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OntoCAPE

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Classes & Properties

- **UnitOfMeasure** (*Class*) — `UnitOfMeasure` — — _comment:_ A UnitOfMeasure is a standard measure for the ScalarValue of a of PhysicalQuantity. - **object-featureRelation** (*ObjectProperty*) — `object-featureRelation` — - **PhysicalDimension** (*Class*) — `PhysicalDimension` — — _comment:_ A PhysicalDimension is a characteristic associated with PhysicalQuantities and UnitsOfMeasure for purposes of organization or differentiation. Mass, length, and force are exemplary instances of PhysicalDimension. - **hasChemicalReactionNetwork** (*ObjectProperty*) — `hasChemicalReactionNetwork` — — _comment:_ The relation hasChemicalRectionNetwork indicates that a reaction as considered on a rather macroscopic perspective of an early design stage may be the result of an sequence of reactions occurring on the bases of several phases. - **isPredecessorOf** (*ObjectProperty*) — `isPredecessorOf` — — _comment:_ The relation isPredecessorOf identifies all Devices and DirectedConnections that are predecessors of the considered one. - **Connection** (*Class*) — `Connection` — — _comment:_ Connections are those elements of a NetworkSystem that represent the linkages between the Devices. - **QuantitativeValue** (*Class*) — `QuantitativeValue` — — _comment:_ A QuantitativeValue is the value of a PhysicalQuantity. - **isConsideredUnderAspectOf** (*ObjectProperty*) — `isConsideredUnderAspectOf` — — _comment:_ The relation isConsideredUnderAspectOf indicates the type of an AspectSystem by referring to an instance of the Aspect class. - **EnvironmentConnection** (*Class*) — `EnvironmentConnection` — - **Fragmentation** (*Class*) — `Fragmentation` — — _comment:_ Fragmentation in terms of unit operation is the breakup of solid material for further processing. - **ProcessStream** (*Class*) — `ProcessStream` — — _comment:_ A ProcessStream indicated the continuous mode of operation applied to the Process. - **hasProperty** (*ObjectProperty*) — `hasProperty` — — _comment:_ The relation hasProperty indicates the Properties of a System. - **PressureDifference** (*Class*) — `PressureDifference` — - **ConnectionPoint** (*Class*) — `ConnectionPoint` — — _comment:_ A ConnectionPoint represents the interface through which a Connection can be connected to the Port of a device. ConnectionPoints may have certain attributes that further specify the type of connection. ConnectionPoints are subsystems of the corresponding Connection or DirectedConnection, respectively. - **Model** (*Class*) — `Model` — — _comment:_ A Model is a system that is used to enable the understanding of or the command over the original system, or to replace the original system. Model system and original system share certain characteristics that are of relevance to the task at hand (Wüsteneck, 1963). - **ReactionNetwork** (*Class*) — `ReactionNetwork` — - **Batch** (*Individual*) — `Batch` — - **inter-objectRelation** (*ObjectProperty*) — `inter-objectRelation` — - **hasOperationMode** (*ObjectProperty*) — `hasOperationMode` — — _comment:_ The relation hasOperationMode indicates by which operation modes a particular process state is achieved. - **ProcessStepProperty** (*Class*) — `ProcessStepProperty` — - **ProcessStep** (*Class*) — `ProcessStep` — — _comment:_ A ProcessStep is a certain material processing procedure. - **pressure** (*Individual*) — `pressure` — - **ConstantProperty** (*Class*) — `ConstantProperty` — — _comment:_ A ConstantProperty is a Property that has exactly one Value. - **isDirectlyConnectedTo** (*ObjectProperty*) — `isDirectlyConnectedTo` — — _comment:_ The relation isDirectlyConnectedTo denotes the direct topological connectedness of two System. - **CoreProduct** (*Class*) — `CoreProduct` — — _comment:_ A CoreProduct is a main (or an intended) EndProduct. - **Flashing** (*Class*) — `Flashing` — — _comment:_ Flashing utilized the state of phase equilibrium between a vapor and a liquid phase and the resulting material transport if a mixture with different fugacity is existent. In terms of unit operation this is usually accomplished in a vessel. - **Reaction** (*Class*) — `Reaction` — — _comment:_ A Reaction is a ProcessStep in which some material is converted