeParams, "Hr"))
lyt.addWidget(self.Hr, 3, 3)
lyt.addItem(
QtWidgets.QSpacerItem(10, 10, QtWidgets.QSizePolicy.Fixed,
QtWidgets.QSizePolicy.Expanding))
gridLayout.addLayout(lyt, 3, 3, 1, 2)
gridLayout.addItem(
QtWidgets.QSpacerItem(10, 10, QtWidgets.QSizePolicy.Fixed,
QtWidgets.QSizePolicy.Fixed), 4, 2)
lyt = QtWidgets.QHBoxLayout()
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Type")))
self.tipo = QtWidgets.QComboBox()
for txt in reaction.Reaction.TEXT_TYPE:
self.tipo.addItem(txt)
self.tipo.currentIndexChanged.connect(
partial(self.changeParams, "tipo"))
lyt.addWidget(self.tipo)
lyt.addItem(
QtWidgets.QSpacerItem(20, 10, QtWidgets.QSizePolicy.Fixed,
QtWidgets.QSizePolicy.Fixed))
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Concentration")))
self.base = QtWidgets.QComboBox()
for txt in reaction.Reaction.TEXT_BASE:
self.base.addItem(txt)
self.base.currentIndexChanged.connect(
partial(self.changeParams, "base"))
lyt.addWidget(self.base)
lyt.addItem(
QtWidgets.QSpacerItem(10, 10, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Fixed))
gridLayout.addLayout(lyt, 5, 1, 1, 5)
self.stacked = QtWidgets.QStackedWidget()
self.tipo.currentIndexChanged.connect(self.stacked.setCurrentIndex)
gridLayout.addWidget(self.stacked, 6, 1, 1, 5)
gridLayout.addItem(
QtWidgets.QSpacerItem(10, 10, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Expanding), 7, 1, 1, 5)
widget = QtWidgets.QWidget()
self.stacked.addWidget(widget)
lyt = QtWidgets.QGridLayout(widget)
lyt.addWidget(
QtWidgets.QLabel("<h3>" + QtWidgets.QApplication.translate(
"pychemqt", "Estequiometric reaction") + "</h3>"), 1, 1, 1, 4)
self.Conversion = Tabla(1, verticalHeaderModel="C", filas=3)
self.Conversion.setConnected()
self.Conversion.setFixedWidth(100)
lyt.addWidget(self.Conversion, 2, 1, 3, 1)
label = QtWidgets.QLabel()
label.setPixmap(
QtGui.QPixmap(os.environ["pychemqt"] +
"/images/equation/reaction_conversion.png"))
lyt.addWidget(label, 2, 2, 1, 3)
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt",
"Temperature unit")), 3, 2)
self.unidadesTemperatura = QtWidgets.QComboBox()
for i in unidades.Temperature.__text__:
self.unidadesTemperatura.addItem(i)
lyt.addWidget(self.unidadesTemperatura, 3, 3)
lyt.addItem(
QtWidgets.QSpacerItem(10, 10, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Expanding), 4, 4)
lyt.addItem(
QtWidgets.QSpacerItem(10, 10, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Expanding), 5, 1, 1, 5)
widget = QtWidgets.QWidget()
self.stacked.addWidget(widget)
lyt = QtWidgets.QGridLayout(widget)
self.check_KFijo = QtWidgets.QRadioButton(
QtWidgets.QApplication.translate("pychemqt", "Fixed"))
self.check_KFijo.toggled.connect(self.KeqChanged)
lyt.addWidget(self.check_KFijo, 1, 1, 1, 2)
lyt.addWidget(QtWidgets.QLabel("K<sub>eq</sub>"), 1, 3)
self.Keq = Entrada_con_unidades(float)
lyt.addWidget(self.Keq, 1, 4)
label = QtWidgets.QLabel()
label.setPixmap(
QtGui.QPixmap(os.environ["pychemqt"] +
"/images/equation/reaction_equilibrium.png"))
lyt.addWidget(label, 1, 5, 1, 4)
self.check_KEq = QtWidgets.QRadioButton(
QtWidgets.QApplication.translate("pychemqt", "Equation"))
self.check_KEq.toggled.connect(self.KeqChanged)
lyt.addWidget(self.check_KEq, 2, 1, 1, 2)
self.check_KTabla = QtWidgets.QRadioButton(
QtWidgets.QApplication.translate("pychemqt", "Table"))
self.check_KTabla.toggled.connect(self.KeqChanged)
lyt.addWidget(self.check_KTabla, 2, 5, 1, 2)
self.KEq_Dat = Tabla(
1,
verticalHeaderLabels=["A", "B", "C", "D", "E", "F", "G", "H"],
filas=8)
self.KEq_Dat.setFixedHeight(22 * 8 + 4)
self.KEq_Dat.setFixedWidth(120)
lyt.addWidget(self.KEq_Dat, 3, 3, 1, 2)
self.KEq_Tab = Tabla(
4,
horizontalHeader=["T, K", "Keq", "Kcalc", "%Error"],
verticalHeader=False,
columnReadOnly=[False, False, True, True])
self.KEq_Tab.setSizePolicy(QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Expanding)
self.KEq_Tab.setFixedWidth(400)
self.KEq_Tab.setConnected()
self.KEq_Tab.rowFinished.connect(self.Regresion)
self.KEq_Tab.setAlternatingRowColors(False)
lyt.addWidget(self.KEq_Tab, 3, 5, 1, 4)
lyt.addWidget(QtWidgets.QLabel("r²"), 4, 5)
self.r2 = Entrada_con_unidades(float, readOnly=True)
lyt.addWidget(self.r2, 4, 6)
self.botonTablaPlot = QtWidgets.QPushButton(
QtGui.QIcon(
QtGui.QPixmap(os.environ["pychemqt"] +
"/images/button/plot.png")),
QtWidgets.QApplication.translate("pychemqt", "Plot"))
self.botonTablaPlot.clicked.connect(self.Plot)
lyt.addWidget(self.botonTablaPlot, 4, 7)
self.botonTablaClear = QtWidgets.QPushButton(
QtGui.QIcon(
QtGui.QPixmap(os.environ["pychemqt"] +
"/images/button/clear.png")),
QtWidgets.QApplication.translate("pychemqt", "Clear"))
self.botonTablaClear.clicked.connect(self.KEq_Tab.clear)
lyt.addWidget(self.botonTablaClear, 4, 8)
label = QtWidgets.QLabel()
label.setPixmap(
QtGui.QPixmap(os.environ["pychemqt"] +
"/images/equation/reaction_equilibrium2.png"))
label.setAlignment(QtCore.Qt.AlignCenter)
lyt.addWidget(label, 5, 1, 1, 8)
self.checkGibbs = QtWidgets.QRadioButton(
QtWidgets.QApplication.translate(
"pychemqt", "From Gibbs free energy minimization"))
lyt.addWidget(self.checkGibbs, 6, 1, 1, 4)
self.check_KFijo.setChecked(True)
widget = QtWidgets.QWidget()
self.stacked.addWidget(widget)
lyt = QtWidgets.QGridLayout(widget)
widget = QtWidgets.QWidget()
self.stacked.addWidget(widget)
lyt = QtWidgets.QGridLayout(widget)
self.status = Status()
gridLayout.addWidget(self.status, 10, 1)
self.buttonBox = QtWidgets.QDialogButtonBox(
QtWidgets.QDialogButtonBox.Cancel | QtWidgets.QDialogButtonBox.Ok)
self.buttonBox.accepted.connect(self.accept)
self.buttonBox.rejected.connect(self.reject)
gridLayout.addWidget(self.buttonBox, 10, 2, 1, 4)
if reaccion:
self.setReaction(reaccion)
def changeParams(self, parametro, valor):
self.calculo(**{parametro: valor})
def calculo(self, **kwargs):
self.status.setState(4)
self.evaluate.start(self.reaction, kwargs)
def changeHr(self, bool):
self.Hr.setReadOnly(not bool)
self.changeParams("customHr", bool)
def reaccionCambiada(self):
kwargs = {
"componentes": self.indices,
"coeficientes": self.Estequiometria.getColumn(0)[:-1]
}
self.calculo(**kwargs)
def setReaction(self, reaction):
self.reaction = reaction
self.rellenar()
