The performance of the components amplifiers, cables, splitters, Features Handling of Catalogues for Wireless Components: For a prediction different types of databases can be used simultaneously and transitions between the databases are computed automatically. Further information related to the planning with the components can be found in the description of ProMan's indoor module.
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WinProp Software for Wave Propagation and Radio Planning
WinProp - Propagation Modeling A new dimension of wave propagation and radio network planning. Depending on the application WinProp offers static, Monte-Carlo, and dynamic wniprop simulators. Maximum received power as well as max.
Subscribe to join our Newsletter Learn about product training, news, events and more. A catalogue with all components used for the installation of wireless networks inside buildings, stadiums, and tunnels can be generated with CompoMan.
Phase Behaviour Modelling & PVT Creation using WinProp | Computer Modelling Group Ltd.
Asphaltene and Wax Precipitation Modelling Save time by quickly characterizing Asphaltene and Wax deposition fluid model for use in wibprop simulation. Features Handling of Catalogues for Wireless Components: The performance of the components amplifiers, cables, splitters, The catalogue with the components can be used in ProMan to plan the actual wireless network infrastructure inside the building. Graphical editors, CAD tools, and various converters are available for all types of databases. Capacity limitations and overloaded cells can be detected easily and networks can be optimized to provide both high capacity and throughput.
Accurately predict water content of gases Extensive library of geochemical reactions for rock mineralogy interaction with the aqueous phase Standard phase property table also includes entropy, enthalpy and heat capacity. Isenthalpic qinprop and multi-phase flash Saturation pressure and temperature PT, PX, and TX envelopes, with quality lines, available for two and three-phase calculations Ternary Diagrams Newton iteration for performing negative flashes in difficult regions.
ID of manufacturer Certified allowed frequency bands and air interfaces for the component Frequency dependent electrical properties losses, Link adaptation is considered and depends on winpro; channel quality predicted with the propagation models.
Subscribe to join our Newsletter Learn about product training, news, events and more. Training Characterize reservoir fluids to tune the EoS and predict phase behavior.
Additionally the user can define individual properties of the air interface to adapt it to the requirements. Signal manipulation Amplifiers Attenuators Further components Connectors Winprpp Definition of properties of each component Name of component and further comments related to component Manufacturer of component incl.
WinProp is an integral component in advanced reservoir simulation modelling and is invaluable for multi-phase and special processes, and where compositional variations exist. Hybrid Urban and Indoor.
Arbitrary antenna configurations linear, circular, Further information related to the planning with the components can be found in the description of ProMan's indoor module. The components can be placed and moved with the mouse in the 3D Scenario and the qinprop of the cables are determined automatically.
Exponential, two-stage exponential, and gamma distribution functions for characterization calculations Fraction splitting and component lumping to simplify creation of pseudo-components Specify own lumping criteria or use WinProp internal algorithm to determine lumping criteria.
WinProp computes the capacity throughput, max. The user can define the electrical and mechanical properties of the components as well as their costs procurement costs and mounting costs.
In WinProp various air interfaces and applications are pre-defined: Fundamental Calculations Improve your understanding of the reservoir fluid and phase behavior with advanced PVT and thermodynamic calculations.
Reservoir Fluid Characterization Understand property distribution within a reservoir fluid system, under different depletion scenarios. Peng-Robinson and Soave-Redlich-Kwong EoS models 2 and 3 parameter versionsto match lab data Create separate EoS models for surface separator conditions and reservoir conditions Regression on composition and properties to allow for easy matching of lab data Automatic parameter selection and built-in parameter bounds simplifies regression process Linear temperature-dependent volume shift model to accurately match lab calculated density Match separator data separately from PVT data gathered at reservoir temperature using differential liberation experiments Group parameters for regression and apply varying weights to specify importance of matching distinct parameters.
FEKO Student Edition 2018 with WinProp
The user can define the location dependent traffic for circuit and for packet switched services incl. For a prediction different types of databases can be used simultaneously and transitions between the databases are computed automatically.
User-friendly component lumping and fraction splitting options Extensive library of hydrocarbon and non-hydrocarbon components First contact miscibility pressure calculation to match data and understand the fluid mixture properties Differential evolution algorithms provides more stable search for minimum miscibility pressure MMP calculations Multiple mixing cell method of Ahmadi and Johns to calculate minimum miscibility pressure Create ternary diagrams winrop graphically interpret miscibility mechanisms and calculate how to achieve multi-contact miscibility Phase split calculation of Li, Johns and Ahmadi for multi-contact miscibility calculations.
Multi-component solid solubility model is coupled with Equations-of-State EoS for descriptions of asphaltene einprop wax precipitation Model up to three fluid phases in equilibrium with the precipitate as a multi-component solid.