to some other material through chemical or biochemical reactions - **ReusableWasteProduct** (*Class*) — `ReusableWasteProduct` — — _comment:_ A ReusableWasteProduct is a WasteProduct that can be reused for production. - **Subsystem** (*Class*) — `Subsystem` — — _comment:_ A Subsystem is a System that is a constituent of another System. - **isPropertyOf** (*ObjectProperty*) — `isPropertyOf` — — _comment:_ The relation isPropertyOf links a Property instance to a System instance. - **RawMaterial** (*Class*) — `RawMaterial` — — _comment:_ A RawMaterial is a Material that enters a ProcessStep. - **Mixing** (*Class*) — `Mixing` — — _comment:_ Mixing in terms of unit operations is a special type of combination which results in a mixture which is required for further processing. It is usually accomplished by means of stirrer. - **ExtensibleValueSet** (*Class*) — `ExtensibleValueSet` — — _comment:_ An ExtensibleValueSet is a ValueEnumeration which, unlike a FixedValueSet, is not defined by an (exhaustive) enumeration of its instances. Thus, the number of possible values may change at run time. - **PressureChangeOfGas** (*Class*) — `PressureChangeOfGas` — - **By-product** (*Class*) — `By-product` — — _comment:_ A Byproduct is an EndProduct whose production is unavoidable while a CoreProduct is produced. - **hasValue** (*ObjectProperty*) — `hasValue` — — _comment:_ The hasValue relation designates the Values of a Property. - **isDirectSubsystemOf** (*ObjectProperty*) — `isDirectSubsystemOf` — — _comment:_ The relation isDirectlySubsystemOf links a Subsystem to its direct Supersystem. - **Leaching** (*Class*) — `Leaching` — — _comment:_ Leaching in terms of unit operation is a particular form of extraction. Usually, a solute, a insolvable carrier and a solvent are applied for solid extraction - **hasSubsystem** (*ObjectProperty*) — `hasSubsystem` — — _comment:_ The relation hasSubsystem denotes the relation between a Supersystem and its Subsystem. - **UnitOperation** (*Class*) — `UnitOperation` — — _comment:_ A UnitOperation is a basic step in a process. This basic step might comprise mixing, separation, enthalpy change and many more to achieve the desired product. - **contains** (*ObjectProperty*) — `contains` — — _comment:_ "The Contains relation constitutes an alternative to the hasSubsystem relation. It should be used instead of hasSubsystem - **- if the hasSubsystem relation causes performance problems, or** (*Entity*) — `` — <> - **- if only one side of the aggregation relation is of interest, namely the indication of the constituting elements of a supersystem"** (*Entity*) — `` — <> - **ScalarValue** (*Class*) — `ScalarValue` — — _comment:_ A ScalarValue is the value of a ScalarQuantity. - **is_at_numbered_tray** (*DatatypeProperty*) — `is_at_numbered_tray` — - **Combination** (*Class*) — `Combination` — — _comment:_ A combination in terms of unit operation means to get together different process steps to achieve a particular one. - **IntermediateProduct** (*Class*) — `IntermediateProduct` — — _comment:_ An IntermediateProduct is a ChemicalProduct that is produced in a ProcessStep and is used in another ProcessStep in the whole processing system. - **InternalProperties** (*Class*) — `InternalProperties` — — _comment:_ The 'internal Properties' of a System are the Properties of its constituent Subsystems. They can be specified by means of a query class and thus inferred by reasoner. Such a query class must be defined individually for each System instance. The query class InternalProperties exemplarily demonstrates this approach for a sample System S. - **FlashVaporRatio** (*Class*) — `FlashVaporRatio` — - **numericalValue** (*DatatypeProperty*) — `numericalValue` — — _comment:_ The attribute numericalValue specifies the number part of a QuantitativeValue. - **hasDirectSubsystem** (*ObjectProperty*) — `hasDirectSubsystem` — — _comment:_ The relation hasDirectSubsystem refers from a Supersystem to its direct Subsystem. - **PropertySet** (*Class*) — `PropertySet` — — _comment:_ A Property set constitutes an (unordered) collection of Properties, which may be of different types. - **PhysicalQuantity** (*Class*) — `PhysicalQuantity` — — _comment:_ A PhysicalQuantity is a Property that has quantifiable Values. The concept includes scalars as well as vectors