# if self.Estequiometria.getValue(0, self.Base.currentIndex()):
# reaccion=reaction.Reaction(self.indices, self.Estequiometria.getColumn(0), base=self.Base.currentIndex(), estequiometria=[0, 0, 0.5], formulas=self.checkFormula.isChecked(), calor=self.checkCalorEspecificado.isChecked(), Hr=self.Hr.value, tipo=self.tipo.currentIndex(), conversion=self.Conversion.getColumn(0)[-1::-1])
# self.Balance.setValue(reaccion.error)
# if reaccion.state:
# self.Formula.setText(reaccion._txt(self.checkFormula.isChecked()))
# self.Hr.setValue(reaccion.Hr)
# else:
# self.Formula.clear()
# self.Hr.clear()
# self.botonAdd.setEnabled(reaccion.state and not self.botonEdit.isChecked())
# self.reaccion=reaccion
def rellenar(self):
self.blockSignals(True)
for variable in self.reaction.kwargsValue:
self.__getattribute__(variable).setValue(
self.reaction.kwargs[variable])
for combo in self.reaction.kwargsList:
self.__getattribute__(combo).setCurrentIndex(
self.reaction.kwargs[combo])
for check in self.reaction.kwargsCheck:
self.__getattribute__(check).setChecked(
self.reaction.kwargs[check])
self.Estequiometria.setColumn(0, self.reaction.kwargs["coeficientes"])
# self.Conversion.setColumn(0, self.reaction.estequiometria[-1::-1])
self.blockSignals(False)
self.status.setState(self.reaction.status, self.reaction.msg)
self.Estequiometria.item(len(self.indices),
0).setText(str(self.reaction.error))
if self.reaction.status:
self.Formula.setText(self.reaction._txt())
self.Hr.setValue(self.reaction.Hr)
def KeqChanged(self):
self.Keq.setReadOnly(not self.check_KFijo.isChecked())
self.KEq_Dat.setEnabled(self.check_KEq.isChecked())
self.KEq_Tab.setEnabled(self.check_KTabla.isChecked())
self.botonTablaClear.setEnabled(self.check_KTabla.isChecked())
self.botonTablaPlot.setEnabled(self.check_KTabla.isChecked())
def Regresion(self):
t = array(self.KEq_Tab.getColumn(0)[:-1])
k = array(self.KEq_Tab.getColumn(1)[:-1])
if len(t) >= 4:
if 4 <= len(t) < 8:
inicio = r_[0, 0, 0, 0]
f = lambda par, T: exp(par[0] + par[1] / T + par[2] * log(T) +
par[3] * T)
resto = lambda par, T, k: k - f(par, T)
else:
inicio = r_[0, 0, 0, 0, 0, 0, 0, 0]
f = lambda par, T: exp(par[0] + par[1] / T + par[2] * log(
T) + par[3] * T + par[4] * T**2 + par[5] * T**3 + par[6] *
T**4 + par[7] * T**5)
resto = lambda par, T, k: k - f(par, T)
ajuste = leastsq(resto, inicio, args=(t, k))
kcalc = f(ajuste[0], t)
error = (k - kcalc) / k * 100
self.KEq_Dat.setColumn(0, ajuste[0])
self.KEq_Tab.setColumn(2, kcalc)
self.KEq_Tab.setColumn(3, error)
if ajuste[1] in [1, 2, 3, 4]:
self.ajuste = ajuste[0]
def Plot(self):
if self.ajuste != None:
t = array(self.KEq_Tab.getColumn(0)[:-1])
k = array(self.KEq_Tab.getColumn(1)[:-1])
if 4 <= len(t) < 8:
f = lambda par, T: exp(par[0] + par[1] / T + par[2] * log(T) +
par[3] * T)
else:
f = lambda par, T: exp(par[0] + par[1] / T + par[2] * log(
T) + par[3] * T + par[4] * T**2 + par[5] * T**3 + par[6] *
T**4 + par[7] * T**5)
grafico = plot.Plot()
grafico.data(t, k, 'ro', t, f(self.ajuste, t))
grafico.exec_()
class UI_reacciones(QtWidgets.QDialog):
reaction=reaction.Reaction()
def __init__(self, reaccion=None, parent=None):
super(UI_reacciones, self).__init__(parent)
self.evaluate=Evaluate()
self.evaluate.finished.connect(self.rellenar)
self.indices, self.nombres, M=getComponents()
gridLayout = QtWidgets.QGridLayout(self)
lyt=QtWidgets.QHBoxLayout()
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate("pychemqt", "Key component")))
self.key=QtWidgets.QComboBox()
for i, nombre in enumerate(self.nombres):
self.key.addItem("%i - %s" %(i+1, nombre))
self.key.currentIndexChanged.connect(partial(self.changeParams, "key"))
lyt.addWidget(self.key)
lyt.addItem(QtWidgets.QSpacerItem(10,10,QtWidgets.QSizePolicy.Expanding,QtWidgets.QSizePolicy.Fixed))
gridLayout.addLayout(lyt,1,1,1,5)
lyt=QtWidgets.QHBoxLayout()
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate("pychemqt", "Phase")))
self.fase=QtWidgets.QComboBox()
for txt in reaction.Reaction.TEXT_PHASE:
self.fase.addItem(txt)
self.fase.currentIndexChanged.connect(partial(self.changeParams, "fase"))
lyt.addWidget(self.fase)
self.Formula=QtWidgets.QLabel()
self.Formula.setAlignment(QtCore.Qt.AlignCenter)
self.Formula.setSizePolicy(QtWidgets.QSizePolicy.Expanding,QtWidgets.QSizePolicy.Fixed)
lyt.addWidget(self.Formula)
gridLayout.addLayout(lyt,2,1,1,5)
lyt=QtWidgets.QVBoxLayout()
title=self.nombres[:]
title.append("")
self.Estequiometria=Tabla(1, verticalHeaderLabels=title, horizontalHeader=[QtWidgets.QApplication.translate("pychemqt", "Coefficients")], filas=len(self.indices))
self.Estequiometria.setFixedHeight(22*len(self.indices)+22+4+22)
lyt.addWidget(self.Estequiometria)
self.Estequiometria.addRow()
brush=QtGui.QBrush(QtGui.QColor("#eaeaea"))
self.Estequiometria.item(len(self.indices), 0).setBackground(brush)
self.Estequiometria.item(len(self.indices), 0).setFlags(QtCore.Qt.NoItemFlags)
self.Estequiometria.cellChanged.connect(self.reaccionCambiada)
lyt.addItem(QtWidgets.QSpacerItem(10,10,QtWidgets.QSizePolicy.Fixed,QtWidgets.QSizePolicy.Expanding))
gridLayout.addLayout(lyt,3,1,1,2)
lyt=QtWidgets.QGridLayout()
lyt.addItem(QtWidgets.QSpacerItem(10,10,QtWidgets.QSizePolicy.Fixed,QtWidgets.QSizePolicy.Fixed),1,1)
self.formula=QtWidgets.QCheckBox(QtWidgets.QApplication.translate("pychemqt", "Use name in formula"))
self.formula.toggled.connect(partial(self.changeParams, "formula"))
lyt.addWidget(self.formula,1,2,1,2)
self.customHr=QtWidgets.QCheckBox("ΔHr "+QtWidgets.QApplication.translate("pychemqt", "user specified"))
self.customHr.toggled.connect(self.changeHr)
lyt.addWidget(self.customHr,2,2,1,2)
lyt.addWidget(QtWidgets.QLabel("ΔHr<sup>o</sup>"),3,2)
self.Hr=Entrada_con_unidades(unidades.MolarEnthalpy, readOnly=True)
self.Hr.valueChanged.connect(partial(self.changeParams, "Hr"))
lyt.addWidget(self.Hr,3,3)
lyt.addItem(QtWidgets.QSpacerItem(10,10,QtWidgets.QSizePolicy.Fixed,QtWidgets.QSizePolicy.Expanding))
gridLayout.addLayout(lyt,3,3,1,2)
gridLayout.addItem(QtWidgets.QSpacerItem(10,10,QtWidgets.QSizePolicy.Fixed,QtWidgets.QSizePolicy.Fixed),4,2)
lyt=QtWidgets.QHBoxLayout()
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate("pychemqt", "Type")))
self.tipo=QtWidgets.QComboBox()
for txt in reaction.Reaction.TEXT_TYPE:
self.tipo.addItem(txt)
self.tipo.currentIndexChanged.connect(partial(self.changeParams, "tipo"))
lyt.addWidget(self.tipo)
lyt.addItem(QtWidgets.QSpacerItem(20,10,QtWidgets.QSizePolicy.Fixed,QtWidgets.QSizePolicy.Fixed))
