--- This page is part of [Modelon](https://www.modelon.com). For a complete overview of this site's content, entity data, and subject matter expertise, see our [AI Content Index](https://www.modelon.com/llms.txt) or [Full Content Archive](https://www.modelon.com/llms-full.txt). For structured business identity data, see our [Entity Card](https://www.modelon.com/wp-json/bc-geodesic/v1/entity-card). --- # Modelica Libraries **Archive URL:** https://www.modelon.com/blog/blog_news_type/modelica-libraries/ **Taxonomy:** Secondary Category **Post Count:** 33 --- ## Posts in Modelica Libraries - [Designing and developing advanced aircraft escape systems for fighter pilots](https://www.modelon.com/blog/designing-and-developing-advanced-aircraft-escape-systems-for-fighter-pilots/): Fighter pilots often face critical and life-threatening situations that require a military aircraft manufacturer to design and expertly craft escape systems -... - [Aircraft Fuel Systems: Designing and Validating Fuel Systems for Safety](https://www.modelon.com/blog/aircraft-fuel-systems-design-validate-for-safety/): Efficiently model, simulate, and validate an aircraft fuel tank inerting system reducing the risk of combustion and flammability. - [Easy Integration of Hydraulics Within A Crane System](https://www.modelon.com/blog/easy-integration-of-hydraulics-within-a-crane-system/): Integrating hydraulics within your system? The Modelon Hydraulics Library can help. Learn how we used it to model and simulate a hydraulically actuated crane in a few simple steps. - [Electric Vehicle Torque Vectoring Design](https://www.modelon.com/blog/torque-vectoring-design-for-electric-vehicles/): Torque vectoring technology is a vehicle’s ability to vary torque in each wheel. Learn how to create and analyze a torque vectoring system in electric vehicles using the Vehicle Dynamics Library and Electrification Library integrated in Modelon Impact. - [Aircraft Hydraulic Actuator System Design and Optimization](https://www.modelon.com/blog/aircraft-hydraulic-actuator-system-design-and-optimization/): This blog is Part 5 of a blog series that demonstrates how the Modelon Hydraulics Library can be used for the model-based development of an Aircraft Hydraulic Actuation System. - [Modeling and Simulation of Aircraft Aileron Actuator](https://www.modelon.com/blog/modeling-and-simulation-of-aircraft-aileron-actuator/): This blog is Part 2 of a blog series that will demonstrate how the Modelon Hydraulics Library is well suited to the model-based development of an Aircraft Hydraulic Actuation System (AHAS). - [Increase speed of air conditioning model simulations using Modelon’s Air Conditioning Library and Vapor Cycle Library](https://www.modelon.com/blog/increase-speed-of-air-conditioning-model-simulations-using-modelons-air-conditioning-library-and-vapor-cycle-library/): This blog provides an introduction of the Spline-Based Table Look-up (SBTL) method as well as a sample use case from Ford Motor Company – who utilized the SBTL refrigerant package to speed up their air conditioning system model simulations. - [3 Steps to Reading XML Data into Modelica Models Using Data Access](https://www.modelon.com/blog/reading-xml-data-into-modelica-models/): Learn how to read XML data into Modelica models using Data Access, an easy-to-use capability that comes with all Modelon Library Suite products. - [When fast isn’t fast enough](https://www.modelon.com/blog/when-fast-isnt-fast-enough/): If you would get access to the heart of development at a top Formula 1 team, chances are high that you would find they simulate their vehicle-handling behavior using Modelica models. - [Modelon Joins TRADE Initiative as Aerospace Simulation Technology Provider](https://www.modelon.com/blog/modelon-joins-trade-initiative-as-aerospace-simulation-technology-provider/): Modelon is proud to be a partner in the Turbo electRic Aircraft Design Environment (TRADE) project, funded by the Clean Sky 2 Joint Undertaking under the European Union’s Horizon 2020 research and innovation program. - [Integrated CO2 