and higher-order tensors. Moreover, it comprises both physical quantities, such as mass or velocity, and nonphysical quantities, such as amount of money or rate of inflation - **Aspect** (*Class*) — `Aspect` — — _comment:_ An aspect represents a particular viewpoint of a system. An instance of the aspect class explicitly denominates that viewpoint. - **isSuccessorOf** (*ObjectProperty*) — `isSuccessorOf` — — _comment:_ The relation isSuccessorOf identifies all Devices and DirectedConnections that are successors of the considered one. - **Continuous** (*Individual*) — `Continuous` — - **value** (*DatatypeProperty*) — `value` — — _comment:_ The Value attribute holds the actual value of a QualitativeValue. - **isModeledBy** (*ObjectProperty*) — `isModeledBy` — — _comment:_ The relation isModeldBy points from a modeled System to its Model. - **leaves** (*ObjectProperty*) — `leaves` — — _comment:_ The relation Leaves connects an outgoing DirectedConnection to its source Device. - **isBackdropOf** (*ObjectProperty*) — `isBackdropOf` — — _comment:_ The isBackdropOf relation states that the Value serves as a backdrop for the observation of some other Value. - **Object** (*Class*) — `Object` — - **EndProduct** (*Class*) — `EndProduct` — — _comment:_ An EndProduct is an OutputProduct that is valuable. - **comprisesDirectly** (*ObjectProperty*) — `comprisesDirectly` — — _comment:_ The relation ComprisesDirectly indicates the direct members of a PropertySet. - **isDirectlyRelatedTo** (*ObjectProperty*) — `isDirectlyRelatedTo` — — _comment:_ The relation isDirectlyRelatedTo subsumes all kinds of direct inter-system relations. - **BatchProcess** (*Class*) — `BatchProcess` — — _comment:_ A BatchProcess indicates the batch mode of operation applied to the Process. - **Supersystem** (*Class*) — `Supersystem` — — _comment:_ A Supersystem is a System that has some constituent Subsystems. - **ScalarQuantity** (*Class*) — `ScalarQuantity` — — _comment:_ A ScalarQuantity is a scalar-valued PhysicalQuantity. - **isComposedOfSubsystem** (*ObjectProperty*) — `isComposedOfSubsystem` — — _comment:_ The relation isComposedOf indicates the non-sharable, direct Subsystem of a Supersystem. - **ElementarySystem** (*Class*) — `ElementarySystem` — — _comment:_ An ElementarySystem is a Subsystem that cannot further partitioned into Subsystems. - **hasDimension** (*ObjectProperty*) — `hasDimension` — — _comment:_ The relation hasDimension specifies the PhysicalDimension of a PhysicalQuantity or a UnitOfMeasure. - **process.owl** (*Entity*) — `process.owl` — — _comment:_ "The ontology module 'process' provides concepts a functional description of an chemical process system at an early stage of design. - **The following classes and relations from other ontology modules are used within 'process':** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** The following classes and relations from the Meta Model are refined within 'process':** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** ** (*Entity*) — `` — <> - ** "** (*Entity*) — `` — <> - **isValueOf** (*ObjectProperty*) — `isValueOf` — — _comment:_ The relation isValueOf assigns a Value to a Property. - **hasOutput** (*ObjectProperty*) — `hasOutput` — — _comment:_ The relation hasOutput connects a Device to an outgoing DirectedConnection. - **hasPressureDifference** (*ObjectProperty*) — `hasPressureDifference` — — _comment:_ The relation hasPressureDifference indicates the intended difference between two pressure state. - **KeyChemicalComponentConversionRatio** (*Class*) — `KeyChemicalComponentConversionRatio` — - **license** (*AnnotationProperty*) — `license` — - **TopLevelSystem** (*Class*) — `TopLevelSystem` — — _comment:_ A TopLevelSystem is a Supersystem that is not a constituent of some other System. - **sameAs** (*ObjectProperty*) — `sameAs` — — _comment:_ The relation denotes a correspondence between a Connection and its placeholder in a composition hierarchy - **PhaseChange** (*Class*) — `PhaseChange` — — _comment:_ PhaseChange is a specialization of EnthalpyChange an usually it is applied for the purpose of heat exchange between spatially separated phases - **isExclusivelySubsystemOf** (*ObjectProperty*) — `isExclusivelySubsystemOf` — — _comment:_ The relation isExclusivelySubsystemOf links a non-sharable Subsystem