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate("pychemqt", "Concentration")))
self.base=QtWidgets.QComboBox()
for txt in reaction.Reaction.TEXT_BASE:
self.base.addItem(txt)
self.base.currentIndexChanged.connect(partial(self.changeParams, "base"))
lyt.addWidget(self.base)
lyt.addItem(QtWidgets.QSpacerItem(10,10,QtWidgets.QSizePolicy.Expanding,QtWidgets.QSizePolicy.Fixed))
gridLayout.addLayout(lyt,5,1,1,5)
self.stacked = QtWidgets.QStackedWidget()
self.tipo.currentIndexChanged.connect(self.stacked.setCurrentIndex)
gridLayout.addWidget(self.stacked,6,1,1,5)
gridLayout.addItem(QtWidgets.QSpacerItem(10,10,QtWidgets.QSizePolicy.Expanding,QtWidgets.QSizePolicy.Expanding),7,1,1,5)
widget=QtWidgets.QWidget()
self.stacked.addWidget(widget)
lyt=QtWidgets.QGridLayout(widget)
lyt.addWidget(QtWidgets.QLabel("<h3>"+QtWidgets.QApplication.translate("pychemqt", "Estequiometric reaction")+"</h3>"),1,1,1,4)
self.Conversion=Tabla(1, verticalHeaderModel="C", filas=3)
self.Conversion.setConnected()
self.Conversion.setFixedWidth(100)
lyt.addWidget(self.Conversion,2,1,3,1)
label=QtWidgets.QLabel()
label.setPixmap(QtGui.QPixmap(os.environ["pychemqt"]+"/images/equation/reaction_conversion.png"))
lyt.addWidget(label,2,2,1,3)
lyt.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate("pychemqt", "Temperature unit")),3,2)
self.unidadesTemperatura=QtWidgets.QComboBox()
for i in unidades.Temperature.__text__:
self.unidadesTemperatura.addItem(i)
lyt.addWidget(self.unidadesTemperatura,3,3)
lyt.addItem(QtWidgets.QSpacerItem(10,10,QtWidgets.QSizePolicy.Expanding,QtWidgets.QSizePolicy.Expanding),4,4)
lyt.addItem(QtWidgets.QSpacerItem(10,10,QtWidgets.QSizePolicy.Expanding,QtWidgets.QSizePolicy.Expanding),5,1,1,5)
widget=QtWidgets.QWidget()
self.stacked.addWidget(widget)
lyt=QtWidgets.QGridLayout(widget)
self.check_KFijo=QtWidgets.QRadioButton(QtWidgets.QApplication.translate("pychemqt", "Fixed"))
self.check_KFijo.toggled.connect(self.KeqChanged)
lyt.addWidget(self.check_KFijo,1,1,1,2)
lyt.addWidget(QtWidgets.QLabel("K<sub>eq</sub>"),1,3)
self.Keq=Entrada_con_unidades(float)
lyt.addWidget(self.Keq,1,4)
label=QtWidgets.QLabel()
label.setPixmap(QtGui.QPixmap(os.environ["pychemqt"]+"/images/equation/reaction_equilibrium.png"))
lyt.addWidget(label,1,5,1,4)
self.check_KEq=QtWidgets.QRadioButton(QtWidgets.QApplication.translate("pychemqt", "Equation"))
self.check_KEq.toggled.connect(self.KeqChanged)
lyt.addWidget(self.check_KEq,2,1,1,2)
self.check_KTabla=QtWidgets.QRadioButton(QtWidgets.QApplication.translate("pychemqt", "Table"))
self.check_KTabla.toggled.connect(self.KeqChanged)
lyt.addWidget(self.check_KTabla,2,5,1,2)
self.KEq_Dat=Tabla(1, verticalHeaderLabels=["A", "B", "C", "D", "E", "F", "G", "H"], filas=8)
self.KEq_Dat.setFixedHeight(22*8+4)
self.KEq_Dat.setFixedWidth(120)
lyt.addWidget(self.KEq_Dat,3,3,1,2)
self.KEq_Tab=Tabla(4, horizontalHeader=["T, K", "Keq", "Kcalc", "%Error"], verticalHeader=False, columnReadOnly=[False, False, True, True])
self.KEq_Tab.setSizePolicy(QtWidgets.QSizePolicy.Expanding,QtWidgets.QSizePolicy.Expanding)
self.KEq_Tab.setFixedWidth(400)
self.KEq_Tab.setConnected()
self.KEq_Tab.rowFinished.connect(self.Regresion)
self.KEq_Tab.setAlternatingRowColors(False)
lyt.addWidget(self.KEq_Tab,3,5,1,4)
lyt.addWidget(QtWidgets.QLabel("r²"),4,5)
self.r2=Entrada_con_unidades(float, readOnly=True)
lyt.addWidget(self.r2,4,6)
self.botonTablaPlot=QtWidgets.QPushButton(QtGui.QIcon(QtGui.QPixmap(os.environ["pychemqt"]+"/images/button/plot.png")), QtWidgets.QApplication.translate("pychemqt", "Plot"))
self.botonTablaPlot.clicked.connect(self.Plot)
lyt.addWidget(self.botonTablaPlot,4,7)
self.botonTablaClear=QtWidgets.QPushButton(QtGui.QIcon(QtGui.QPixmap(os.environ["pychemqt"]+"/images/button/clear.png")), QtWidgets.QApplication.translate("pychemqt", "Clear"))
self.botonTablaClear.clicked.connect(self.KEq_Tab.clear)
lyt.addWidget(self.botonTablaClear,4,8)
label=QtWidgets.QLabel()
label.setPixmap(QtGui.QPixmap(os.environ["pychemqt"]+"/images/equation/reaction_equilibrium2.png"))
label.setAlignment(QtCore.Qt.AlignCenter)
lyt.addWidget(label,5,1,1,8)
self.checkGibbs=QtWidgets.QRadioButton(QtWidgets.QApplication.translate("pychemqt", "From Gibbs free energy minimization"))
lyt.addWidget(self.checkGibbs,6,1,1,4)
self.check_KFijo.setChecked(True)
widget=QtWidgets.QWidget()
self.stacked.addWidget(widget)
lyt=QtWidgets.QGridLayout(widget)
widget=QtWidgets.QWidget()
self.stacked.addWidget(widget)
lyt=QtWidgets.QGridLayout(widget)
self.status=Status()
gridLayout.addWidget(self.status, 10,1)
self.buttonBox = QtWidgets.QDialogButtonBox(QtWidgets.QDialogButtonBox.Cancel|QtWidgets.QDialogButtonBox.Ok)
self.buttonBox.accepted.connect(self.accept)
self.buttonBox.rejected.connect(self.reject)
gridLayout.addWidget(self.buttonBox,10,2,1,4)
if reaccion:
self.setReaction(reaccion)
def changeParams(self, parametro, valor):
self.calculo(**{parametro: valor})
def calculo(self, **kwargs):
self.status.setState(4)
self.evaluate.start(self.reaction, kwargs)
def changeHr(self, bool):
self.Hr.setReadOnly(not bool)
self.changeParams("customHr", bool)
def reaccionCambiada(self):
kwargs={"componentes": self.indices,
"coeficientes": self.Estequiometria.getColumn(0)[:-1]}
self.calculo(**kwargs)
def setReaction(self, reaction):
self.reaction=reaction
self.rellenar()
# if self.Estequiometria.getValue(0, self.Base.currentIndex()):
# reaccion=reaction.Reaction(self.indices, self.Estequiometria.getColumn(0), base=self.Base.currentIndex(), estequiometria=[0, 0, 0.5], formulas=self.checkFormula.isChecked(), calor=self.checkCalorEspecificado.isChecked(), Hr=self.Hr.value, tipo=self.tipo.currentIndex(), conversion=self.Conversion.getColumn(0)[-1::-1])
# self.Balance.setValue(reaccion.error)
# if reaccion.state:
# self.Formula.setText(reaccion._txt(self.checkFormula.isChecked()))
# self.Hr.setValue(reaccion.Hr)
# else:
# self.Formula.clear()
# self.Hr.clear()
# self.botonAdd.setEnabled(reaccion.state and not self.botonEdit.isChecked())
# self.reaccion=reaccion
def rellenar(self):
self.blockSignals(True)
for variable in self.reaction.kwargsValue:
self.__getattribute__(variable).setValue(self.reaction.kwargs[variable])
for combo in self.reaction.kwargsList:
self.__getattribute__(combo).setCurrentIndex(self.reaction.kwargs[combo])
for check in self.reaction.kwargsCheck:
