HomePSS®SINCALWhat's New
PSS®SINCAL Evaluation Agreement Your Company (hereinafter Recipient), wishes to receive an evaluation copy of Siemens Industry, Inc., Siemens Power Technologies International (hereinafter Siemens PTI) program in order to evaluate the Program's suitability for its purposes. This agreement covers the following Siemens PTI Software: PSS®SINCAL.
What's New
- All the necessary functions are directly integrated in PSS SINCAL. The use of the 64-bit PSS SINCAL version is therefore possible without any problem. A further benefit of SQLite is the direct support in Python and also Java. This enables automation solutions accessing and evaluating the PSS SINCAL database to be created even more.
- Aug 03, 2021 OpenUtilities Analysis (Powered by Siemens’ PSS®SINCAL) enables power system planners to forecast and model the grid for decentralized energy without disrupting current operations. This situation means accurate forecasting, state-of-the-art models, and the ability to study many scenarios.
- PSS sincal project Simulate IEEE-13 bus system with mix of renewable energy sources (RES) using PSS sincal software Skills: Electrical Engineering, Engineering, Electronics, Software Testing, Software Architecture.
- PSS®SINCAL offers a variety of modules for the design, modeling, and analysis of electrical and pipe networks. Enhance your platform further with model and workflow management modules for all network types.
Coming soon in PSS®SINCAL 14.5
Many new enhancments will be introduced with v14.5 of the PSS®SINCAL Platform. The most notable enhancements are:
Economic calculation including loss cost based on load flow and cost profiles to get more precise network cost (CAPEX and OPEX) for the whole planning horizon.
Long term network development merged with economic simulation to find and compare the optimal placements (e.g. PVs or batteries) based on CAPEX / OPEX across the planning horizon and to support typical LNBA simulation.
Support of the Russian GOST Standard for short circuit simulation allowing you to utilize the specific industry defined values available for the network design.
New workflow management and interactive result cockpit to:
- Define your own planning workflow by selecting defined scenarios and in combination with preferred calculation modules
- Create your own interactive result view by selecting result parameters and scenarios
- Compress the results visualization to align with your given task
User encrypted dynamic models to define your dynamic model in the GMB and store the encrypted behavior for the safe usage by other users
![Pss Sincal Software Pss Sincal Software](/uploads/1/1/8/9/118946661/516320966.png)
New features for Eigenvalue Analysis including:
- New option in the calculation window: Reduce the display range to only show the real state variables.
- Optimized result presentation: Utilize adequate diagram presentations with Bode and Polar diagrams
PSA module enhancements for improved adaptive protection setting, including:
- Embedding DN, giving you more criteria for optimal distribution system protection settings
- Ability to include substation protection and frequency protection in the complete protection assessment checks
- Capability to run different short circuits simulations and aggregate the results in one action
- Improving speed by using distributed computing and get results within seconds
Harmonic Simulation supporting IEEE 519 2014 to check voltage and current distortion limits throughout your network and utilize new element models for harmonic simulation.
