RatingHeatShellAndTubeHeater Member List

This is the complete list of members for RatingHeatShellAndTubeHeater, including all inherited members.

addChild(std::string type, uint32_t id, Persistency *persistency)Node
addChild(std::string type, Libpf::Persistency::Defaults defaults)Node
addChild(const Node &child)Node
addChild(std::unique_ptr< Node > child)Node
addComponentVectorVariable(std::vector< Quantity > &variable, const std::string &tag, const std::string &description, Quantity::ValueType value)Modelprotected
addSubObjects(int verbosityFile, Libpf::Persistency::Defaults defaults, Persistency *persistency, int count, const std::string &optionKey, const std::string &typeKey, const std::string &tagKey, const std::string &description, std::vector< T * > &vector)Modelprotected
addVariable(T &variable)Objectprotected
addVectorVariable(std::vector< T > &variable, const std::string &tag, const std::string &description, uint32_t size, typename T::ValueType value)Objectprotected
at(const std::string &fullRelativeTag)Object
at(const std::string &fullRelativeTag) constObject
at(const std::string &fullRelativeTag, int index)Object
calculate(int level=0) overrideRatingHeatvirtual
calculateGeometry(void)ShellAndTube
category(void) const overrideRatingHeatvirtual
child(const std::string &tag) constNode
children(void)Node
children(void) constNode
children_Nodeprotected
clear(void) constObject
clone(void) constNodeinlinevirtual
compareParameters(const Object &rhs) constObject
created_at(void) constPersistent
defaults(void) constObject
descendants(void) constNode
description() constItem
Diagnostic(void)Diagnostic
dukler(double re, double pr)ShellCondensingprotected
exists(uint32_t id)Node
existsChild(std::string tag) constNode
existsI(const std::string &tag) constObject
existsQ(const std::string &tag) constObject
existsS(const std::string &tag) constObject
fullTag() constItem
getId(void) overrideNodevirtual
hasIcon(void) constNode
I(const std::string &tag) constObject
I(const std::string &tag, int index) constObject
I(const std::string &tag)Object
I(const std::string &tag, int index)Object
iconHeight(void) constNode
iconName(bool raster) constNode
iconWidth(void) constNode
id(void) constPersistent
in1(void) constShellAndTube
in2(void) constShellAndTube
initializeNonPersistents(void) overrideRatingHeatinlinevirtual
insert(Persistency *persistency) const overrideNodevirtual
INTEGER(nCalculations, "Number of times the model has been calculated", 0)Model
integers_Objectprotected
integerVectors_Objectprotected
isPristine(void) constModel
isRestored(void) constNode
Item(const Item &other)Item
Item(const std::string &tag, const std::string &description, Persistent *parent)Item
Item(Item &&other)Item
maximumIterations(void)Modelvirtual
Model(Libpf::Persistency::Defaults defaults, uint32_t id, Persistency *persistency, Persistent *parent, Persistent *root)Model
Node(Libpf::Persistency::Defaults defaults, uint32_t id=0, Persistency *persistency=nullptr, Persistent *parent=nullptr, Persistent *root=nullptr)Node
Node(const Node &other)Node
Node(Node &&other)Node
Object(const Object &other)Objectprotected
Object(Object &&other)Objectprotected
Object(Libpf::Persistency::Defaults defaults, uint32_t id=0, Persistency *persistency=nullptr, Persistent *parent=nullptr, Persistent *root=nullptr)Object
objectiveFunction(void) overrideRatingHeatinlinevirtual
offset(void) constNodeinlineprotected
operator!=(const Object &rhs) constObject
Node::operator!=(const Node &rhs) constNode
Persistent::operator!=(const Item &rhs) constItem
operator=(const Object &)Objectprotected
operator=(Object &&other)Objectprotected
operator=(const Node &) overrideObjectvirtual
operator=(Node &&other) overrideObjectvirtual
Persistent::operator=(const Persistent &)Persistent
Persistent::operator=(Persistent &&other)Persistent
Item::operator=(const Item &other)Item
Item::operator=(Item &&other)Item
operator==(const Object &rhs) constObject
Node::operator==(const Node &rhs) constNode
Persistent::operator==(const Item &rhs) constItem
out1(void) constShellAndTube
out2(void) constShellAndTube
parent() constIteminline
parent_Itemprotected
parentId(void) constPersistent
Persistent(const std::string &tag, const std::string &description, Persistent *parent, uint32_t id)Persistent
Persistent(const Persistent &)Persistent
Persistent(Persistent &&other)Persistent
pop(void)Object