self.__getattribute__(check).setChecked(self.reaction.kwargs[check])
self.Estequiometria.setColumn(0, self.reaction.kwargs["coeficientes"])
# self.Conversion.setColumn(0, self.reaction.estequiometria[-1::-1])
self.blockSignals(False)
self.status.setState(self.reaction.status, self.reaction.msg)
self.Estequiometria.item(len(self.indices), 0).setText(str(self.reaction.error))
if self.reaction.status:
self.Formula.setText(self.reaction._txt())
self.Hr.setValue(self.reaction.Hr)
def KeqChanged(self):
self.Keq.setReadOnly(not self.check_KFijo.isChecked())
self.KEq_Dat.setEnabled(self.check_KEq.isChecked())
self.KEq_Tab.setEnabled(self.check_KTabla.isChecked())
self.botonTablaClear.setEnabled(self.check_KTabla.isChecked())
self.botonTablaPlot.setEnabled(self.check_KTabla.isChecked())
def Regresion(self):
t=array(self.KEq_Tab.getColumn(0)[:-1])
k=array(self.KEq_Tab.getColumn(1)[:-1])
if len(t)>=4:
if 4<=len(t)<8:
inicio=r_[0, 0, 0, 0]
f=lambda par, T: exp(par[0]+par[1]/T+par[2]*log(T)+par[3]*T)
resto=lambda par, T, k: k-f(par, T)
else:
inicio=r_[0, 0, 0, 0, 0, 0, 0, 0]
f=lambda par, T: exp(par[0]+par[1]/T+par[2]*log(T)+par[3]*T+par[4]*T**2+par[5]*T**3+par[6]*T**4+par[7]*T**5)
resto=lambda par, T, k: k-f(par, T)
ajuste=leastsq(resto,inicio,args=(t, k))
kcalc=f(ajuste[0], t)
error=(k-kcalc)/k*100
self.KEq_Dat.setColumn(0, ajuste[0])
self.KEq_Tab.setColumn(2, kcalc)
self.KEq_Tab.setColumn(3, error)
if ajuste[1] in [1, 2, 3, 4]:
self.ajuste=ajuste[0]
def Plot(self):
if self.ajuste!=None:
t=array(self.KEq_Tab.getColumn(0)[:-1])
k=array(self.KEq_Tab.getColumn(1)[:-1])
if 4<=len(t)<8:
f=lambda par, T: exp(par[0]+par[1]/T+par[2]*log(T)+par[3]*T)
else:
f=lambda par, T: exp(par[0]+par[1]/T+par[2]*log(T)+par[3]*T+par[4]*T**2+par[5]*T**3+par[6]*T**4+par[7]*T**5)
grafico=plot.Plot()
grafico.data(t, k, 'ro', t, f(self.ajuste, t))
grafico.exec_()
class UI_equipment(UI_equip):
"""Divider equipment edition dialog"""
Equipment = Divider()
def __init__(self, equipment=None, salidas=0, parent=None):
"""
equipment: Initial equipment instance to model
salidas: Stream Output number to equipment
"""
super().__init__(Divider, entrada=False, parent=parent)
# Calculate tab
lyt_Calc = QtWidgets.QGridLayout(self.tabCalculo)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Separation")), 1, 1, 1, 1)
self.criterio = QtWidgets.QComboBox()
for txt in self.Equipment.TEXT_CRITERIO:
self.criterio.addItem(txt)
self.criterio.currentIndexChanged.connect(self.criterio_Changed)
lyt_Calc.addWidget(self.criterio, 1, 2, 1, 1)
self.fracciones = Tabla(1, horizontalHeader=[True], stretch=False)
self.fracciones.setItemDelegateForColumn(0, CellEditor(self))
lyt_Calc.addWidget(self.fracciones, 2, 1, 1, 2)
lyt_Calc.addWidget(QtWidgets.QLabel(QtWidgets.QApplication.translate(
"pychemqt", "Pressure lost")), 3, 1, 1, 1)
self.deltaP = Entrada_con_unidades(Pressure, value=0)
self.deltaP.valueChanged.connect(partial(self.changeParams, "deltaP"))
lyt_Calc.addWidget(self.deltaP, 3, 2, 1, 1)
if equipment and salidas:
equipment(salidas=salidas)
elif equipment:
salidas = equipment.kwargs["salidas"]
else:
self.Equipment = Divider(salidas=salidas)
self.fracciones.setRowCount(salidas)
for i in range(salidas):
itm = QtWidgets.QTableWidgetItem("%i" % i)
itm.setTextAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
self.fracciones.setItem(0, i, itm)
self.fracciones.setRowHeight(i, 20)
widget = UI_corriente.Ui_corriente(readOnly=True)
self.Salida.addTab(widget, str(i+1))
self.criterio_Changed(0)
self.fracciones.editingFinished.connect(
partial(self.changeParams, "split"))
self.setEquipment(equipment)
def criterio_Changed(self, int):
if int:
item = QtWidgets.QTableWidgetItem(QtWidgets.QApplication.translate(
"pychemqt", "Flow")+", "+MassFlow.text())
self.fracciones.setHorizontalHeaderItem(0, item)
self.fracciones.item(self.fracciones.rowCount()-1, 0).setFlags(
QtCore.Qt.ItemIsEditable | QtCore.Qt.ItemIsEnabled |
QtCore.Qt.ItemIsSelectable)
else:
item = QtWidgets.QTableWidgetItem(QtWidgets.QApplication.translate(
"pychemqt", "Flow")+", "+MassFlow.text())
self.fracciones.setHorizontalHeaderItem(0, item)
self.fracciones.item(self.fracciones.rowCount()-1, 0).setFlags(
QtCore.Qt.NoItemFlags)
self.changeParams("criterio", int)
def changeParams(self, parametro, valor=None):
if parametro == "split":
valor = self.fracciones.getColumn(0, False)
if self.criterio.currentIndex() == 0:
if len(valor)+1 < self.fracciones.rowCount():
return
elif len(valor)+1 == self.fracciones.rowCount():
valor.append(1-sum(valor))
elif len(valor) == self.fracciones.rowCount():
valor[-1] = 1-sum(valor[:-1])
self.calculo(**{parametro: valor})
def rellenar(self):
UI_equip.rellenar(self)
if self.Equipment.status == 1 and self.criterio.currentIndex() == 1:
self.entrada.setCorriente(self.Equipment.entrada)
def rellenarInput(self):
UI_equip.rellenarInput(self)
self.fracciones.setColumn(0, self.Equipment.kwargs["split"])
class InputTableWidget(QtWidgets.QWidget):
"""Table data input dialog"""
def __init__(self, columnas, data=None, t=[], property=[],
horizontalHeader=[], title="", DIPPR=False, hasTc=0,
Tc=None, eq=1, unit=[], parent=None):
"""
data: mrray with original data
t: values for x column, generally temperature
property: values for 2...n columns
horizontalHeader: List with column title
DIPPR: boolean to show DIPPR widget
hasTc: boolean to show critical temperature (some DIPPR eq need it)
Tc: value for critical temperature
eq: Value for DIPPR equation
unit: List of unidades classes for column definition
"""
super(InputTableWidget, self).__init__(parent)
self.columnas = columnas
self.title = title
self.unit = unit
gridLayout = QtWidgets.QGridLayout(self)
gridLayout.setContentsMargins(0, 0, 0, 0)
openButton = QtWidgets.QPushButton(QtGui.QIcon(QtGui.QPixmap(
os.environ["pychemqt"]+"/images/button/fileOpen.png")), "")
openButton.setToolTip(QtWidgets.QApplication.translate(
"pychemqt", "Load data from a file"))
openButton.clicked.connect(self.open)
gridLayout.addWidget(openButton, 1, 1)
saveButton = QtWidgets.QPushButton(QtGui.QIcon(QtGui.QPixmap(
os.environ["pychemqt"]+"/images/button/fileSave.png")), "")
saveButton.setToolTip(QtWidgets.QApplication.translate(
"pychemqt", "Save data to a file"))
saveButton.clicked.connect(self.save)
gridLayout.addWidget(saveButton, 1, 2)
clearButton = QtWidgets.QPushButton(QtGui.QIcon(QtGui.QPixmap(