Many more enhancements
PSS SINCALAll-in-one Simulation Softwarefor the Analysis and Planningof Power Networkssiemens.com/pss-sincal
Pss Sincal software, free download
PSS SINCAL Simulation Software for the Analysis & Planning of Power NetworksPSS SINCAL is an all-in-oneanalysis tool that supportsplanning engineers fromelectricity transmission anddistribution to pipe networks(including Hybrid networks).Table of ContentsPSS SINCAL – Overview Where Does PSS SINCAL Fit? 20304 – 06Highlights 07Architecture 08Electricity Modules 09 – 18Pipe Network Modules 19 – 20Product Support 21Company Profile 22 – 23
Simulation Software for the Analysis & Planning of Power Networks PSS SINCALPSS SINCAL – OverviewPSS SINCAL is a power system simulator for the planning, modeling, and analysis of all types of networks, including:transmission, distribution, industrial, rail, and renewables / distributed energy systems. It is used in over 90 countries aroundthe world by transmission and distribution planning engineers, protection engineers, power system consultants, power qualityengineers, power plant and industrial network operators, distributed energy resource field engineers, operations planningengineers, IT professionals, and researchers.Its field of application enables the engineers to get answers to questions on power- and frequency stability, correct protectionsetup, restoration of supply or economic driven design decisions across all voltage levels. Due to its support for both balancedand unbalanced networks, PSS SINCAL enables users to study the combined impacts on the low-medium-high voltage networksimultaneously – a task that is becoming an increasingly important industry requirement as the transmission and distribution(T&D) worlds are becoming more integrated. This includes true to live modeling of elements such as PV, wind parks, e-cars, fuelcells, batteries and central control systems. As PSS SINCAL combines the analytic capabilities of electrical and pipe networks, itis ready for studies of Hybrid networks (also called universal grid). The tool exchanges energy between electrical networks andgas or heating networks to decrease the high volatility of our future energy systems.User-defined applications can be developed with its object-oriented data model. Furthermore, sophisticated case and datamanagement facilitate the handling of complex multi-user projects. PSS SINCAL can be integrated with other components ofthe utility IT landscape, including Geographic Information Systems (GIS), SCADA, Distribution Management Systems (DMS), andMeter Data Management Systems (MDMS).Unique AdvantagesAs a single source solution, PSS SINCAL is designed bypower engineers to solve power engineering challenges.For over 50 years, Siemens PTI engineers have optimizedthe capabilities of PSS SINCAL, offering the tools neededto meet evolving and future industry challenges (such asquantifying the technical and economic impacts of theincreasing penetration of Distributed Energy Resources[DERs]). Due to its longevity and adaptability, PSS SINCALoffers a number of distinct advantages: Modern user interface with interactive internetvisualizations of network models in schematic,geographic, or multilayer diagrams Proven high-performance, fast and accurate simulationengine Programming can be done with standard scriptinglanguages such as VBA, VBS, C , .Net, Python andJava via COM. Established highly versatile application with standardizedinterfaces for easy data import and export – allowingusers to maintain a variety of data sets in a single system Numerous interfaces enabling simple integration into anyIT environment – the use of open or commercial databasespermits direct data exchange with other systems(e.g., GIS, SCADA, ERP, MDMS, Asset Management) Tight integration with other applications in thePSS Portfolio, such as PSS E Equipped with a complete set of algorithms from load flowand short circuit up to advanced, such as: economic andstrategic planning, and dynamics Interactive work-flow support with user-definedcustomizations Multi-dimensional network model including the ability tomanage time-based model changes / variants / scenarios /projects3