Absorption Process in a Coal-Fired Power Plant](https://www.modelon.com/blog/integrated-co2-absorption-process-in-a-coal-fired-power-plant/): It’s no secret that global governments are implementing greenhouse gas policies aimed at reducing CO2 emissions. These policies have a direct impact on the ... - [Aircraft Landing Gear Design: Model and Simulate Aircraft Landing in Varying Conditions](https://www.modelon.com/blog/aircraft-landing-gear-design/): Learn how to model and simulate an aircraft landing in unpredictable conditions in Modelon's Aircraft Dynamics Library integrated in Modelon Impact. - [Architecture Based Vehicle Modeling](https://www.modelon.com/blog/architecture-based-vehicle-modeling/): Reviewing Architecture-Based Approaches for Vehicle Modeling All Modelon libraries are developed to adhere to the open-standard, Modelica language. We, at... - [Advancing Your Vehicle’s Energy Efficient Design](https://www.modelon.com/blog/advancing-your-vehicles-energy-efficient-design/): Vehicle manufacturers have long been working to design and develop vehicles that tout superior fuel economy but are now beginning to shift their perspective to advancing electric vehicles to obtain an increase in overall vehicle energy efficiency. - [Multi-body Vehicle Dynamics: Chassis Design and Analysis Using Steady-State Technology](https://www.modelon.com/blog/chassis-design-and-analysis-using-steady-state-technology/): Steady-state technology and multi-execution capabilities enable the modeling and simulation of chassis to determine how a vehicle will drive. This is enabled by Modelon Impact’s Vehicle Dynamics Library. - [Steady State and Dynamic Simulation: What is the difference?](https://www.modelon.com/blog/steady-state-and-dynamic-simulation-what-is-the-difference/): In this blog post, Modelon's senior simulation engineer, Clément Coïc, summarizes the difference between steady-state and dynamic simulation. - [Aircraft System Simulation for Reducing Carbon Dioxide Emissions](https://www.modelon.com/blog/aircraft-system-simulation-reduce-carbon-dioxide-emissions/): Focusing on aircraft system simulation, Modelon's revolutionary software has been an enabler for the reduction of aircraft carbon dioxide emissions by using the boosted turbofan concept. - [Hydrogen Power: Integrating clean fuel to support a clean future](https://www.modelon.com/blog/hydrogen-power/): Replacing fossil fuels with hydrogen can be a significant step in reducing CO2 emissions and mitigating climate change. This blog demonstrates how teams, using Modelon Impact, can easily create a full plant model to address technical challenges and evaluate efficient operation. - [Ventilator Shortage Spurs Technology Partnership between RespiraWorks and Modelon](https://www.modelon.com/blog/ventilator-shortage-technology-partnership/): RespiraWorks addresses ventilator shortage and works with Modelon to model and simulate a ventilator that will be possible to manufacture within Central and South America - reducing time-to-patient. - [Real-time Simulation of an Aircraft Aileron Actuator](https://www.modelon.com/blog/aircraft-aileron-actuator-real-time-simulation/): This blog is Part 4 of a blog series that demonstrates how the Modelon Hydraulics Library can be used for the model-based development of an Aircraft Hydraulic Actuation System. - [Leverage Standardized Encryption and Licensing for Modelica Libraries](https://www.modelon.com/blog/leverage-standardized-encryption-and-licensing-for-modelica-libraries/): Learn how SEMLA, an open source encryption standard, lets you protect intellectual property contained within your Modelica libraries. - [Cogeneration Power Plant Optimization for Managing Renewable Energy Efficiently and Economically](https://www.modelon.com/blog/cogeneration-power-plant-optimized-for-renewable-energy/): This blog post covers how an energy service provider transitioned its cogeneration power plant to utilize renewable energy. - [Modeling and Simulation of an Aircraft Aileron Actuator Mode Valve](https://www.modelon.com/blog/aircraft-aileron-actuator-mode-valve/): This