os.environ["pychemqt"]+"/images/button/clear.png")), "")
clearButton.setToolTip(QtWidgets.QApplication.translate(
"pychemqt", "Clear data"))
clearButton.clicked.connect(self.delete)
gridLayout.addWidget(clearButton, 1, 3)
gridLayout.addItem(QtWidgets.QSpacerItem(
0, 0, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Fixed), 1, 4)
self.tabla = Tabla(self.columnas, horizontalHeader=horizontalHeader,
verticalHeader=False, stretch=False)
self.tabla.setConnected()
if unit:
hHeader = []
for unit, title in zip(self.unit, horizontalHeader):
hHeader.append("%s, %s" % (title, unit.text()))
self.tabla.setHorizontalHeaderLabels(hHeader)
self.tabla.horizontalHeader().sectionClicked.connect(self.editUnit)
if data:
self.tabla.setData(data)
self.tabla.addRow()
elif t and property:
self.tabla.setColumn(0, t)
self.tabla.setColumn(1, property)
gridLayout.addWidget(self.tabla, 2, 1, 1, 4)
if DIPPR:
self.eqDIPPR = eqDIPPR(eq)
gridLayout.addWidget(self.eqDIPPR, 3, 1, 1, 4)
self.eqDIPPR.eqDIPPR.valueChanged.connect(self.showTc)
self.labelTc = QtWidgets.QLabel("Tc: ", self)
gridLayout.addWidget(self.labelTc, 4, 1)
self.tc = Entrada_con_unidades(Temperature, value=Tc)
gridLayout.addWidget(self.tc, 4, 2, 1, 3)
self.showTc(1)
def showTc(self, value):
"""Show/hide Tc widget"""
self.labelTc.setVisible(value in (7, 9))
self.tc.setVisible(value in (7, 9))
def open(self):
"""Load data from a test file"""
fname, ext = QtWidgets.QFileDialog.getOpenFileName(
self,
QtWidgets.QApplication.translate("pychemqt", "Open text file"),
"./")
if fname:
try:
# Numpy raise error if use the fname directly and find a
# non-latin1 character, inclusive in comment lines
with open(fname, "rb") as file:
data = loadtxt(file)
self.delete()
self.tabla.setData(data)
except ValueError as er:
# Raise a error msg if the file can load by loadtxt, the user
# can select any type of file and the input error is possible
title = QtWidgets.QApplication.translate(
"pychemqt", "Failed to load file")
msg = fname + "\n" + er.args[0]
QtWidgets.QMessageBox.critical(self, title, msg)
def save(self):
"""Save currend data of table to a file"""
fname, ext = QtWidgets.QFileDialog.getSaveFileName(
self,
QtWidgets.QApplication.translate("pychemqt", "Save data to file"),
"./")
if fname:
with open(fname, 'w') as file:
file.write("#"+self.title+"\n")
file.write("#")
for i in range(self.tabla.columnCount()):
item = self.tabla.horizontalHeaderItem(i)
file.write(item.text()+"\t")
file.write("\n")
data = self.data
for fila in range(len(data)):
for columna in range(self.tabla.columnCount()):
file.write(str(data[fila][columna])+"\t")
file.write("\n")
def delete(self):
"""Clear table"""
self.tabla.setRowCount(0)
self.tabla.clearContents()
self.tabla.addRow()
@property
def data(self):
return self.tabla.getData()
def column(self, column, magnitud=None, unit="conf"):
"""
column: column to get
magnitud: magnitud to get the values
unit: unit of the values in table"""
data = self.tabla.getColumn(column)
if self.unit:
magnitud = self.unit[column]
tx = self.tabla.horizontalHeaderItem(column).text().split(", ")[-1]
unit = magnitud.__units__[magnitud.__text__.index(tx)]
if magnitud is not None:
data = [magnitud(x, unit) for x in data]
return data
def editUnit(self, col):
"""Show dialog to config input unit"""
unit = self.unit[col]
widget = QtWidgets.QComboBox(self.tabla)
for txt in unit.__text__:
widget.addItem(txt)
txt = self.tabla.horizontalHeaderItem(col).text().split(", ")[-1]
widget.setCurrentText(txt)
# Define Unit combobox geometry
size = self.tabla.horizontalHeader().sectionSize(col)
pos = self.tabla.horizontalHeader().sectionPosition(col)
h = self.tabla.horizontalHeader().height()
geometry = QtCore.QRect(pos, 0, size, h)
widget.setGeometry(geometry)
widget.currentIndexChanged["int"].connect(
partial(self.updateHeader, col))
widget.show()
widget.showPopup()
def updateHeader(self, col, index):
"""Change the text in header"""
widget = self.sender()
txt = self.tabla.horizontalHeaderItem(col).text()
newtxt = "%s, %s" % (txt.split(",")[0], widget.currentText())
self.tabla.setHorizontalHeaderItem(
col, QtWidgets.QTableWidgetItem(newtxt))
widget.close()
class Definicion_Petro(newComponent):
"""Dialog for define hypothetical crude and oil fraction"""
ViewDetails = View_Petro
def __init__(self, parent=None):
super(Definicion_Petro, self).__init__(parent)
self.setWindowTitle(QtGui.QApplication.translate(
"pychemqt", "Petrol component definition"))
layout = QtGui.QGridLayout(self)
layout.addWidget(QtGui.QLabel(QtGui.QApplication.translate(
"pychemqt", "Name")), 1, 1)
self.nombre = QtGui.QLineEdit()
self.nombre.textChanged.connect(partial(self.changeParams, "name"))
layout.addWidget(self.nombre, 1, 2, 1, 4)
layout.addItem(QtGui.QSpacerItem(10, 10, QtGui.QSizePolicy.Fixed,
QtGui.QSizePolicy.Fixed), 2, 1, 1, 2)
layout.addWidget(QtGui.QLabel(QtGui.QApplication.translate(
"pychemqt", "Boiling point")), 3, 1)
self.Tb = Entrada_con_unidades(Temperature)
self.Tb.valueChanged.connect(partial(self.changeParams, "Tb"))
layout.addWidget(self.Tb, 3, 2)
layout.addWidget(QtGui.QLabel(QtGui.QApplication.translate(
"pychemqt", "Molecular Weight")), 4, 1)
self.M = Entrada_con_unidades(float, textounidad="g/mol")
self.M.valueChanged.connect(partial(self.changeParams, "M"))
layout.addWidget(self.M, 4, 2)
layout.addWidget(QtGui.QLabel(QtGui.QApplication.translate(
"pychemqt", "Specific Gravity")), 5, 1)
self.SG = Entrada_con_unidades(float)
self.SG.valueChanged.connect(partial(self.changeParams, "SG"))
layout.addWidget(self.SG, 5, 2)
layout.addWidget(QtGui.QLabel(QtGui.QApplication.translate(
"pychemqt", "API gravity")), 6, 1)
self.API = Entrada_con_unidades(float)
self.API.valueChanged.connect(partial(self.changeParams, "API"))
layout.addWidget(self.API, 6, 2)
layout.addWidget(QtGui.QLabel("K watson:"), 7, 1)
self.Kw = Entrada_con_unidades(float)
self.Kw.valueChanged.connect(partial(self.changeParams, "Kw"))
layout.addWidget(self.Kw, 7, 2)
layout.addWidget(QtGui.QLabel("C/H:"), 8, 1)
self.CH = Entrada_con_unidades(float)
self.CH.valueChanged.connect(partial(self.changeParams, "CH"))
layout.addWidget(self.CH, 8, 2)
layout.addWidget(QtGui.QLabel(u"ν<sub>100F</sub>:"), 9, 1)
self.v100 = Entrada_con_unidades(Diffusivity)
self.v100.valueChanged.connect(partial(self.changeParams, "v100"))
layout.addWidget(self.v100, 9, 2)