to its direct Supersystem. - **ProcessState** (*Class*) — `ProcessState` — — _comment:_ A ProcessState represents the collectivity of properties of a CertainMaterialAmount which is produced in the associating process step. - **hasVapourRatio** (*ObjectProperty*) — `hasVapourRatio` — — _comment:_ The relation hasVaporRatio indicates the liquid-vapor ratio of a particular mixture at a certain state within a vessel. - **FirstLevelSubsystem** (*Class*) — `FirstLevelSubsystem` — — _comment:_ A Subsystem at the first level of decomposition. - **hasUnitOfMeasure** (*ObjectProperty*) — `hasUnitOfMeasure` — — _comment:_ The relation hasUnitOfMeasure establishes the UnitOfMeasure of a ScalarValue. - **OutputProduct** (*Class*) — `OutputProduct` — — _comment:_ An OutputProduct is a Material that is output by a ProcessStep. - **EnthalpyChange** (*Class*) — `EnthalpyChange` — — _comment:_ EnthalpyChange in terms of unit operation considers a conversion of energy which often result in a change of the state of aggregation. - **AspectSystem** (*Class*) — `AspectSystem` — — _comment:_ An AspectSystem is an ExclusiveSubsystem that contains those system components, relationships, and constraints that are of relevance to a particular Aspect. - **Process** (*Class*) — `Process` — — _comment:_ An AggregatedProcessStep representing the entire function of the Process considered - **ModeOfOperation** (*Class*) — `ModeOfOperation` — - **hasCharacteristic** (*ObjectProperty*) — `hasCharacteristic` — — _comment:_ The hasCharacteristic relation constitutes a shorthand notation for the specification of a ConstantProperty and its Value. - **identity_dimension** (*Individual*) — `identity_dimension` — - **FeatureSpace** (*Class*) — `FeatureSpace` — - **ValueEnumeration** (*Class*) — `ValueEnumeration` — — _comment:_ A ValueEnumeration specifies a (finite) set of possible values of a QualitativeValue. - **DirectedConnection** (*Class*) — `DirectedConnection` — — _comment:_ DirectedConnection is a specialization of Connection and represents likewise the connecting element between Devices. However, the usage of DirectedConnection implies the indication of a directed interconnection. - **isConnectedTo** (*ObjectProperty*) — `isConnectedTo` — — _comment:_ The relation isConnectedTo represents topological connectivity between System. - **comprises** (*ObjectProperty*) — `comprises` — — _comment:_ The relation Comprises indicates the members of a PropertySet. - **AggregatedProcessStep** (*Class*) — `AggregatedProcessStep` — — _comment:_ An AggregatedProcessStep is a ProcessStep which consists of a number of ProcessSteps in a certain sequence. - **CompositeSystem** (*Class*) — `CompositeSystem` — — _comment:_ A CompositeSystem is a System that is composed of other Systems. - **representsAspectOf** (*ObjectProperty*) — `representsAspectOf` — — _comment:_ The relation representsAspectOf links a AspectSystem to its respective System. - **isRelatedTo** (*ObjectProperty*) — `isRelatedTo` — — _comment:_ The relation isRelatedTo subsumes all kinds of inter-system relations. - **hasAspectSystem** (*ObjectProperty*) — `hasAspectSystem` — — _comment:_ The relation hasAspectSystem designates the AspectSystems of a System. - **Separation** (*Class*) — `Separation` — — _comment:_ Separation in terms of unit operation means to achieve single components of a mixture by means of physical of chemical phenomenon. - **Value** (*Class*) — `Value` — — _comment:_ The Value class denotes the different values of a Property. - **NetworkSystem** (*Class*) — `NetworkSystem` — — _comment:_ A NetworkSystem is a system that is composed of some Connections and some Devices. - **FixedValueSet** (*Class*) — `FixedValueSet` — — _comment:_ A FixedValueSet is a ValueEnumeration that is defined by an exhaustive enumeration of its instances. Thus, the number of possible values is fixed. - **System** (*Class*) — `System` — — _comment:_ The System class denotes all kind of systems, which may be physical or abstract - **PressureChange** (*Class*) — `PressureChange` — — _comment:_ By means of a PressureChange a heat content of a particular fluid may be exchanged which may be used for heating or cooling purposes in terms of unit operations. - **SystemEnvironment** (*Class*) — `SystemEnvironment` — — _comment:_ The ImmediateEnvironment