preCalculate(void) overrideRatingHeatShellAndTubeHeatervirtual
print(std::ostream &os, bool strings, bool quantities, bool integers, bool recursive) constModel
printFull(std::ostream &) constModel
printHtml(const char *dir) constModel
printJson(std::ostream &os, int level=0) const overrideObjectvirtual
printOds(std::ofstream &ods) constModel
printSvg(const char *fileName, bool tiny, bool raster, int offset)Modelvirtual
printSvgAll(const char *dir, bool tiny, bool raster, int offset, std::vector< std::string > &list)Model
printSvgXlink(std::ostream &svg, const std::string &link, double width, double height)Modelprotected
printXml(const char *dir, Model *precedingSibling, Model *followingSibling) constModelvirtual
printXmlToc(std::ofstream &toc, int indent) constModel
prune(const std::string &tag)Node
push(void) constObject
Q(const std::string &tag) constObject
Q(const std::string &tag, int index) constObject
Q(const std::string &tag, int row, int column) constObject
Q(const std::string &tag)Object
Q(const std::string &tag, int index)Object
Q(const std::string &tag, int row, int column)Object
Q(const std::string &tag, std::string componentName) constObject
Q(const std::string &tag, std::string componentName)Object
Q(const std::string &tag, int index, std::string componentName) constObject
Q(const std::string &tag, int index, std::string componentName)Object
quantities(void)Object
quantities(void) constObject
quantities_Objectprotected
ShellCondensing::QUANTITY(Re_L2, "Terminal Reynolds number of the condensing film at the shell side", 1.0, "")ShellCondensing
ShellCondensing::QUANTITY(Pr_L2, "Terminal Prandtl number of the condensing film at the shell side", 1.0, "")ShellCondensing
ShellCondensing::QUANTITY(Du_L2, "Dukler diagram reading", 1.0, "")ShellCondensing
ShellCondensing::QUANTITY(deltaP_2, "Shell-side pressure drop", 0.0, "Pa")ShellCondensing
ShellCondensing::ShellAndTube::QUANTITY(N, "Number of tubes", 1.0, "")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(m, "Number of passes", 1.0, "")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(L, "Length of tubes", 1.0, "m")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(de, "Tube external diameter", 25.0, "mm")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(s, "Tube thickness", 2.0, "mm")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(R1f, "Process side fouling thermal resistance", 0.0, "m2*K/W")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(R2f, "Utility side fouling thermal resistance", 0.0, "m2*K/W")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(U1, "Process side heat transfer coefficient", 300.0, "W/(m2*K)")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(U2, "Utility side heat transfer coefficient", 1000.0, "W/(m2*K)")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(h, "Elevation positive for ascending", 0.0, "m")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(eps, "Rugosity", 0.0457, "mm")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(D, "Shell inner diameter", 1.0, "m")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(b, "Number of segmental baffles", 0.0, "")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(c, "Fractional baffle cut", 0.0, "")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(ns, "Number of sealing strips pairs", 0.0, "")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(d1, "Inner diameter of inlet nozzle", 0.1, "m")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(d2, "Inner diameter of outlet nozzle", 0.1, "m")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(di, "Tube internal diameter", 21.0, "mm")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(At, "Tubes total cross-section available for fluid flow", 1.0, "m2")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(km, "Thermal conductivity of the exchanger material", 1.0, "W/(m*K)")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(Rm, "Heat transfer resistance of the exchanger material", 1.0, "m2*K/W")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(theta, "Angle positive for ascending", 0.0, "")ShellAndTube
ShellCondensing::ShellAndTube::QUANTITY(ed, "Adimensional rugosity", 1E-6, "")ShellAndTube
ShellCondensing::RatingHeat::QUANTITY(U, "Overall heat transfer coefficient", 100.0, "W/(m2*K)")RatingHeat
ShellCondensing::RatingHeat::QUANTITY(Ft, "MTD correction factor", 1.0, "")RatingHeat