layout.addWidget(QtGui.QLabel(u"ν<sub>210F</sub>:"), 10, 1)
self.v210 = Entrada_con_unidades(Diffusivity)
self.v210.valueChanged.connect(partial(self.changeParams, "v210"))
layout.addWidget(self.v210, 10, 2)
layout.addWidget(QtGui.QLabel(QtGui.QApplication.translate(
"pychemqt", "Refraction index")), 11, 1)
self.n = Entrada_con_unidades(float)
self.n.valueChanged.connect(partial(self.changeParams, "n"))
layout.addWidget(self.n, 11, 2)
layout.addWidget(QtGui.QLabel(QtGui.QApplication.translate(
"pychemqt", "Huang parameter")), 12, 1)
self.I = Entrada_con_unidades(float)
self.I.valueChanged.connect(partial(self.changeParams, "I"))
layout.addWidget(self.I, 12, 2)
layout.addWidget(QtGui.QLabel("%S"), 13, 1)
self.S = Entrada_con_unidades(float, spinbox=True, step=1.0, max=100)
self.S.valueChanged.connect(partial(self.changeParams, "S"))
layout.addWidget(self.S, 13, 2)
layout.addWidget(QtGui.QLabel("%H"), 14, 1)
self.H = Entrada_con_unidades(float, spinbox=True, step=1.0, max=100)
self.H.valueChanged.connect(partial(self.changeParams, "H"))
layout.addWidget(self.H, 14, 2)
layout.addWidget(QtGui.QLabel("%N"), 15, 1)
self.N = Entrada_con_unidades(float, spinbox=True, step=1.0, max=100)
self.N.valueChanged.connect(partial(self.changeParams, "N"))
layout.addWidget(self.N, 15, 2)
layout.addWidget(QtGui.QLabel(QtGui.QApplication.translate(
"pychemqt", "Carbons number")), 19, 1)
self.carbonos = Entrada_con_unidades(int, width=50, spinbox=True,
step=1, start=7, min=5, max=100)
self.N.valueChanged.connect(partial(self.changeParams, "Nc"))
layout.addWidget(self.carbonos, 19, 2)
layout.addItem(QtGui.QSpacerItem(10, 10, QtGui.QSizePolicy.Expanding,
QtGui.QSizePolicy.Expanding), 3, 3, 15, 1)
self.checkCurva = QtGui.QCheckBox(QtGui.QApplication.translate(
"pychemqt", "Define destillation curve"))
layout.addWidget(self.checkCurva, 3, 4, 1, 2)
self.tipoCurva = QtGui.QComboBox()
self.tipoCurva.addItem("ASTM D86")
self.tipoCurva.addItem("TBP")
self.tipoCurva.addItem("EFV")
self.tipoCurva.addItem("ASTM D1186")
self.tipoCurva.addItem("ASTM D2887 (SD)")
self.tipoCurva.setEnabled(False)
layout.addWidget(self.tipoCurva, 4, 4, 1, 2)
self.textoPresion = QtGui.QLabel(
QtGui.QApplication.translate("pychemqt", "Pressure"))
self.textoPresion.setEnabled(False)
layout.addWidget(self.textoPresion, 5, 4)
self.presion = Entrada_con_unidades(Pressure, value=101325.)
self.presion.setEnabled(False)
self.presion.valueChanged.connect(partial(self.changeParams, "P_dist"))
layout.addWidget(self.presion, 5, 5)
self.curvaDestilacion = Tabla(
2, filas=1, horizontalHeader=["%dist", "Tb, "+Temperature.text()],
verticalHeader=False, dinamica=True)
self.curvaDestilacion.setEnabled(False)
self.curvaDestilacion.editingFinished.connect(self.changeCurva)
layout.addWidget(self.curvaDestilacion, 6, 4, 13, 2)
self.checkBlend = QtGui.QCheckBox(QtGui.QApplication.translate(
"pychemqt", "Blend if its necessary"))
layout.addWidget(self.checkBlend, 19, 4, 1, 2)
self.checkCurva.toggled.connect(self.tipoCurva.setEnabled)
self.checkCurva.toggled.connect(self.presion.setEnabled)
self.checkCurva.toggled.connect(self.textoPresion.setEnabled)
self.checkCurva.toggled.connect(self.curvaDestilacion.setEnabled)
layout.addItem(QtGui.QSpacerItem(20, 20, QtGui.QSizePolicy.Fixed,
QtGui.QSizePolicy.Fixed), 20, 1, 1, 2)
self.checkCrudo = QtGui.QCheckBox(QtGui.QApplication.translate(
"pychemqt", "Use petrol fraction from list"))
self.checkCrudo.toggled.connect(self.changeUnknown)
layout.addWidget(self.checkCrudo, 21, 1, 1, 2)
self.crudo = QtGui.QComboBox()
self.crudo.setEnabled(False)
self.crudo.addItem("")
for i in crudo[1:]:
self.crudo.addItem("%s (%s) API: %s %S: %s" % (i[0], i[1], i[3], i[4]))
# i[0]+" ("+i[1]+")"+" API: "+str(i[3])+" %S: "+str(i[4]))
self.crudo.currentIndexChanged.connect(partial(
self.changeParams, "indice"))
layout.addWidget(self.crudo, 23, 1, 1, 5)
layout.addWidget(QtGui.QLabel("Pseudo C+"), 24, 1)
self.Cplus = Entrada_con_unidades(int, width=50, spinbox=True, step=1,
min=6)
self.Cplus.valueChanged.connect(partial(self.changeParams, "Cplus"))
layout.addWidget(self.Cplus, 24, 2)
self.checkCrudo.toggled.connect(self.crudo.setEnabled)
self.checkCrudo.toggled.connect(self.Cplus.setEnabled)
layout.addItem(QtGui.QSpacerItem(5, 5, QtGui.QSizePolicy.Expanding,
QtGui.QSizePolicy.Expanding), 29, 1, 1, 2)
newComponent.loadUI(self)
self.Petroleo = Petroleo()
self.Crudo = Crudo()
@property
def unknown(self):
if self.checkCrudo.isChecked():
return self.Crudo
else:
return self.Petroleo
def changeUnknown(self):
self.status.setState(self.unknown.status, self.unknown.msg)
self.buttonShowDetails.setEnabled(self.unknown.status)
self.buttonBox.button(QtGui.QDialogButtonBox.Save).setEnabled(
self.unknown.status)
def changeCurva(self):
temp = self.curvaDestilacion.getColumn(0)
T_dist = self.curvaDestilacion.getColumn(1)
curvas = ["D86", "TBP", "EFV", "D1160", "SD"]
x = curvas.pop(self.tipoCurva.currentIndex())
kwargs = {}
kwargs[x] = temp
kwargs["Tdist"] = T_dist
for curva in curvas:
kwargs[curva] = []
self.calculo(**kwargs)
class Definicion_Petro(newComponent):
"""Dialog for define hypothetical crude and oil fraction"""
ViewDetails = View_Petro
def __init__(self, parent=None):
super(Definicion_Petro, self).__init__(parent)
self.setWindowTitle(
QtGui.QApplication.translate("pychemqt",
"Petrol component definition"))
layout = QtGui.QGridLayout(self)
layout.addWidget(
QtGui.QLabel(QtGui.QApplication.translate("pychemqt", "Name")), 1,
1)
self.nombre = QtGui.QLineEdit()
self.nombre.textChanged.connect(partial(self.changeParams, "name"))
layout.addWidget(self.nombre, 1, 2, 1, 4)
layout.addItem(
QtGui.QSpacerItem(10, 10, QtGui.QSizePolicy.Fixed,
QtGui.QSizePolicy.Fixed), 2, 1, 1, 2)
layout.addWidget(
QtGui.QLabel(
QtGui.QApplication.translate("pychemqt", "Boiling point")), 3,
1)
self.Tb = Entrada_con_unidades(Temperature)
self.Tb.valueChanged.connect(partial(self.changeParams, "Tb"))
layout.addWidget(self.Tb, 3, 2)
layout.addWidget(
QtGui.QLabel(
QtGui.QApplication.translate("pychemqt", "Molecular Weight")),
4, 1)
self.M = Entrada_con_unidades(float, textounidad="g/mol")
self.M.valueChanged.connect(partial(self.changeParams, "M"))
layout.addWidget(self.M, 4, 2)
layout.addWidget(
QtGui.QLabel(
QtGui.QApplication.translate("pychemqt", "Specific Gravity")),
5, 1)
self.SG = Entrada_con_unidades(float)