PSS SINCAL Simulation Software for the Analysis & Planning of Power NetworksWhere does PSS SINCAL Fit?Distribution Network Planningand AnalysisGenerationUtilities, TSOs, and Independent Power Producers (IPPs)need to run a variety of different studies to plan for secure,reliable, and economically feasible power generationinfrastructure investments. These generation interconnectionstudies include multiple types of analysis (e.g., load flow,short circuit, dynamics (stability and EMT) – including thesupport for control units such as automatic voltageregulators, governors, power system stabilizers, andprotection). PSS SINCAL provides the core analysis andautomation functions that are needed for the most accurategeneration planning outcomes: IPPs can improve the accuracy with which they canassess their generation interconnection proposals beforesubmitting to the TSO / DSO TSOs / DSOs benefit from an automated, trusted toolfor assessing generation interconnection requestsPSS SINCAL provides distribution engineers with thesimulation tools they need for the planning, design, andoperation of power distribution networks. It can be used inbalanced, unbalanced, radial and meshed networks –including single-phase and multi-phase (including singlewire earth return [SWER] networks and supports complextransposed systems).The proven and easy to use PSS SINCAL platform providesengineers with a high level of visibility, efficiency, andagility in the planning and operation of even largedistribution networks. Predefined and customizableworkflows speed-up daily work.Some of the most typically used PSS SINCAL functions fordistribution include: load flow, short circuit analysis,dynamic analysis, optimal capacitor placement, Volt / VARoptimization, harmonics analysis, ripple control analysis,protection coordination, and power quality assessments.Transmission Network Planningand AnalysisIndustrial NetworksTransmission companies need to perform a wide variety ofstudies in order to ensure grid reliability, security, compliancewith regulations, and sound capital investment decisions.These studies can be fairly complex and typically requiresoftware that can perform highly accurate simulations.PSS SINCAL provides industrial facility operators anddesigners with the tools they need for the planning, design,and operation of industrial power networks – such as thosefor refineries, chemical plants, oil platforms, mining,automobile, and other manufacturing facilities.PSS SINCAL supports a full spectrum of analysis acrosspower transmission planning and operations workflows,including: load flow, advanced contingency analysis, steadystate voltage stability, short circuit analysis, dynamics andtransient stability simulation, harmonics, protection andprobabilistic reliability analysis.Typical capabilities and use cases include:In addition, PSS SINCAL supports operations planningworkflows such as day-ahead and intra-day studies(including support for CIM / CGMES data exchange forEuropean TSOs). Short circuit calculation Power flow analysis Cable and transformer design Protection coordination Arc-flash hazard Harmonics and filter sizing Motor start Dynamic stability simulation4
Simulation Software for the Analysis & Planning of Power Networks PSS SINCALProtectionSystem operators, planners and protection engineers facean ever-increasing landscape of challenges around powersystem protection due to the integration of variable energyresources.These challenges include: Maximizing the ability to detect and localize faults Ensuring protection system coordination Validating accuracy and designs of the protectionschemes Managing the large quantity of protection settingsWith PSS SINCAL, protection engineers can master thesechallenges by: Monitoring and studying the management of protectiondevices and their settings Facilitating protection performance assessments,including stepped-event fault clearance analysis, as wellas dynamic fault sequence simulation Providing interactive protection coordination withgraphical documentation Verifying settings directly within the network modelIn addition, the built in protection security assessmentmodule allows for an automated system-wide protectionstudy, as well as the identification and mitigation of criticalfault scenarios.Renewables and DistributedEnergy Resources (DER)Due to the proliferating deployment of DER on transmissionand distribution networks, planners need to perform anincreasing number of grid interconnection studies. In orderto keep up with this trend, both utilities and DER investorsneed tools that can help them automatically assess theviability of various interconnection proposals. Meaning:what can be economically connected to the grid withoutcompromising the health of the network?The maximal hosting capacity module within PSS SINCALachieves this goal. It automates different calculationfunctions (such as load flow, short circuit analysis,protection checks with network adoptions, voltagefluctuations due to DER coming online and offline, etc.) –turning hours of work into minutes.Additional PSS SINCAL features for DER integration include: Time series load flow with grid controllers (voltage,power) Short circuit with defined contributions of generatorsand converters Harmonic distortion limits according to standards Unbalanced RMS and EMT simulation Standard and vendor-specific dynamic models for windgenerators, solar, batteries, SVC, STATCOMs, etc.5