ShellCondensing::RatingHeat::QUANTITY(A, "Available heat transfer area", 10.0, "m2")RatingHeat
ShellCondensing::RatingHeat::QUANTITY(Areq, "Required heat transfer area", 10.0, "m2")RatingHeat
ShellCondensing::RatingHeat::QUANTITY(excessArea, "Ratio between available and required heat transfer area", 1.0, "")RatingHeat
TubesSensible::QUANTITY(Re_1, "Reynolds number", 1.0, "")TubesSensible
TubesSensible::QUANTITY(Pr_1, "Prandlt number", 1.0, "")TubesSensible
TubesSensible::QUANTITY(f, "friction factor", 1.0, "")TubesSensible
TubesSensible::QUANTITY(Nu_1, "Nusselt number", 1.0, "")TubesSensible
TubesSensible::QUANTITY(v_1, "Superficial velocity", 1.0, "m/s")TubesSensible
TubesSensible::QUANTITY(deltaP_A1, "Acceleration pressure drop", 1.0, "Pa")TubesSensible
TubesSensible::QUANTITY(deltaP_G1, "Gravitational pressure drop", 1.0, "Pa")TubesSensible
TubesSensible::QUANTITY(deltaP_F1, "Frictional pressure drop", 1.0, "Pa")TubesSensible
TubesSensible::QUANTITY(deltaP_1, "Total pressure drop", 1.0, "Pa")TubesSensible
TubesSensible::QUANTITY(rho1, "Density", 1.0, "kg/m3")TubesSensible
quantityMatrices_Objectprotected
quantityVectors_Objectprotected
range(void) const overrideNodevirtual
rate(const Quantity &duty, const Quantity &MTD)RatingHeat
RatingHeat(Libpf::Persistency::Defaults defaults, uint32_t id=0, Persistency *persistency=nullptr, Persistent *parent=nullptr, Persistent *root=nullptr)RatingHeat
RatingHeatShellAndTubeHeater(Libpf::Persistency::Defaults defaults, uint32_t id=0, Persistency *persistency=nullptr, Persistent *parent=nullptr, Persistent *root=nullptr)RatingHeatShellAndTubeHeater
readParameters(Persistency *persistency) overrideObjectvirtual
readVariables(Persistency *persistency) overrideObjectvirtual
remove(Persistency *persistency) const overrideNodevirtual
renameChild(const std::string &oldName, const std::string &newName)Node
reportError(std::string s)Model
reportMessages(void)Model
reportWarning(std::string s)Model
resetErrors(void)Model
restore(Persistency *persistency) overrideNodevirtual
retrieveInteger(const Libpf::Persistency::Defaults &defaults, uint32_t id, Persistency *persistency, std::string tag, int min, int max, int def=-1)Objectprotected
retrieveString(const Libpf::Persistency::Defaults &defaults, uint32_t id, Persistency *persistency, std::string tag, const std::string def)Objectprotected
root(void) constNodeinline
rootId(void) const overrideNodevirtual
S(const std::string &tag) constObject
S(const std::string &tag, int index) constObject
S(const std::string &tag)Object
S(const std::string &tag, int index)Object
search(uint32_t id)Node
setCalculated(void)Model
setDescription(const std::string &description)Item
setError(std::string s)Model
setIcon(std::string icon, double width, double height)Node
setPristine(void)Model
setPristineRecursive(void)Model
setRunTime(double t)Model
setTag(const std::string &tag)Item
setup(void) overrideRatingHeatShellAndTubeHeatervirtual
setVerbosity(int verbosity)Diagnostic
setWarning(std::string s)Model
setWideDescription(const std::wstring &description)Item
setWideTag(const std::wstring &tag)Item
ShellAndTube(Libpf::Persistency::Defaults defaults, uint32_t id=0, Persistency *persistency=nullptr, Persistent *parent=nullptr, Persistent *root=nullptr)ShellAndTube
ShellCondensing(Libpf::Persistency::Defaults defaults, uint32_t id=0, Persistency *persistency=nullptr, Persistent *parent=nullptr, Persistent *root=nullptr)ShellCondensing
STRING(correlation, "Heat transfer correlation", "PetukhovKirilov")TubesSensible
strings_Objectprotected
STRINGVECTOR(errors, "Errors from the last computation", 0, "")Model
STRINGVECTOR(warnings, "Warnings from the last computation", 0, "")Model
stringVectors_Objectprotected
tag() constItem
TubesSensible(Libpf::Persistency::Defaults defaults, uint32_t id=0, Persistency *persistency=nullptr, Persistent *parent=nullptr, Persistent *root=nullptr)TubesSensible
type(void) const overrideRatingHeatShellAndTubeHeaterinlinevirtual
type_RatingHeatShellAndTubeHeaterstatic
unSetInput(void)Model
update(Persistency *persistency) const overrideNodevirtual
updated_at(void) constPersistent
updated_at(double u) constPersistent
uuid(void) constPersistent
verbosity(void) constDiagnostic
verbosityInstanceDiagnosticprotected
~Diagnostic()=defaultDiagnosticprotectedvirtual
~Item()Iteminlinevirtual
~Node()Node
~Object(void)Object
~Persistent(void)Persistentinline
~RatingHeat(void)RatingHeat