self.SG.valueChanged.connect(partial(self.changeParams, "SG"))
layout.addWidget(self.SG, 5, 2)
layout.addWidget(
QtGui.QLabel(
QtGui.QApplication.translate("pychemqt", "API gravity")), 6, 1)
self.API = Entrada_con_unidades(float)
self.API.valueChanged.connect(partial(self.changeParams, "API"))
layout.addWidget(self.API, 6, 2)
layout.addWidget(QtGui.QLabel("K watson:"), 7, 1)
self.Kw = Entrada_con_unidades(float)
self.Kw.valueChanged.connect(partial(self.changeParams, "Kw"))
layout.addWidget(self.Kw, 7, 2)
layout.addWidget(QtGui.QLabel("C/H:"), 8, 1)
self.CH = Entrada_con_unidades(float)
self.CH.valueChanged.connect(partial(self.changeParams, "CH"))
layout.addWidget(self.CH, 8, 2)
layout.addWidget(QtGui.QLabel(u"ν<sub>100F</sub>:"), 9, 1)
self.v100 = Entrada_con_unidades(Diffusivity)
self.v100.valueChanged.connect(partial(self.changeParams, "v100"))
layout.addWidget(self.v100, 9, 2)
layout.addWidget(QtGui.QLabel(u"ν<sub>210F</sub>:"), 10, 1)
self.v210 = Entrada_con_unidades(Diffusivity)
self.v210.valueChanged.connect(partial(self.changeParams, "v210"))
layout.addWidget(self.v210, 10, 2)
layout.addWidget(
QtGui.QLabel(
QtGui.QApplication.translate("pychemqt", "Refraction index")),
11, 1)
self.n = Entrada_con_unidades(float)
self.n.valueChanged.connect(partial(self.changeParams, "n"))
layout.addWidget(self.n, 11, 2)
layout.addWidget(
QtGui.QLabel(
QtGui.QApplication.translate("pychemqt", "Huang parameter")),
12, 1)
self.I = Entrada_con_unidades(float)
self.I.valueChanged.connect(partial(self.changeParams, "I"))
layout.addWidget(self.I, 12, 2)
layout.addWidget(QtGui.QLabel("%S"), 13, 1)
self.S = Entrada_con_unidades(float, spinbox=True, step=1.0, max=100)
self.S.valueChanged.connect(partial(self.changeParams, "S"))
layout.addWidget(self.S, 13, 2)
layout.addWidget(QtGui.QLabel("%H"), 14, 1)
self.H = Entrada_con_unidades(float, spinbox=True, step=1.0, max=100)
self.H.valueChanged.connect(partial(self.changeParams, "H"))
layout.addWidget(self.H, 14, 2)
layout.addWidget(QtGui.QLabel("%N"), 15, 1)
self.N = Entrada_con_unidades(float, spinbox=True, step=1.0, max=100)
self.N.valueChanged.connect(partial(self.changeParams, "N"))
layout.addWidget(self.N, 15, 2)
layout.addWidget(
QtGui.QLabel(
QtGui.QApplication.translate("pychemqt", "Carbons number")),
19, 1)
self.carbonos = Entrada_con_unidades(int,
width=50,
spinbox=True,
step=1,
start=7,
min=5,
max=100)
self.N.valueChanged.connect(partial(self.changeParams, "Nc"))
layout.addWidget(self.carbonos, 19, 2)
layout.addItem(
QtGui.QSpacerItem(10, 10, QtGui.QSizePolicy.Expanding,
QtGui.QSizePolicy.Expanding), 3, 3, 15, 1)
self.checkCurva = QtGui.QCheckBox(
QtGui.QApplication.translate("pychemqt",
"Define destillation curve"))
layout.addWidget(self.checkCurva, 3, 4, 1, 2)
self.tipoCurva = QtGui.QComboBox()
self.tipoCurva.addItem("ASTM D86")
self.tipoCurva.addItem("TBP")
self.tipoCurva.addItem("EFV")
self.tipoCurva.addItem("ASTM D1186")
self.tipoCurva.addItem("ASTM D2887 (SD)")
self.tipoCurva.setEnabled(False)
layout.addWidget(self.tipoCurva, 4, 4, 1, 2)
self.textoPresion = QtGui.QLabel(
QtGui.QApplication.translate("pychemqt", "Pressure"))
self.textoPresion.setEnabled(False)
layout.addWidget(self.textoPresion, 5, 4)
self.presion = Entrada_con_unidades(Pressure, value=101325.)
self.presion.setEnabled(False)
self.presion.valueChanged.connect(partial(self.changeParams, "P_dist"))
layout.addWidget(self.presion, 5, 5)
self.curvaDestilacion = Tabla(
2,
filas=1,
horizontalHeader=["%dist", "Tb, " + Temperature.text()],
verticalHeader=False,
dinamica=True)
self.curvaDestilacion.setEnabled(False)
self.curvaDestilacion.editingFinished.connect(self.changeCurva)
layout.addWidget(self.curvaDestilacion, 6, 4, 13, 2)
self.checkBlend = QtGui.QCheckBox(
QtGui.QApplication.translate("pychemqt", "Blend if its necessary"))
layout.addWidget(self.checkBlend, 19, 4, 1, 2)
self.checkCurva.toggled.connect(self.tipoCurva.setEnabled)
self.checkCurva.toggled.connect(self.presion.setEnabled)
self.checkCurva.toggled.connect(self.textoPresion.setEnabled)
self.checkCurva.toggled.connect(self.curvaDestilacion.setEnabled)
layout.addItem(
QtGui.QSpacerItem(20, 20, QtGui.QSizePolicy.Fixed,
QtGui.QSizePolicy.Fixed), 20, 1, 1, 2)
self.checkCrudo = QtGui.QCheckBox(
QtGui.QApplication.translate("pychemqt",
"Use petrol fraction from list"))
self.checkCrudo.toggled.connect(self.changeUnknown)
layout.addWidget(self.checkCrudo, 21, 1, 1, 2)
self.crudo = QtGui.QComboBox()
self.crudo.setEnabled(False)
self.crudo.addItem("")
for i in crudo[1:]:
self.crudo.addItem("%s (%s) API: %s %S: %s" %
(i[0], i[1], i[3], i[4]))
# i[0]+" ("+i[1]+")"+" API: "+str(i[3])+" %S: "+str(i[4]))
self.crudo.currentIndexChanged.connect(
partial(self.changeParams, "indice"))
layout.addWidget(self.crudo, 23, 1, 1, 5)
layout.addWidget(QtGui.QLabel("Pseudo C+"), 24, 1)
self.Cplus = Entrada_con_unidades(int,
width=50,
spinbox=True,
step=1,
min=6)
self.Cplus.valueChanged.connect(partial(self.changeParams, "Cplus"))
layout.addWidget(self.Cplus, 24, 2)
self.checkCrudo.toggled.connect(self.crudo.setEnabled)
self.checkCrudo.toggled.connect(self.Cplus.setEnabled)
layout.addItem(
QtGui.QSpacerItem(5, 5, QtGui.QSizePolicy.Expanding,
QtGui.QSizePolicy.Expanding), 29, 1, 1, 2)
newComponent.loadUI(self)
self.Petroleo = Petroleo()
self.Crudo = Crudo()
@property
def unknown(self):
if self.checkCrudo.isChecked():
return self.Crudo
else:
return self.Petroleo
def changeUnknown(self):
self.status.setState(self.unknown.status, self.unknown.msg)
self.buttonShowDetails.setEnabled(self.unknown.status)
self.buttonBox.button(QtGui.QDialogButtonBox.Save).setEnabled(
self.unknown.status)
def changeCurva(self):
temp = self.curvaDestilacion.getColumn(0)
T_dist = self.curvaDestilacion.getColumn(1)
curvas = ["D86", "TBP", "EFV", "D1160", "SD"]
x = curvas.pop(self.tipoCurva.currentIndex())
kwargs = {}
kwargs[x] = temp
kwargs["Tdist"] = T_dist
for curva in curvas:
kwargs[curva] = []
self.calculo(**kwargs)
class UI_equipment(UI_equip):
"""Baghouse equipment edition dialog"""
Equipment = Baghouse()
def __init__(self, equipment=None, parent=None):
"""
equipment: Initial equipment instance to model
"""
super().__init__(Baghouse, entrada=False, parent=parent)
# Efficiency tab
title = [
QtWidgets.QApplication.translate("pychemqt", "Diameter") + ", " +
Length.text("ParticleDiameter"),