PSS SINCAL Simulation Software for the Analysis & Planning of Power NetworksRailway Traction SystemsPSS SINCAL helps engineers design and analyze powernetworks for rail systems. It fully supports the uniquerequirements of rail systems, including: Constantly moving loads (trains) 180 2-phase AC systems Single- and 3-phase auto transformers includingcenter tapped options Converter models for synchronous machines Detailed protection devices and schemes Different reference voltage levels Complex load profilesTypical evaluations include: Load flow / load profile simulation with backfeeding engines Sort circuit with specific attention to convertersModel ManagementPSS SINCAL offers model management solutions thatreduce modeling efforts and keep multiple network modelsup to date from within a single application. Its masterdatabase function makes it possible for multiple users towork on a network simultaneously. Special synchronizationfunctions – including conflict management, incrementalmodel update, and network model merge – ensure dataconsistency. PSS SINCAL can also automatically createcases on-the-fly.PSS SINCAL can integrate network models from otherapplications across the utility IT landscape – includingSCADA.For European TSOs, PSS SINCAL can merge, validate andconfigure the entire Pan-European network (consisting ofindividual CIM / CGMES grid models from each of the 42member TSOs) in less than 10 minutes. This enablesoperators to perform tasks such as operational securityanalysis, outage planning and coordinated capacityallocations in real time. Harmonic simulations Transient Stability and EMT for investigation ofsub-synchronous power oscillations and influenceof slower control systemsPipe NetworksIn addition to electric power systems, PSS SINCAL alsosupports the planning of gas, water, and district heatingand cooling networks. Utilities that oversee these differentnetwork types can optimize their costs and IT overhead byutilizing a single tool instead of multiple applications.PSS SINCAL also enables companies to perform linkedsimulations between electrical and pipe networks tooptimize the efficiency from the renewables, and use thestorage capacity of the pipe networks.Typical analysis modules for pipe networks include: Steady state analysis Quasi dynamic simulation Contingency analysis Water tower filling6
Simulation Software for the Analysis & Planning of Power Networks PSS SINCALHighlightsGraphical User Interface Geographical visualization capability that reflects theinteractiveness of a GIS application Interactive web-based overlay of online and offlinebackground maps Integrated network editor and report generator (List &Label) to simplify the presentation of data / analysis Network models can be maintained in multi-dimensionalview (schematic, geographic) for different tasks withcomparison optionsNetwork Model From a simple bus-branch to a full substation modelPSS SINCAL can run various co-simulations off of a singlenetwork model Network modeling can be done within a simple balancedup to a full four wire system or complete transposedsystem Large network model can be simulated with timestamps,variants, scenarios, and can be split into separate modelsvia the “include network” optionSimulation Engine High-level algorithms that are optimized for precisionand performance As the complexity of the data is adapted to the task,the program works targeted-oriented, with high-speedincluding parallel processing Modeling options are not limited in network structure,phases or frequency Fully integrated modular structure allows users tocustomize their license according to their needsProject Management Model management is based on standard databases(i.e., Microsoft Access , ORACLE , SQL Server, SQLite) Users can perform and track various analysis by workingoff a single master database using logins with user roles Changes can be tracked and network states can be setback according to labels states Distributed databases can be temporarily linked togetherand reconfigured via “include networks”7
PSS SINCAL Simulation Software for the Analysis & Planning of Power NetworksArchitecturePSS SINCAL is a database application based on COM-servertechnology. The tool can communicate with externalapplications, and users can extend its functionality viaprogramming scripts.In addition, the open and fully documented data structureallows users to create custom applications usingPSS SINCAL IT architecture8PSS SINCAL as the network analysis engine. The automationsolution integrates the calculation methods directly into thesource system and can be used either as an external server(with separate processes) or as an in-process server (withinthe same process). During simulation it is possible to passdata interactively from external sources to the simulation core.