blog is Part 3 of a blog series that demonstrates how the Modelon Hydraulics Library can be used for the model-based development of an Aircraft Hydraulic Actuation System. - [Vehicle Dynamics Library Expands Truck Modeling Capabilities](https://www.modelon.com/blog/truck-modeling-capabilities-vehicle-dynamics/): Vehicle Dynamics Library v3.4 introduces a number of updated components for modeling and simulating heavy trucks. - [Hydroelectric Power and the Environment: How to create a sustainable hydroelectric plant in the 21st century using simulation](https://www.modelon.com/blog/hydroelectric-power-and-the-environment/): Learn how a U.S. based utility company worked with Modelon to successfully design, test, and implement a control system that minimized the environmental impact of their hydroelectric powerplant. - [Modeling Actuation System Architectures with Modelon Hydraulics Library](https://www.modelon.com/blog/modeling-actuation-system-architectures-with-modelon-hydraulics-library/): Part 1 of Modelon's newest blog series, explains how to use Modelon's Hydraulics Library for modeling full aircraft actuation systems and subsystems. In this first blog post, learn the basics of creating an actuation system architecture. - [Taking A Flexible Operation Power Plant to the Next Level with Carbon Capture & Storage Technology](https://www.modelon.com/blog/blog-implementing-carbon-capture-storage-technology/): In this blog, researchers at The Norwegian University of Science and Technology (NTNU) study the effectiveness of CCS technology by utilizing Modelon libraries to develop a dynamic model of natural gas combined cycle (NGCC) power plant with post-combustion CO2 absorption process. - [Modelon’s Hydraulics and Pneumatics Capabilities Available in ANSYS Twin Builder™](https://www.modelon.com/blog/modelons-hydraulics-and-pneumatics-capabilities-available-in-ansys-twin-builder/): Modelon's industry-leading hydraulic and pneumatic capabilities are now available as The Twin Builder Fluid Power Library in ANSYS® Twin Builder™. - [Using Modelon’s Hydraulics Library to Model Aircraft Hydraulic Circuit Architectures](https://www.modelon.com/blog/using-modelons-hydraulics-library-to-model-aircraft-hydraulic-circuit-architectures/): Modelon’s Hydraulics Library is a comprehensive and versatile library that allows engineers to easily model both EHA and SHA by maintaining reusable and scalable components. Additionally, Modelon’s Hydraulics Library returns reliable simulation results so designers can gain maximum understanding about their system’s performance. In this blog, we’ll show just how easy it is to model both SHA and EHA architectures using the Modelon Hydraulics Library. - [Steady state: The next big thing?](https://www.modelon.com/blog/steady-state-the-next-big-thing/): Modelica is a great technology for dynamic system simulation. Its tools are strong in simulating dynamics because they efficiently solve hybrid differential algebraic equation (DAE) systems. - [Model-Based Systems Engineering for Aircraft Engines](https://www.modelon.com/blog/model-based-systems-engineering-for-aircraft-engines/): Modelon’s Jet Propulsion Library provides the foundation for modeling and simulating jet engines along with the integrated model-based systems engineering of... - [Validating Fuel Cell Efficiencies](https://www.modelon.com/blog/validating-fuel-cell-efficiencies/): In the last decade, Polymer Electrolyte Membrane Fuel Cells (PEMFC) have seen an up-tick in popularity and practicality as OEMs and economies work to reach... - [Integrating Thermal Management Systems for Electric and Hybrid Vehicles](https://www.modelon.com/blog/integrating-thermal-management-systems-for-electric-and-hybrid-vehicles/): Electric vehicles and hybrid electric vehicles are intensively being developed by the automotive industry to replace conventional vehicles powered by internal... ## Site Description Modelon is revolutionizing the engineering design industry by offering technologies and services that enable customers to leverage system