QtWidgets.QApplication.translate("pychemqt", "Efficiency")
]
self.efic = Tabla(2, horizontalHeader=title, filas=1, stretch=False)
self.efic.setColumnReadOnly(0, True)
self.efic.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
self.efic.editingFinished.connect(self.cambiarRendimientos)
self.tabWidget.insertTab(
1, self.efic,
QtWidgets.QApplication.translate("pychemqt", "Efficiencies"))
# Calculate tab
lyt_Calc = QtWidgets.QGridLayout(self.tabCalculo)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Mode")), 1, 1)
self.metodo = QtWidgets.QComboBox()
for txt in self.Equipment.TEXT_TIPO:
self.metodo.addItem(txt)
self.metodo.currentIndexChanged.connect(self.tipoCalculoCambiado)
lyt_Calc.addWidget(self.metodo, 1, 2, 1, 3)
lyt_Calc.addItem(
QtWidgets.QSpacerItem(20, 20, QtWidgets.QSizePolicy.Fixed,
QtWidgets.QSizePolicy.Fixed), 2, 1, 1, 6)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "No cells")), 3,
1)
self.num_filtros = Entrada_con_unidades(int,
spinbox=True,
step=1,
min=1,
width=50,
resaltado=True,
start=1)
self.num_filtros.valueChanged.connect(
partial(self.changeParams, "num_filtros"))
lyt_Calc.addWidget(self.num_filtros, 3, 2)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Time")), 4, 1)
self.tiempo = Entrada_con_unidades(Time, resaltado=True)
self.tiempo.valueChanged.connect(partial(self.changeParams, "tiempo"))
lyt_Calc.addWidget(self.tiempo, 4, 2)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Pressure drop")),
5, 1)
self.deltaP = Entrada_con_unidades(Pressure, retornar=False)
self.deltaP.setReadOnly(True)
self.deltaP.valueChanged.connect(partial(self.changeParams, "deltaP"))
lyt_Calc.addWidget(self.deltaP, 5, 2)
lyt_Calc.addItem(
QtWidgets.QSpacerItem(20, 20, QtWidgets.QSizePolicy.Fixed,
QtWidgets.QSizePolicy.Fixed), 6, 1, 1, 6)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Bags per cell")),
7, 1)
self.membranasFiltro = Entrada_con_unidades(int,
spinbox=True,
step=1,
min=1)
self.membranasFiltro.valueChanged.connect(
partial(self.changeParams, "membranasFiltro"))
lyt_Calc.addWidget(self.membranasFiltro, 7, 2)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Bag diameter")),
8, 1)
self.diametroMembrana = Entrada_con_unidades(Length)
self.diametroMembrana.valueChanged.connect(
partial(self.changeParams, "diametroMembrana"))
lyt_Calc.addWidget(self.diametroMembrana, 8, 2)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Area per bag")),
9, 1)
self.areaMembrana = Entrada_con_unidades(Area)
self.areaMembrana.valueChanged.connect(
partial(self.changeParams, "areaMembrana"))
lyt_Calc.addWidget(self.areaMembrana, 9, 2)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt",
"Cloth resistence")), 7, 4)
self.resistenciaFiltro = Entrada_con_unidades(float)
self.resistenciaFiltro.valueChanged.connect(
partial(self.changeParams, "resistenciaFiltro"))
lyt_Calc.addWidget(self.resistenciaFiltro, 7, 5)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt",
"Cake resistence")), 8, 4)
self.resistenciaTorta = Entrada_con_unidades(float)
self.resistenciaTorta.valueChanged.connect(
partial(self.changeParams, "resistenciaTorta"))
lyt_Calc.addWidget(self.resistenciaTorta, 8, 5)
lyt_Calc.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Cells cleaned")),
9, 4)
self.limpieza = Entrada_con_unidades(int, spinbox=True, step=1, min=0)
self.limpieza.valueChanged.connect(
partial(self.changeParams, "limpieza"))
lyt_Calc.addWidget(self.limpieza, 9, 5)
lyt_Calc.addItem(
QtWidgets.QSpacerItem(20, 20, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Expanding), 10, 1, 1,
6)
groupbox = QtWidgets.QGroupBox(
QtWidgets.QApplication.translate("pychemqt", "Results"))
lyt_Calc.addWidget(groupbox, 11, 1, 1, 5)
lyt = QtWidgets.QGridLayout(groupbox)
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "No cells")), 1,
1)
self.num_filtrosCalc = Entrada_con_unidades(int, readOnly=True)
lyt.addWidget(self.num_filtrosCalc, 1, 2)
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Time")), 2, 1)
self.tiempoCalc = Entrada_con_unidades(Time, readOnly=True)
lyt.addWidget(self.tiempoCalc, 2, 2)
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Pressure drop")),
3, 1)
self.deltaPCalc = Entrada_con_unidades(Pressure, readOnly=True)
lyt.addWidget(self.deltaPCalc, 3, 2)
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Gas velocity")),
1, 4)
self.Vgas = Entrada_con_unidades(Speed, retornar=False, readOnly=True)
lyt.addWidget(self.Vgas, 1, 5)
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Efficiency")), 2,
4)
self.rendimiento = Entrada_con_unidades(float, readOnly=True)
lyt.addWidget(self.rendimiento, 2, 5)
lyt.addWidget(
QtWidgets.QLabel(
QtWidgets.QApplication.translate("pychemqt", "Area")), 3, 4)
self.floorArea = Entrada_con_unidades(Area, readOnly=True)
lyt.addWidget(self.floorArea, 3, 5)
lyt_Calc.addItem(
QtWidgets.QSpacerItem(20, 20, QtWidgets.QSizePolicy.Expanding,
QtWidgets.QSizePolicy.Expanding), 12, 1, 1,
6)
# Output tab
self.addSalida(
QtWidgets.QApplication.translate("pychemqt", "Filtered gas"))
self.addSalida(
QtWidgets.QApplication.translate("pychemqt", "Collected solids"))
if equipment:
self.setEquipment(equipment)
def cambiarRendimientos(self):
self.changeParams("rendimientos", self.efic.getColumn(1))
def tipoCalculoCambiado(self, tipo_calculo):
if tipo_calculo == 0:
self.num_filtros.setReadOnly(False)
self.num_filtros.setResaltado(True)
self.tiempo.setReadOnly(False)
self.tiempo.setResaltado(True)
self.deltaP.setReadOnly(True)
self.deltaP.setResaltado(False)
elif tipo_calculo == 1:
self.num_filtros.setReadOnly(False)
self.num_filtros.setResaltado(True)
self.tiempo.setReadOnly(True)
self.tiempo.setResaltado(False)
self.deltaP.setReadOnly(False)
self.deltaP.setResaltado(True)
else:
self.num_filtros.setReadOnly(True)
self.num_filtros.setResaltado(False)
self.tiempo.setReadOnly(False)
self.tiempo.setResaltado(True)
self.deltaP.setReadOnly(False)
self.deltaP.setResaltado(True)
self.changeParams("metodo", tipo_calculo)
def rellenarInput(self):
UI_equip.rellenarInput(self)
if self.Equipment.kwargs["entrada"].solido:
diametros = []
for d in self.Equipment.kwargs["entrada"].solido.diametros:
diametros.append(d.config("ParticleDiameter"))
self.efic.setColumn(0, diametros)
if any(self.Equipment.kwargs["rendimientos"]):
self.efic.setColumn(1, self.Equipment.kwargs["rendimientos"])