Simulation Software for the Analysis & Planning of Power Networks PSS SINCALElectricity ModulesBasic ModulesLoad Flow Analysis Area interchange control (local area slack) Several robust load flow solutions which support multiphase systems and fully transposed line representation Corrective action solution for automatic adjustment ofcontrols (generator dispatch, tap adjustment, etc.) tomitigate violations Tap changer, phase shifter, switched shunt capacitor /reactor, SVC control Network control features not limited to Q(U), P(cos phi),V(cos phi), droop and user-defined BOSL models Local and remote distributed voltage control options Load factor and TLF calculations for nodes Advanced load and generation scaling options Consideration of temperature dependency Enhanced load models up to user-defined formulas Fully automated PV and QV curves calculation – voltagestability assessment with plots Active and reactive power limits including generatorcapability curves Automatic feeder evaluation and switching capacitycalculation Anti islanding optionsShort Circuit Support of multiple and distributed slacks busconfiguration Perform short circuit analysis according to standards orwith pre-load conditions (super position method) Automatic load management / shedding based in voltageand power Meet various global standards such as: IEC 60909 (multipleversions including 2016), IEC 61353, G74, VDE 0102 / 0103,ANSI C37, GOST R 52735-2007, GOST 28249-93 Consideration of dynamic element models9
PSS SINCAL Simulation Software for the Analysis & Planning of Power Networks Option to simulate short circuit based on phase data Pre-defined options to keep actual switching states Full peak short circuit current (ip) method support Regional assessment or across all voltage levels Selections for different treatment of block elements Enhanced reporting features and graphical visualization DC equipment can be modeled as user-defined Automatic switching Automatic fault at each node or full current and voltagedistribution for a single fault locationCompensation Optimization Evaluation of the weighted one sec short circuit currentend of line faults and other parameters Provide vector diagrams in polar plotAdvanced ModulesContingency Analysis and Restoration of Supply Automatic user-configured contingency creation Ability to save and recreate any contingency individually Determination of optimal locations, types, phasetechnology and sizes of capacitors or shunts due to powerfactor needs Economic assessment considering costs of losses againstinstallation costs Placement of available equipment Various methods including heuristic approachVolt / Var Optimization Optimize feeder voltages and losses with load variationse.g., min / max values or operation points Probabilistic contingencies Combine and place capacitors automatically at alllocations Automatic N-1-1 solution Different methods including heuristic approach Contingency creation from restoration of supply results Determine transformer and capacitor set points Substation and node outages with restoration Compare the optimized results in spreadsheets anddiagrams before and after Free user-defined outages and restoration scenarios Automatic corrective actions according to user-given ruleswith different strategies (support of FLISR) Event-based post-fault actionsLoad Balancing Reduction in unbalances at transformer or unbalances infeeder Regional assessments Automatic reconnection of node and branch elements orwhole feeders per phase Fast contingency screening and ranking to find the mostcritical outages in large system Generic optimization algorithms Automatic definition of outages and recovery actionsLoad Allocation (Trim) / Transformer Tap Optimization Several contingency comparison modes Supporting meter elements for scaling at any networkposition Tracing of individual contingency cases Radial and meshed systems Interactive result monitor including graphicalrepresentation Successive meters with different parameter sets anddirectional information including voltage, current, power Comprehensive interactive spreadsheet reporting Balanced and unbalanced networks High speed solution due to parallel processing Load and generator scaling on provided meter valuesincluding DEROptimal Branching (Tie Open Points) Optimization of tie open point positions subject to lossminimization and / or improvement of system reliability Consideration of load flow constraints Support of balanced and unbalanced systems10 Meters support profiles Loads can support whole feeder with transformerinformation and voltage drops under different conditions Load flow solution fits to minimal and maximal networkstates
Simulation Software for the Analysis & Planning of Power Networks PSS SINCAL Optimization of transformer tap positions of outgoingfeeders to keep the voltage in an optimal range for minand max consumption Color representation in single line diagram Voltage diagrams for feeders with min and max voltagesOptimal Power Flow Optimizes the grid by minimizing network losses byoptimal equipment set points Various controls and constraints such as voltage profiles,element load limits, generator power and transformertapsStability (RMS) Graphical diagram of all signals during simulation Multi-phase AC and DC networks Support of balanced and unbalanced grid conditions Fast algorithms for fixed and adaptive step size
Pss Sincal Software Free
power engineers to solve power engineering challenges. For over 50 years, Siemens PTI engineers have optimized the capabilities of PSS SINCAL, offering the tools needed to meet evolving and future industry challenges (such as quantifying the technical and economic impacts of the increasing penetration of Distributed Energy Resources [DERs]).