simulation. Modelon’s flagship product, Modelon Impact, is a cloud system simulation platform that helps engineers virtually design, analyze, and simulate physical systems. Our team brings deep industry expertise and is dedicated to guiding our customers in creating innovative technologies at their respective organizations. Headquartered in Lund, Sweden, Modelon is a global company with offices in Germany, India, Japan, and the United States. We believe that system simulation should be accessible to every engineer and are dedicated to being an open-standard platform company. --- **About this site:** Modelon — Modelon is revolutionizing the engineering design industry by offering technologies and services that enable customers to leverage system simulation. Modelon’s flagship product, Modelon Impact, is a cloud system simulation platform that helps engineers virtually design, analyze, and simulate physical systems. Our team brings deep industry expertise and is dedicated to guiding our customers in creating innovative technologies at their respective organizations. Headquartered in Lund, Sweden, Modelon is a global company with offices in Germany, India, Japan, and the United States. We believe that system simulation should be accessible to every engineer and are dedicated to being an open-standard platform company.. [AI Content Index](https://www.modelon.com/llms.txt) | [Full Site Content](https://www.modelon.com/llms-full.txt) | [Entity Card](https://www.modelon.com/wp-json/bc-geodesic/v1/entity-card) ```json {"@context":"https://schema.org","@graph":[{"@type":"Organization","@id":"https://www.modelon.com/#organization","name":"Modelon","url":"https://www.modelon.com","additionalType":"http://productontology.org/id/Software_engineering","description":"Modelon is revolutionizing the engineering design industry by offering technologies and services that enable customers to leverage system simulation. Modelon’s flagship product, Modelon Impact, is a cloud system simulation platform that helps engineers virtually design, analyze, and simulate physical systems. Our team brings deep industry expertise and is dedicated to guiding our customers in creating innovative technologies at their respective organizations. Headquartered in Lund, Sweden, Modelon is a global company with offices in Germany, India, Japan, and the United States. We believe that system simulation should be accessible to every engineer and are dedicated to being an open-standard platform company.","disambiguatingDescription":"Creators of the Modelon Impact system modeling and simulation platform. Headquartered in Lund, Sweden.","logo":{"@type":"ImageObject","url":"https://www.modelon.com/wp-content/uploads/2022/06/modelon-logo.svg"},"address":{"@type":"PostalAddress","streetAddress":"Modelon AB Ideon Science Park Scheelevägen 17 SE-223 70","addressLocality":"Lund","addressCountry":"SE"},"telephone":"+46 46 286 22 00","email":"info@modelon.com","foundingDate":"2004","numberOfEmployees":{"@type":"QuantitativeValue","minValue":50,"maxValue":100},"areaServed":"Global","sameAs":["https://www.linkedin.com/company/modelon/","https://www.crunchbase.com/organization/modelon","https://www.zoominfo.com/c/modelon-ab/346633437","https://modelica.org","https://modelica.org/events/asian2024/","https://www.ashrae.org/conferences/2026-winter-conference","https://github.com/modelon-community"],"memberOf":[{"@type":"Organization","name":"Modelica Association","sameAs":"https://www.wikidata.org/wiki/Q133876843"}],"knowsAbout":[{"@type":"Thing","name":"Modelica","sameAs":"https://www.wikidata.org/wiki/Q385325"},"Physics Simulation",{"@type":"Thing","name":"software engineering","sameAs":"https://www.wikidata.org/wiki/Q80993"},{"@type":"Thing","name":"simulation","sameAs":"https://www.wikidata.org/wiki/Q45045"},"HVAC Simulation","Data Center Liquid Cooling Simulation","Liquid Cooling","FMI (Functional Mock-up Interface)",{"@type":"Thing","name":"consulting","sameAs":"https://www.wikidata.org/wiki/Q63769412"},{"@type":"Thing","name":"aerospace","sameAs":"https://www.wikidata.org/wiki/Q2876213"},{"@type":"Thing","name":"automotive