of a given System S consists of all Systems that are directly related to S. It can be specified by means of a query class. As the environment concept is relative, such a query class must be defined individually for each System instance. The query class SystemEnvironment exemplarily demonstrates the approach for sample System S. - **Port** (*Class*) — `Port` — — _comment:_ Ports represents the interfaces through which Devices are connected to Connections. A Port may have certain attributes that characterize the type of the connection. - **ExclusiveSubsystem** (*Class*) — `ExclusiveSubsystem` — — _comment:_ An ExclusiveSubsystem is a direct subsystem of a CompositeSystem; it cannot be a direct subsystem of any other System. - **PressureChangeOfLiquid** (*Class*) — `PressureChangeOfLiquid` — - **ValueSet** (*Class*) — `ValueSet` — - **isOfType** (*ObjectProperty*) — `isOfType` — - **SecondLevelSubsystem** (*Class*) — `SecondLevelSubsystem` — — _comment:_ A Subsystem at the second level of decomposition. - **models** (*ObjectProperty*) — `models` — — _comment:_ The relation 'models' links a Model to the modeled System. - **Device** (*Class*) — `Device` — — _comment:_ Devices are the crucial elements of a NetworkSystem, holding the major functionality. - **WasteProduct** (*Class*) — `WasteProduct` — — _comment:_ A WasteProduct is an OutputProduct that has no value. - **S** (*Individual*) — `S` — — _comment:_ Sample system; used for the construction of the query classes SystemEnvironment and InternalProperties. - **enters** (*ObjectProperty*) — `enters` — — _comment:_ The relation Enters interconnects an ingoing DirectedConnection to its target Device. - **SystemInterface** (*Class*) — `SystemInterface` — — _comment:_ The class SystemInterface represents the interface through which a System can be connected to another System. - **Property** (*Class*) — `Property` — — _comment:_ The Property class represents the individual properties (traits, qualities) of a System, which distinguish the System from others. Typical examples are Size, Color, or Weight, which are modeled as subclasses of Property. - **hasInput** (*ObjectProperty*) — `hasInput` — — _comment:_ The relation hasInput connects a Device to an incoming DirectedConnection. - **NonExhaustiveValueSet** (*Class*) — `NonExhaustiveValueSet` — - **PhysicalConstant** (*Class*) — `PhysicalConstant` — — _comment:_ A PhysicalConstant is a ScalarQuantity, the Value of which is believed to be both universal in nature and invariant over time. Examples are the elementary charge, the gravitational constant, Planck's constant, and the speed of light in the vacuum. - **isSubsystemOf** (*ObjectProperty*) — `isSubsystemOf` — — _comment:_ The relation isSubsystemOf refers from a Subsystem to its Supersystem. - **TemperatureChange** (*Class*) — `TemperatureChange` — — _comment:_ TemperatureChange in terms of unit operation means to transport the heat content of one material to another and it is applied for heating or cooling purposes. - **containsDirectly** (*ObjectProperty*) — `containsDirectly` — — _comment:_ "The relation containsDirectly is an alternative to the hasDirectSubsystem relation. It should be used instead of hasDirectSubsystem - **- if the hasDirectSubsystem relation causes performance problems, or** (*Entity*) — `` — <> - **- if only one side of the aggregation relation is of interest, namely the indication of the direct constituents Supersystem."** (*Entity*) — `` — <> - **Splitting** (*Class*) — `Splitting` — - **QualitativeValue** (*Class*) — `QualitativeValue` — — _comment:_ A QualitativeValue is a value that is not (numerically) quantifiable. - **Co-product** (*Class*) — `Co-product` — — _comment:_ A Co- product is an EndProduct whose production is unintended. - **isObservedAgainstBackdrop** (*ObjectProperty*) — `isObservedAgainstBackdrop` — — _comment:_ The isObservedAgainstBackdrop relation maps a Value against a backdrop Value. - **qualitativeValue** (*ObjectProperty*) — `qualitativeValue` — — _comment:_ The relation qualitativeValue specifies the actual value of a QualitativeValue. - **NonReusableWasteProduct** (*Class*) — `NonReusableWasteProduct` — — _comment:_ A NonReusableWasteProduct is a waste product that can not be reused.

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