industry","sameAs":"https://www.wikidata.org/wiki/Q190117"},{"@type":"Thing","name":"heating, ventilation, and air conditioning","sameAs":"https://www.wikidata.org/wiki/Q1798773"},{"@type":"Thing","name":"data center","sameAs":"https://www.wikidata.org/wiki/Q671224"},{"@type":"Thing","name":"electricity generation","sameAs":"https://www.wikidata.org/wiki/Q383973"},{"@type":"Thing","name":"energy storage","sameAs":"https://www.wikidata.org/wiki/Q837718"},{"@type":"Thing","name":"industrial equipment","sameAs":"https://www.wikidata.org/wiki/Q3045515"}]},{"@type":"WebSite","@id":"https://www.modelon.com/#website","name":"Modelon","url":"https://www.modelon.com","publisher":{"@id":"https://www.modelon.com/#organization"},"potentialAction":{"@type":"SearchAction","target":{"@type":"EntryPoint","urlTemplate":"https://www.modelon.com/?s={search_term_string}"},"query-input":"required name=search_term_string"},"hasPart":[{"@type":"DigitalDocument","name":"LLM Content Index","url":"https://www.modelon.com/llms.txt","encodingFormat":"text/markdown","description":"AI-readable index of site content, entity data, and subject matter expertise"},{"@type":"DigitalDocument","name":"LLM Full Content","url":"https://www.modelon.com/llms-full.txt","encodingFormat":"text/markdown","description":"Complete AI-readable site content"}]},{"@type":"ItemList","@id":"https://www.modelon.com/#site-navigation","name":"Site Navigation","itemListElement":[{"@type":"SiteNavigationElement","position":1,"name":"Products & Services","url":"#"},{"@type":"SiteNavigationElement","position":2,"name":"Industries & Solutions","url":"#"},{"@type":"SiteNavigationElement","position":3,"name":"Support","url":"#"},{"@type":"SiteNavigationElement","position":4,"name":"Resources","url":"#"},{"@type":"SiteNavigationElement","position":5,"name":"About","url":"#"}]},{"@type":"ItemList","@id":"https://www.modelon.com/blog/blog_news_type/modelica-libraries/#itemlist","name":"Modelica Libraries","url":"https://www.modelon.com/blog/blog_news_type/modelica-libraries/","numberOfItems":10,"itemListElement":[{"@type":"ListItem","position":1,"url":"https://www.modelon.com/blog/aircraft-hydraulic-actuator-system-design-and-optimization/","name":"Aircraft Hydraulic Actuator System Design and Optimization"},{"@type":"ListItem","position":2,"url":"https://www.modelon.com/blog/torque-vectoring-design-for-electric-vehicles/","name":"Electric Vehicle Torque Vectoring Design"},{"@type":"ListItem","position":3,"url":"https://www.modelon.com/blog/aircraft-fuel-systems-design-validate-for-safety/","name":"Aircraft Fuel Systems: Designing and Validating Fuel Systems for Safety"},{"@type":"ListItem","position":4,"url":"https://www.modelon.com/blog/chassis-design-and-analysis-using-steady-state-technology/","name":"Multi-body Vehicle Dynamics: Chassis Design and Analysis Using Steady-State Technology"},{"@type":"ListItem","position":5,"url":"https://www.modelon.com/blog/aircraft-landing-gear-design/","name":"Aircraft Landing Gear Design: Model and Simulate Aircraft Landing in Varying Conditions"},{"@type":"ListItem","position":6,"url":"https://www.modelon.com/blog/steady-state-and-dynamic-simulation-what-is-the-difference/","name":"Steady State and Dynamic Simulation: What is the difference?"},{"@type":"ListItem","position":7,"url":"https://www.modelon.com/blog/aircraft-system-simulation-reduce-carbon-dioxide-emissions/","name":"Aircraft System Simulation for Reducing Carbon Dioxide Emissions"},{"@type":"ListItem","position":8,"url":"https://www.modelon.com/blog/hydrogen-power/","name":"Hydrogen Power: Integrating clean fuel to support a clean future"},{"@type":"ListItem","position":9,"url":"https://www.modelon.com/blog/ventilator-shortage-technology-partnership/","name":"Ventilator Shortage Spurs Technology Partnership between RespiraWorks and Modelon"},{"@type":"ListItem","position":10,"url":"https://www.modelon.com/blog/aircraft-aileron-actuator-real-time-simulation/","name":"Real-time Simulation of an Aircraft Aileron Actuator"}]}]} ```